CN216569835U - Base station system - Google Patents

Abstract

The base station system comprises a base station, wherein the base station is used for parking the mopping machine for maintenance and comprises a station main body, and a drying area is arranged on the station main body and used for drying a roller on the mopping machine; when the mopping machine is stopped on the base station, at least one part of the drying area is positioned at the lower side area position of the central position of the roller, the drying area is provided with a drying part, a drying gap part is arranged between the drying part and the outer surface of the roller, at least one part of the drying part is arranged to be in an arc structure corresponding to the outer surface of the roller, and a plurality of drying holes which are distributed in parallel along the rotating axis direction of the roller are arranged at the position of the arc structure on the drying part. The scheme solves the problems of poor effect, long time consumption and the like in the drying treatment process of the roller in the prior art.

Description

Base station system

Technical Field

The utility model relates to the clean field on ground, concretely relates to basic station system.

Background

The prior mopping machine or floor washing machine structure is partially provided with a roller for mopping or washing the ground, clean water is mainly supplied to the roller, the roller forms sewage in the process of cleaning the ground, although the sewage is collected and treated, partial water stains are remained on the roller, so that the roller is in a wet structure, when the cleaning task of the ground is completed, the roller needs to be cleaned in time to keep clean, it is also preferable to treat the drum so that the drum is not in a wet state, and the wet structure causes mold, odor and decay in the wet state and in the unused state of the drum, if the roller is easy to decay under a wet structure for a long time, the roller is broken or even damaged under the action of external force, the reliability of the roller is seriously reduced, and the use experience effect of a user is seriously influenced.

In the scheme of handling to the moist structure of cylinder, have among the prior art to set up the workstation and come to maintain mopping machine, if air-dry or drying process the cylinder of mopping machine, but the effect that the structure of air-drying or drying realized is whole not good, can't effectually carry out drying process with the cylinder, has drying process inhomogeneous, the long scheduling problem of consuming time.

SUMMERY OF THE UTILITY MODEL

The present invention is directed to solving, at least to some extent, one of the technical problems in the related art.

Therefore, the utility model aims to provide a basic station system mainly solves among the prior art and carries out the effect that exists among the drying process to the cylinder poor, the long scheduling problem that consumes time.

The embodiment of the utility model provides a base station system, which comprises a base station, wherein the base station is used for the stop of a mopping machine for maintenance, the base station comprises a station main body, and a drying area is arranged on the station main body and is used for drying a roller on the mopping machine;

when the mopping machine is stopped on the base station, at least one part of the drying area is positioned at the lower side area position of the central position of the roller, the drying area is provided with a drying part, a drying gap part is arranged between the drying part and the outer surface of the roller, at least one part of the drying part is arranged to be in an arc structure corresponding to the outer surface of the roller, and a plurality of drying holes which are distributed in parallel along the rotating axis direction of the roller are arranged at the position of the arc structure on the drying part.

In the foregoing base station system, the drying hole is set to be communicated with the drying gap portion, and a projection area where the drying hole projects on the outer surface of the drum is set to be a drying projection area, and a distance H1 between two ends of the drying projection area along the circumferential outer surface of the drum is greater than a distance H2 between two ends of the drying projection area along the rotation axis direction of the drum.

In the base station system, the drum is set to be capable of rotating along the direction a, and the drying part is set to be located in the corresponding outer region position from the bottom position Q of the drum to the first side end position W of the drum by taking the bottom of the drum as a starting position along the direction a;

or, the drum is set to be capable of rotating along the direction A and the drying part is set to be positioned in the corresponding outer region position from the second side end position E of the drum to the bottom position Q of the drum by taking the bottom of the drum as the starting position along the direction A.

In the base station system, the drying hole extends along the direction a, a penetrating structure is formed on the drying part, the drying hole is open towards the middle position of the roller, and the connecting position where the drying hole is communicated with the drying gap is located above the bottom position of the roller;

or the distance value between the outer surface of the drying part and the outer surface of the roller is greater than or equal to 2 mm and less than or equal to the radius value of the roller;

or, the roller is provided with an outer layer part which is formed into the outer surface of the roller, the outer layer part is set to be a soft structure, and the outer surface of the outer layer part is positioned in the drying gap part and is not contacted with the outer surface of the drying part when the roller rotates.

In the base station system, one side of the drying area is provided with the collecting duct, the collecting duct is arranged to extend and distribute along the rotation axis direction of the drum to form a structure communicated with the drying hole, and the bottom end face position of the collecting duct is arranged to be located at the lower side of the bottom position of the drum and/or the cross section of the collecting duct is arranged to be gradually narrowed from bottom to top.

In the base station system, the station main body is further provided with a drying flow channel, the drying flow channel is positioned on one side of the collecting flow channel and is communicated with the collecting flow channel, and an air flow device capable of generating air flow into the drying flow channel is connected and installed on the upper or middle position of one end of the drying flow channel;

and/or the drying area is provided with flow blocking parts at the two ends along the rotation axis direction of the roller, the flow blocking parts extend towards the upper part of the roller, and the two flow blocking parts are correspondingly arranged at the outer side positions of the two side end surfaces along the rotation axis direction on the roller respectively to form a structure for blocking the airflow generated by the airflow device from the side direction.

In the base station system, the lower end of the drying part is provided with the extension part, the extension part is positioned on the lower side of the roller, one end of the extension part, which is far away from the drying part, is connected with the flow guide part, and at least one part of the flow guide part is arranged to extend upwards along the circumferential outer surface of the roller to form an arc-shaped structure.

In the base station system, the top end surface of the flow guide part is positioned above the bottom position of the roller, and a flow guide gap part is formed between the flow guide part and the outer surface of the roller;

the cross-section of water conservancy diversion clearance portion sets up to be open structure or the cross-section of water conservancy diversion clearance portion sets up to be the open structure that expands gradually towards water conservancy diversion portion direction by the extension towards water conservancy diversion portion direction.

The base station system is characterized in that the advancing direction of the mopping machine is set to the forward direction, the mopping machine comprises a mopping body, the roller is arranged on the front position of the mopping body, and the outer side part area between the bottom position of the roller and the front side end position of the roller on the front position of the roller is an open structure to form a structure communicated with the outside of the mopping machine.

In the base station system, the upper part of the drying part is connected with a guide part, the mopping main body is provided with the shell and the cylinder cavity for installing the roller, the guide part and the shell are arranged at the front side of the roller and form a guide channel communicated with the cylinder cavity between the guide part and the roller, and the guide channel is communicated with the flow guide gap part through the cylinder cavity and/or the drying gap part.

In the base station system, the station body is further provided with a thermal module for generating heat to thermally dry the drum, the thermal module is arranged to be in mutual contact with the outer surface of the drum to thermally dry or the thermal module is arranged to be positioned between the drying hole and the air flow device to form a structure in which the air flow can be heated by the thermal module and then thermally dried;

and/or a control module electrically connected with the air flow device is further arranged in the station main body, and a threshold value P is arranged in the control module to form a structure which controls the air flow device to perform continuous rotary motion or intermittent rotary motion on the roller in the process of performing continuous drying treatment or intermittent drying treatment on the roller.

In the base station system, the base station comprises a base for supporting and parking the mopping machine, the base is arranged to be a detachable installation structure, and the drying area is arranged to be located on the base;

and/or when the thermal module is arranged on the station main body, the thermal module is electrically connected with the control module, and a threshold value R is arranged in the control module to form a structure which can provide heat with a temperature value of more than or equal to 30 degrees and less than or equal to 85 degrees for thermally drying the roller by the thermal module.

Compared with the prior art, the utility model discloses following beneficial effect has:

the basic station of this scheme can come to carry out drying process to the cylinder on the mopping machine, and the cylinder that mainly will be moist structure in time carries out drying process, prevents that the cylinder from arousing the problem of going mildy, smelly or even rotten under long-time moist structure.

This scheme is mainly through setting up the drying zone and carrying out drying process to the cylinder, and the structural part in drying zone, drying portion and drying hole can realize carrying out effectual wrapping type drying process to the cylinder, promotes to carry out dry efficiency to the cylinder, promotes simultaneously and carries out dry homogeneity to the cylinder.

The structure of drying portion and drying hole in this scheme can effectually prevent to carry out the water droplet drippage on the cylinder and enter into in the drying hole at the in-process of drying process to the cylinder, ensures that the basic station comes to carry out the reliability of dry maintenance processing to the cylinder.

The structure of the drying hole of the scheme can realize the effect of drying treatment for forming a large area in the circumferential direction of the roller, and meanwhile, the drying treatment at a multi-point position can be formed in the rotation axis direction of the roller, so that the drying efficiency and the drying uniformity of the roller are integrally improved.

The structure of drying portion, drying hole, extension and water conservancy diversion portion of this scheme can effectually realize making the humid air current or the fog that produces among the drying process carry out effectual guide and discharge at the in-process that carries out drying process to the cylinder, prevents that humid air current or fog from gathering and leading to taking place the slow problem of cylinder drying efficiency in the drying zone.

The structure setting of the cylinder on the mopping machine of this scheme can effectually realize that the cooperation realizes that the drying zone carries out drying process to the cylinder when the mopping machine parks the basic station on, and the drying zone carries out drying process to the cylinder that the structural position part realizes that the drying zone effectively wraps up the partial position of the lower part of cylinder and carries out the drying, is favorable to the direction of guide air current simultaneously, promotes and carries out dry efficiency to the cylinder.

The structure in this scheme can effectually form and carry out the drying process of circumference to the cylinder, and the structure realizes that the guide air current comes to carry out the drying to the circumference surface of cylinder to concentrate the air current and outwards discharge, promote efficiency and the homogeneity to the cylinder drying, can effectually concentrate wet air current and the fog that produces in the discharge drying process simultaneously.

This scheme can also set up the hot module and come to provide the heat to the cylinder and realize drying in carrying out drying process's structure to the cylinder, and the hot module can be dried or the hot module combines the air current ware to realize providing hot-blast to dry for the direct contact cylinder simultaneously, can effectual promotion to the drying process efficiency of cylinder, and drying process's homogeneity is better simultaneously.

This scheme sets up the cylinder and carries out rotary motion at the in-process of carrying out drying process to the cylinder, and the cylinder can be for rotating the roll continuously, also can be for intermittently rotating the roll to come to form the drying process effect to the optional position on the circumference surface of cylinder, prevent that the cylinder from carrying out drying process in single position and leading to that the drying effect is poor, the inhomogeneous problem of drying process takes place, simultaneously can effectual promotion to the drying process efficiency of cylinder.

Drawings

FIG. 1 is a perspective view of a floor mopping machine;

FIG. 2 is a perspective view of a base station and a base removably mounted to a main body of the station;

FIG. 3 is a schematic diagram of a base station;

FIG. 4 is a schematic illustration of a mopping machine resting on a base station for dry maintenance;

FIG. 5 is an enlarged view of a portion at X in FIG. 4 to illustrate a drying process of the drum;

FIG. 6 is a schematic projection of the drying holes on the drying section projected onto the drum;

reference numerals: 1-base station, 10-station body, 101-drying zone, 1011-drying part, 10111-drying hole, 1012-drying gap part, 1013-flow blocking part, 1014-extension part, 1015-flow guiding part, 1016-flow guiding gap part, 1017-drying projection zone, 1018-guiding part, 1019-guiding channel, 102-collecting channel, 103-drying flow channel, 104-air flow device, 11-base, 2-mopping machine, 20-mopping body, 201-roller, 2011-outer layer part, 202-shell and 203-barrel cavity.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention will be further described with reference to the following embodiments.

Example (b): the utility model discloses a basic station system, as figure 1 to figure 6 constitute shows, basic station 1 mainly used comes to maintain the processing to mopping machine 2, wherein mainly includes to carrying out dry maintenance to cylinder 201 on mopping machine 2 and handle, and mopping machine 2 mainly carries out mopping cleaning or washes clean task subaerial, through basic station 1 to the maintenance processing of mopping machine 2 can effectually prevent that the problem that mouldy, smelly or even corruption from appearing in cylinder 201.

The system of this scheme includes basic station 1, and basic station 1 is used for maintaining the processing to mopping machine 2, and specifically, basic station 1 includes station main part 10, is provided with dry area 101 on the station main part 10 and is used for carrying out drying process to cylinder 201 on mopping machine 2, mainly carries out drying process to cylinder 201 that is moist structure, if carry out air-dry drying process or stoving drying process to cylinder 201, prevents that cylinder 201 from arousing the problem of going mildy, smelly or even rotten under long-time moist structure.

When the floor mopping machine 2 is parked on the base station 1, at least a part of the drying area 101 is located at a lower side area position of a central position of the drum 201, so that the drying area 101 is located at the lower side area position of the drum 201 to form a drying effect facing to an upper direction, and the drying area is favorable for forming a better airflow when the drum 201 is dried by the airflow, the airflow flows towards the upper direction and flows along the outer surface of the drum 201 to perform the drying treatment, specifically, a drying part 1011 is arranged on the drying area 101, a drying gap part 1012 is arranged between the drying part 1011 and the outer surface of the drum 201, the drying gap part 1012 is used for the airflow flowing and forms a wrapping type airflow direction near the outer surface of the drum 201 to perform the drying treatment on the drum 201, at least a part of the drying part 1011 is arranged to be in an arc structure corresponding to the outer surface of the drum 201, and the drying part 1011 is favorable for guiding the airflow to form a wrapping type drying effect on the drum 201 And a plurality of drying holes 10111 are arranged on the position of the arc-shaped structure on the drying part 1011 in parallel along the rotation axis direction of the drum 201, the plurality of drying holes 10111 are used for blowing the air flow towards the outer surface direction of the drum 201, meanwhile, the arc-shaped structure of the drying part 1011 and the structure of the drying holes 10111 arranged on the position of the arc-shaped structure can effectively form better air flow when the air flow dries the drum 201, the air flow flows upwards and flows along the outer surface of the drum 201 for drying treatment, the air flow is divided into two parts under the guidance of the arc-shaped structure of the drying part 1011, one part of the air flow flows towards the lower direction along the outer surface of the drum 201, and the other part of the air flow flows towards the upper direction along the outer surface of the drum 201, so as to form the wrap-around type drying treatment result of the drum 201.

Specifically, the drying holes 10111 of the present solution are configured to be communicated with the drying gap 1012, the airflow flowing out through the drying holes 10111 can enter the drying gap 1012 to form an airflow to wrap around the outer surface of the drum 201 for blowing and drying, and a projection area where the drying holes 10111 project on the outer surface of the drum 201 is a drying projection area 1017, the airflow flowing out through the drying holes 10111 blows on the drying projection area 1017 on the outer surface of the drum 201, and then blows off on the drying projection area 1017 to wrap around and flow along the circumferential direction of the outer surface of the drum 201, so as to form a wrapping type drying treatment effect on the outer surface of the drum 201, wherein a distance H1 between two ends of the drying projection area 1017 along the circumferential outer surface of the drum 201 is greater than a distance H2 between two ends of the drying projection area 10132 along the rotational axis direction of the drum 201, and the benefit promoting airflow flows along the circumferential direction of the outer surface of the drum 201 after being blown off in the drying projection area 1017, through setting up a plurality of dry holes 10111 and distributing side by side along the axis of rotation direction of cylinder 201, and combine H1 on the dry projection district 1017 to be greater than H2 and promote the effect that the air current flows along the circumferencial direction of the surface of cylinder 201 in the surrounding mode, the air current that blows off on single dry projection district 1017 promptly can be better forms the flow effect that the circumference is wrapped, and then form the dry processing effect of circumference wrapping mode, can effectual promotion carry out dry homogeneity to cylinder 201, be favorable to realizing carrying out the dry processing of blowing of large tracts of land to the surface of cylinder 201 simultaneously, be favorable to carrying out dry completion with cylinder 201 fast.

As for the position structure part of the drying part 1011, the drying part 1011 is mainly disposed in an effective distribution in combination with the rotation direction of the drum 201, specifically, the drying part 1011 may be disposed in an outer region position corresponding to the position from the bottom position Q of the drum 201 to the first side end position W of the drum 201, taking the bottom of the drum 201 as the starting position along the direction a, so that the drying part 1011 may be disposed at the outer side part obliquely below the center position of the drum 201 to perform the drying process on the drum 201, which is beneficial to the air flow to effectively perform the wraparound flow along the outer surface of the drum 201 toward the upper position when the air flow blows and dries toward the drum 201, and the air flow upward flows to perform the drying process on the drum 201, and is beneficial to guide and discharge the air flow after drying the drum 201 in time, the air flow after drying the drum 201 is prevented from being accumulated near the drum 201.

The first side end position W of the drum 201 is along the direction a, and the first side end position of the drum 201 in the horizontal direction may correspond to a leftmost side end position or a rightmost side end position according to the direction a being clockwise or counterclockwise, so that the air flow may flow upward along the outer surface of the drum 201 to form a wrap-around drying treatment effect.

As for the position structure part of the drying part 1011, the drying part 1011 is mainly disposed in an effective distribution in combination with the rotation direction of the drum 201, specifically, the drying part 1011 may be disposed in an outer region position corresponding to the position from the second side end position E of the drum 201 to the bottom position Q of the drum 201, taking the bottom of the drum 201 as the starting position along the direction a, and the drying part 1011 may be disposed in an outer side part obliquely below the center position of the drum 201 to perform the drying process on the drum 201, so that the air flow may effectively flow in a wraparound manner along the outer surface of the drum 201 toward the upper position when the air flow blows and dries toward the drum 201, the effect of the air flow flowing upward to perform the drying process on the drum 201 is improved, and the air flow dried by the drum 201 is guided and discharged in time, the air flow after drying the drum 201 is prevented from being gathered near the drum 201.

Here, the second side end position Q of the drum 201 is along the direction a, and the second side end position of the drum 201 in the horizontal direction may correspond to a rightmost side end position or a leftmost side end position according to the direction a being clockwise or counterclockwise, so that the air flow may flow upward along the outer surface of the drum 201 to form a wrap-around drying treatment effect.

Alternatively, the direction a may be a clockwise rotation rolling motion or an anticlockwise rotation rolling motion, and it is only necessary to satisfy that the drum 201 performs the rotation rolling motion.

In the scheme, the drying hole 10111 is arranged to extend along the direction a and form a penetrating structure on the drying part 1011 and the drying hole 10111 is arranged to be open towards the middle position of the drum 201, so that the airflow can flow towards the middle position or the middle position of the drum 201 when passing through the drying hole 10111 and be blown out, at this time, the airflow can be divided into two parts under the shape structure guidance of the outer surface of the drum 201, one part of the airflow flows towards the lower direction along the outer surface of the drum 201, and the other part of the airflow flows towards the upper direction along the outer surface of the drum 201, so as to form a wrap-around drying processing result on the drum 201, meanwhile, the connecting positions of the drying hole 10111 and the drying gap part 1012 are all positioned above the bottom position of the drum 201, so that the water dropping in the drum 201 in the drying process can be effectively prevented from entering into the drying hole 10111 if the water dropping phenomenon occurs, preventing water from entering the dry hole 10111 causes damage to the base station 1.

Alternatively, at least a portion of the drying hole 10111 may be disposed toward the central position of the drum 201, so that a better wrap-around drying effect of the drum 201 may be achieved.

Or, for the structural part on the drying zone 101 for drying the drum 201, the drying gap 1012 is configured such that the distance value between the outer surface of the drying part 1011 and the outer surface of the drum 201 is greater than or equal to 2 mm and less than or equal to the radius value of the drum 201, the drying gap 1012 can be effectively implemented to guide the airflow to flow along the circumferential direction of the outer surface of the drum 201 to form a wrap-around drying structure for the outer surface of the drum 201, meanwhile, the drying gap 1012 can be effectively implemented to contact the outer surface of the drum 201 and the outer surface of the drying part 1011, prevent the outer surface of the drum 201 from blocking or blocking the drying hole 10111, and implement the drying hole 10111 to effectively flow the airflow to enter into the drying gap 1012, so that the airflow forms a blowing effect dispersed along the outer surface of the drum 201 in the drying gap 1012, and a part of the airflow flows along the outer surface of the drum 201 towards the lower direction, a portion of the air flow flows along the outer surface of the drum 201 toward an upper direction, which may form a wrap-around drying process result for the drum 201.

Or, regarding the structural part for drying the drum 201 in the drying zone 101, the outer layer part 2011 configured as the outer surface of the drum 201 is disposed on the drum 201, and the outer layer part 2011 is set to be a soft structure and is configured to be located in the drying gap part 1012 and not to contact with the outer surface of the drying part 1011 when the drum 201 rotates, that is, in a structure that the outer layer part 2011 of the drum 201 is deformed in time, a structure that the outer surface of the outer part is not contacted with the outer surface of the drying part 1011 when the outer layer part 2011 is deformed by the rotation of the drum 201 can be formed, which can effectively prevent the outer surface of the drum 201 from blocking or blocking the drying hole 10111, and realize that the drying hole 10111 effectively flows the air flow into the drying gap part so that the air flow forms a blowing effect dispersed along the outer surface of the drum 201 in the drying gap part 1012, a portion of the air flow flows in a lower direction along the outer surface of the drum 201 and a portion of the air flow flows in an upper direction along the outer surface of the drum 201, so as to form a wrap-around drying process result for the drum 201.

If, outer portion 2011 is when the convex beam of hair bundle or cloth material, can make the outside portion by the whipping stretch out this moment when cylinder 201 rotates the rolling motion, if the outside portion contacts the surface of drying portion 1011 can form to block even jam drying hole 10111 this moment, be unfavorable for the flow of air current to pass through, only set up the outside portion into the surface contact with drying portion 1011, just can realize that drying hole 10111 is effectual to supply with the air current to dry clearance portion 1012 in, realize the air current to the package formula drying effect of cylinder 201.

In order to promote the air flow generated by the air flow device 104 to be concentrated and effectively flow out to dry the drum 201, a collecting duct 102 is arranged at one side of the drying area 101, the collecting duct 102 is mainly used for collecting the air flow, the collecting duct 102 is arranged to extend and distribute along the rotation axis direction of the drum 201 to form a structure communicated with the drying holes 10111, the air flow is collected in the collecting duct 102 and flows towards the outer surface of the drum 201 through the drying holes 10111 to be blown out for drying, wherein the bottom end face position of the collecting duct 102 is arranged at the lower side of the bottom position of the drum 201 to form the collecting duct 102, the air flow can be effectively collected and intensively blown out through the drying holes 10111 towards the upper side direction, the speed of the air flow passing through the drying holes 10111 can be effectively promoted, the speed of the air flow blown out from the drying holes 10111 can be promoted, and/or the cross section of the collecting duct 102 is arranged to be gradually narrowed from bottom to top, the collecting duct 102 is used for forming a certain collecting effect on the air flow, the structure that the air flow is gradually narrowed from bottom to top is beneficial to enabling the air flow to be collected and compressed and then blown out towards the drying hole 10111 to flow onto the outer surface of the roller 201 to achieve drying treatment on the roller 201, and the structure of the collecting duct 102 is used for achieving the efficiency of drying the roller 201 and achieving the effect of collecting the air flow.

In the scheme, a drying flow channel 103 is further arranged on the station main body 10, the drying flow channel 103 is positioned on one side of the collecting flow channel 102 and is communicated with the collecting flow channel 102, an airflow device 104 capable of generating airflow into the drying flow channel 103 is connected and mounted on one end position or the middle position of the drying flow channel 103, the airflow generated when the airflow device 104 is started to work can enter the drying flow channel 103, the airflow in the drying flow channel 103 enters the collecting flow channel 102 to be collected, the collected airflow is blown out through a drying hole 10111 to dry the roller 201, a channel structure for airflow to flow is formed, and the airflow generated by the airflow device 104 is intensively supplied to the outer surface of the roller 201 to dry the roller 201; optionally, the volume of the drying flow channel 103 may be set to be larger than the volume of the collecting channel 102, so as to implement that the drying flow channel 103 supplies the airflow into the collecting channel 102 for compression and collection, and implement that the airflow is effectively collected in the collecting channel 102 and then blown out toward the outer surface of the drum 201 through the drying hole 10111, thereby effectively improving the drying efficiency.

And/or, in order to prevent the air flow from spreading toward both side end positions in the drying zone 101, the present solution is provided with the flow blocking parts 1013 at both end positions in the rotation axis direction of the drum 201 on the drying zone 101 and the flow blocking parts 1013 are provided to extend toward the upper direction of the drum 201, the flow blocking parts 1013 mainly block the air flow from spreading toward both side directions, and guides the airflow to flow towards the upper direction to dry the drum 201, and two flow blocking parts 1013 are respectively correspondingly located at the outer side positions of the two side end surfaces of the drum 201 along the rotation axis direction to form a structure for blocking the airflow generated by the airflow device 104 from the side direction, so that not only is the diffusion of the blocking airflow and the upward movement of the guiding airflow realized, but also the drying treatment of the two side end surfaces of the drum 201 in the rotation axis direction can be performed by the guiding airflow, and the drying treatment effect of the drum 201 is improved as a whole.

In the scheme, the extension 1014 is arranged at the lower end of the drying part 1011, the extension 1014 is positioned at the lower side of the drum 201, the extension 1014 can be configured to be a concave structure or a planar structure, the extension 1014 can be formed to contain a certain amount of water, for example, water dropping downwards from the drum 201 in the drying process can be collected on the extension 1014, one end of the extension 1014, which is far away from the drying part 1011, is connected with the flow guide 1015, gaps are formed between the flow guide 1015, the extension 1014 and the outer surface of the drum 201, at least one part of the flow guide 1015 is configured to extend upwards along the circumferential outer surface of the drum 201 to form an arc structure, so that the flow guide 1015 can effectively guide the airflow, and mainly guide the airflow after the drying drum 201 to discharge outwards, at this time, the discharged airflow can include moisture or mist, and the drying effect on the drum 201 is improved.

Wherein, the top end surface of the guiding portion 1015 in this scheme is located above the bottom position of the drum 201, and a guiding gap portion 1016 is formed between the guiding portion 1015 and the outer surface of the drum 201, the guiding gap portion 1016 is communicated with the drying gap portion 1012 to be used for passing through of the air current, the top end surface of the guiding portion 1015 is located above the bottom position of the drum 201 to form guiding air current to move upwards and then discharge, and at the same time, the guiding air current can be realized to dry the outer surface of the upper position of the drum 201, that is, to form a wrapping type drying structure, the air current can form a wrapping type flowing drying effect along the circumferential direction of the outer surface of the drum 201, which is beneficial to increasing the area and area of the air current drying the outer surface of the drum 201, and increasing the drying effect of the drum 201, and at the same time, the cross section of the guiding gap portion 1016 can be set to be an open structure from the extending portion 1014 towards the guiding portion 1015 direction to better guide the air current to discharge outwards or the cross section of the guiding gap portion 1016 to discharge Set up to be the better guide air current of the gradually expanding open structure by extension 1014 towards water conservancy diversion portion 1015 direction and outwards discharge, prevent to gather on the cylinder 201 or cylinder 201 the problem that the drying effect to cylinder 201 is poor that leads to appearing in the air current of taking moisture or fog that forms after drying cylinder 201 from taking place, realize that effectual air current with moisture or fog is in time outwards guide discharges.

In the scheme, the direction of the forward movement of the mopping machine 2 is set to be forward, a user can operate the mopping machine to move on the ground towards the forward direction to realize the cleaning treatment on the ground, the mopping machine 2 comprises a mopping main body 20 and can further comprise a handle rod, the user operates the handle rod to drive the mopping main body 20 to move on the ground to realize the cleaning treatment effect on the ground, the roller 201 is mainly arranged at the front position of the mopping main body 20, so that the mopping main body 20 can better clean the positions of the wall edge, the wall corner and the like when moving on the ground, and meanwhile, the mopping machine 2 can enter the base station 1 along the forward direction to stop, the user does not need to lift the mopping machine 2 to place the base station 1 by hand, the user can operate the handle rod to push the mopping main body 20 to move towards the forward direction to enter the base station 1, and the outer side area between the bottom position of the roller 201 and the front side end position of the roller 201 is arranged at the front position of the roller 201 The domain is open the structure and constitutes the outside with mopping machine 2 and be the structure of being linked together, make the front side position of cylinder 201 can be open structure, it can set up drying zone 101 to come to carry out drying process to cylinder 201 to correspond the position when base station 1 is placed to convenient mopping machine 2, drying zone 101's position is set for simultaneously can effectual realization air current along cylinder 201's surface respectively towards the top with the below flow realize the upper and lower direction go on the drying process structure of formula of winding, and then promote the effect of carrying out drying process to cylinder 201, be favorable to forming the drying effect of large tracts of land along the circumferential direction of cylinder 201, promote uniformity and the rapidity of carrying out the drying to cylinder 201.

The structure of the roller 201 of the scheme is arranged, the roller 201 is arranged at the front part of the mopping body 20, the outer side part area between the bottom position of the roller 201 and the front side end position of the roller 201 is an open structure to form a structure communicated with the outside of the mopping machine 2, so that the mopping machine 2 can better form matching with the drying area 101 on the base station 1, the drying area 101 is formed into a wrapping type drying structure in the vertical direction for the roller 201, and the uniformity and the rapidness of drying the roller 201 are improved.

In order to better guide the air flow to be discharged after drying the drum 201, the upper part of the drying part 1011 of the present scheme is connected with a guide 1018, the guide 1018 extends and extends towards the upper direction of the drying part 1011, the mopping main body 20 is provided with a shell 202 and a cylinder cavity 203 for installing the drum 201, the drum 201 is rotatably installed in the cylinder cavity 203, the shape of the cylinder cavity 203 is approximately the same as that of the drum 201, the guide 1018 and the shell 202 are arranged at the front side position of the drum 201 and form a guide channel 1019 communicated with the cylinder cavity 203 with the drum 201, the guide channel 1019 is communicated with a diversion gap 1016 through the cylinder cavity 203 and/or a drying gap 1012, wherein a gap is arranged between the outer surfaces of the drum 201 and the cylinder cavity 203 in the circumferential direction, so that the drum 201 moves in the cylinder cavity 203, and the gap between the drum 201 and the cylinder cavity 203 can be used for the air flow to pass through to realize the drying process of the drum 201, the air flow flows along the outer surface of the drum 201 after flowing out of the drying holes 10111, a part of the air flow flows along the outer surface of the drum 201 towards the lower side direction of the drum 201, namely, the air flow flows towards the flow guide gap 1016 and realizes the drying treatment of the drum 201 in the flowing process and finally is discharged outwards through the flow guide 1015, at this time, the discharged air flow comprises the air flow and the moisture or the mist, at the same time, the part of the air flow flows towards the upper side of the drum 201 to dry the outer surface of the drum 201, namely, the air flow flows towards the gap position between the drum 201 and the drum cavity 203 to dry the drum 201, at the same time, the structure for extruding the sewage of the drum 201 sets the contact between the scraping and pressing piece and the drum 201 to form scraping pressure, at this time, the air flow is blocked by the scraping and then flows towards the direction of the guide channel 1019 and is discharged outwards through the guide channel 1019, at this time, the discharged air flow comprises the air flow and the moisture or the mist, it can be seen that, the air current can also be effectively discharged to the outside of the air current after drying the roller 201 in the process of drying the roller 201, the problem that the drying effect of the roller 201 is poor due to the fact that the air current is gathered in the roller 201 and the roller cavity 203 is prevented, the problem that the drying efficiency of the roller 201 is slow due to the fact that the wet air current or the mist generated in the drying process is effectively guided to be discharged in the process of drying the roller 201 is effectively achieved, and the problem that the drying efficiency of the roller 201 is slow due to the fact that the wet air current or the mist is gathered in the drying area 101 is prevented.

The structure setting of cylinder 201 on the mopping machine 2 of this scheme can effectually realize that it carries out drying process to cylinder 201 to cooperate realization drying zone 101 when the mopping machine 2 stops to basic station 1, and drying zone 101 carries out drying process to cylinder 201 the structure position part realize that drying zone 101 effectively wraps around to the partial position of the lower part of cylinder 201 and carries out the drying, is favorable to the direction of guide air current simultaneously, promotes and carries out dry efficiency to cylinder 201.

The structure in this scheme can effectually form and carry out the drying process of circumference to cylinder 201, and the structure realizes that the guide air current comes to carry out the drying to the circumference surface of cylinder 201 to concentrate the air current and outwards discharge, promote efficiency and the homogeneity to cylinder 201 drying, can effectually concentrate the humid air current and the fog that produce in the discharge drying process simultaneously.

Alternatively, the lower position of the guide passage 1019 is communicated with the drying gap portion 1012 and is communicated with the guide gap portion 1016 through the drying gap portion 1012, so that the region position between the drying hole 10111 and the guide gap portion 1016 forms a passage structure for the air flow to flow, and facilitates the air flow to be discharged outwards in a downward direction.

Optionally, the guide passage 1019 is also communicated with the drying gap part 1012 and with the gap between the drum cavity 203 and the drum 201, and the position of the area between the drying hole 10111 and the guide passage 1019 forms a passage structure for the air flow, which facilitates the air flow to be discharged to the outside toward the upper side.

In order to improve the drying effect and efficiency of the drum 201, the present scheme is further provided with a thermal module for generating heat to thermally dry the drum 201 on the station main body 10, the thermal module is arranged to be in mutual contact with the outer surface of the drum 201 to thermally dry or arranged to be located between the drying hole 10111 and the air flow device 104 to form a structure that the air flow can be heated by the thermal module and then thermally dried, the thermal module is mainly provided with heat with a certain temperature value to thermally dry the drum 201, the structure that the thermal module is contacted with the roller 201 can be arranged for carrying out thermal drying treatment, the structure that the thermal module is arranged for heating the airflow generated by the airflow device 104 can also be arranged for realizing the drying treatment of the roller 201 by hot airflow, the thermal module may be installed at a position as needed as long as the heat generated from the thermal module can be supplied to the drum 201.

And/or, in order to further improve the drying treatment effect on the drum 201, in the present scheme, a control module electrically connected to the airflow device 104 is further disposed in the station main body 10, and a threshold value P is disposed in the control module to form a structure that the airflow device 104 at least includes a structure that controls the drum 201 to perform continuous rotation motion or intermittent rotation motion during the continuous drying treatment or the intermittent drying treatment on the drum 201, specifically, when the threshold value P in the control module is triggered, the airflow device 104 is configured to perform the continuous drying treatment effect on the drum 201 at this time, that is, the airflow device 104 generates airflow to perform the drying treatment on the drum 201 in a state that the airflow device 104 is always operating, the airflow device 104 is also configured to perform the intermittent drying treatment on the drum 201 at this time, that is, the airflow device 104 is in an intermittent operating state, for example, after the airflow device 104 operates for 5 seconds, stopping for 3 seconds, then starting the operation again, and circulating to realize the intermittent operation state to dry the roller 201, in the process that the air flow device 104 is operated continuously or intermittently to dry the drum 201, the threshold P when triggered also comprises controlling the drum 201 to perform a continuous or intermittent rotational movement, such that air flow can be implemented to dry the outer surface of the drum 201 at various locations, simultaneously the air current that dry hole 10111 flows can carry out drying process to the different positions of cylinder 201 surface, is favorable to promoting to carry out drying process's efficiency and homogeneity to cylinder 201, prevents to still be in more moist structure because of cylinder 201 fixed position rotary motion leads to the position of being close to dry hole 10111 on the cylinder 201 by the dry back and keep away from the position of dry hole 10111, effectively prevents that the dry even poor problem of effect of cylinder 201 from taking place.

Alternatively, the drum 201 may be controlled to periodically or periodically rotate during the continuous operation or the intermittent operation of the air flow device 104, so that the air flow effectively dries different positions on the drum 201 in the circumferential direction, and the drying effect on the drum 201 is better.

Alternatively, during the continuous operation or intermittent operation of the air flow device 104, the drum 201 may be controlled to be continuously in the rotating motion all the time, so that the air flow performs the continuous effective drying treatment on different positions on the drum 201 in the circumferential direction, and the drying effect on the drum 201 is better.

In order to facilitate the maintenance of the drying zone 101, the base station 1 of the solution comprises a base 11 for supporting the parking place of the mopping machine 2, and the base 11 is arranged as a detachable mounting structure and the drying zone 101 is arranged to be located on the base 11, in particular, the base 11 mainly forms the parking place of the mopping machine 2, the base 11 is formed to support the bottom position of the tractor 2 when the tractor 2 is parked on the base station 1 so that the tractor 2 is stably parked on the base station 1, wherein, the base 11 is mainly arranged as a detachable installation structure to be installed on the station main body 10, which is convenient for users to install and detach the base 11, when base 11 goes up dirty or when dry zone 101 is dirty this moment the user can dismantle base 11 get off and clean the maintenance, can install base 11 again to the main part 10 of standing after the maintenance, can effectual promotion user come to carry out the convenient degree of maintenance processing to dry zone 101.

Alternatively, when the base 11 is mounted in place, the bottom of the base 11 is primarily in contact with the ground to form a support, enabling the base 11 to support placement of the mopping machine 2.

Optionally, a working chamber may be formed between the base 11 and the station body 10, and the working chamber is used for placing the position of the floor mopping body 20 of the floor mopping machine 2, so as to realize a limiting and parking effect on the floor mopping machine 2 and prevent the floor mopping machine 2 from shifting or shifting on the base station 1.

And/or, in order to further improve the heat drying treatment effect on the drum 201, in the present scheme, when the thermal module is disposed on the station main body 10, the thermal module is disposed to be electrically connected with the control module, and the threshold R is disposed in the control module to form a structure in which the thermal module can provide heat with a temperature value of 30 degrees or more and 85 degrees or less to perform heat drying on the drum 201, a threshold value R is set in the control module, and when the control module controls the thermal module to start working to generate heat, the temperature value that triggers the corresponding thermal module to generate heat can now be realized by the threshold value R, so as to effectively control the temperature value for drying the drum 201, prevent the drum 201 from being easily baked by high temperature due to over high temperature to cause reliability reduction, meanwhile, the phenomenon that the time for carrying out the thermal drying treatment on the roller 201 is too long due to too low temperature is prevented, and the thermal drying treatment effect on the roller 201 is effectively controlled at a better temperature.

Optionally, according to the different diameters of the roller 201 and the water absorption capacity of the roller 201, the temperature value corresponding to the threshold R in the scheme can be 35 degrees, 50 degrees or 80 degrees, and the roller 201 can be subjected to thermal drying treatment by effective matching, so that the uniformity and timeliness of the drying treatment of the roller 201 can be improved.

Optionally, a temperature sensor may be provided to detect the temperature value, so as to more accurately control the temperature value of the heat generated by the thermal module.

Optionally, the hot module can be set up to including the piece that generates heat, the piece that generates heat is heating plates, heating pipe or heating plate etc. heating block, can realize providing heat through heat-conducting piece contact cylinder 201 and carry out hot drying process to cylinder 201 for the piece installation heat-conducting piece that generates heat, also can be for the piece installation that generates heat to be located directly heating the air current between drying hole 10111 and air current ware 104, the air current after the heating removes and carries out hot drying process to cylinder 201 on the cylinder 201 position, compare and use the air current alone to carry out drying process's structure to cylinder 201, hot drying process can promote efficiency and drying effect to cylinder 201 drying.

In this scheme, mopping machine 2 can be hand-held type structure, mainly for dragging the ground main part 20 and go up to link to each other and install rotatable handle pole, user operation handle pole realizes driving and drags ground main part 20 and remove the cleaning treatment who realizes through cylinder 201 to ground at subaerial, it can set up the clean water tank and supply with the clear water to cylinder 201 to drag on the ground main part 20, can set up the sewage tank on the handle pole and realize collecting the sewage that cylinder 201 clean ground in-process formed, realize mopping machine 2 to the effective cleaning treatment effect on ground.

The working principle is as follows: the base station 1 of the scheme is mainly used for maintaining the mopping machine 2, the maintenance mainly comprises the steps of drying a roller 201 on the mopping machine 2, and the drying of the roller 201 is realized by mainly arranging a drying area 101, a drying hole 10111 and other structures, wherein an air flow device 104 is arranged for providing air flow for drying the roller 201, the air flow can flow along the circumferential outer surface of the roller 201 to achieve a drying effect, so that the uniform drying of all positions of the outer surface of the roller 201 is effectively realized, meanwhile, a heat module can be arranged for providing heat to dry the roller 201 to provide heat, and the problems of mildew, odor and even decay of the roller 201 under a long-time wet structure are prevented; specifically, the drying area 101 and other structures realize the wrap-around drying effect on the drum 201, and simultaneously effectively guide the wet air flow or mist generated in the drying process to be discharged outwards in a concentrated manner, so that the drying efficiency on the drum 201 is improved.

It will be understood by those skilled in the art that the foregoing embodiments are specific examples of the invention, and that various changes in form and details may be made therein without departing from the spirit and scope of the invention in practice.

Claims (12)

1. The base station system comprises a base station, wherein the base station is used for parking a mopping machine for maintenance, and is characterized in that: the base station comprises a station main body, wherein a drying area is arranged on the station main body and used for drying a roller on the mopping machine;

when the mopping machine is stopped on the base station, at least one part of the drying area is positioned at the lower side area position of the central position of the roller, the drying area is provided with a drying part, a drying gap part is arranged between the drying part and the outer surface of the roller, at least one part of the drying part is arranged to be in an arc structure corresponding to the outer surface of the roller, and a plurality of drying holes which are distributed in parallel along the rotating axis direction of the roller are arranged at the position of the arc structure on the drying part.

2. The base station system of claim 1, wherein: the drying hole sets up to be the structure that is linked together with drying clearance portion, and sets up the projection area that the drying hole carries out the projection on the surface of cylinder and be dry projection district, and dry projection district is greater than along the both ends distance H2 of the rotation axis direction of cylinder along the both ends distance H1 of the circumference surface of cylinder.

3. The base station system according to claim 1 or 2, characterized in that: the drying part is arranged in an outer area position corresponding to the position from the bottom position Q of the roller to the first side end position W of the roller by taking the bottom of the roller as a starting position along the direction A;

or, the drum is set to be capable of rotating along the direction A and the drying part is set to be positioned in the corresponding outer region position from the second side end position E of the drum to the bottom position Q of the drum by taking the bottom of the drum as the starting position along the direction A.

4. The base station system of claim 3, wherein: the drying hole extends along the direction A, a penetrating structure is formed on the drying part, the drying hole is in an open structure towards the middle position of the roller, and the connecting position of the drying hole communicated with the drying gap part is located above the bottom position of the roller;

or the distance value between the outer surface of the drying part and the outer surface of the roller is greater than or equal to 2 mm and less than or equal to the radius value of the roller;

or, the roller is provided with an outer layer part which is formed into the outer surface of the roller, the outer layer part is set to be a soft structure, and the outer surface of the outer layer part is positioned in the drying gap part and is not contacted with the outer surface of the drying part when the roller rotates.

5. The base station system of claim 3, wherein: one side of the drying area is provided with a collecting channel, the collecting channel is arranged to extend and distribute along the rotation axis direction of the roller to form a structure communicated with the drying hole, the bottom end face position of the collecting channel is arranged to be positioned at the lower side of the bottom position of the roller and/or the cross section of the collecting channel is arranged to be gradually narrowed from bottom to top.

6. The base station system of claim 5, wherein: the station main body is also provided with a drying flow channel, the drying flow channel is positioned at one side of the flow collecting channel and is communicated with the flow collecting channel in a structure, and an air flow device capable of generating air flow into the drying flow channel is connected and installed at the middle position of one end of the drying flow channel;

and/or the drying area is provided with flow blocking parts at the two ends along the rotation axis direction of the roller, the flow blocking parts extend towards the upper part of the roller, and the two flow blocking parts are correspondingly arranged at the outer side positions of the two side end surfaces along the rotation axis direction on the roller respectively to form a structure for blocking the airflow generated by the airflow device from the side direction.

7. The base station system of claim 6, wherein: the lower extreme of drying portion is provided with the extension, and the extension is located the downside of cylinder, and the one end of keeping away from the drying portion on the extension links to each other has water conservancy diversion portion, and at least some of water conservancy diversion portion sets up to extend towards the top along the circumference surface of cylinder and stretches out to be the arc structure.

8. The base station system of claim 7, wherein: the top end surface of the flow guide part is positioned above the bottom position of the roller, and a flow guide gap part is formed between the flow guide part and the outer surface of the roller;

the cross-section of water conservancy diversion clearance portion sets up to be open structure or the cross-section of water conservancy diversion clearance portion sets up to be the open structure that expands gradually towards water conservancy diversion portion direction by the extension towards water conservancy diversion portion direction.

9. The base station system of claim 8, wherein: the direction of the forward direction of the mopping machine is set, the mopping machine comprises a mopping main body, the roller is arranged at the front position of the mopping main body, and the outer side part area between the bottom position of the roller and the front side end position of the roller on the front position of the roller is an open structure to form a structure communicated with the outside of the mopping machine.

10. The base station system of claim 9, wherein: the upper part of the drying part is connected with a guide part, the mopping main body is provided with a shell and a cylinder cavity for installing the roller, the guide part and the shell are arranged at the front side of the roller and form a guide channel communicated with the cylinder cavity with the roller, and the guide channel is communicated with the flow guide gap part through the cylinder cavity and/or the drying gap part.

11. The base station system according to any of claims 6-10, characterized in that: the station main body is also provided with a hot module for generating heat to carry out heat drying on the roller, the hot module is arranged to be in mutual contact with the outer surface of the roller to carry out heat drying or the hot module is arranged to be positioned between the drying hole and the air flow device to form a structure that air flow can be heated by the hot module and then is carried out heat drying;

and/or a control module electrically connected with the air flow device is further arranged in the station main body, and a threshold value P is arranged in the control module to form a structure which controls the air flow device to perform continuous rotary motion or intermittent rotary motion on the roller in the process of performing continuous drying treatment or intermittent drying treatment on the roller.

12. The base station system of claim 11, wherein: the base station comprises a base used for supporting and parking the mopping machine, the base is arranged to be a detachable installation structure, and the drying area is arranged to be located on the base;

and/or when the thermal module is arranged on the station main body, the thermal module is electrically connected with the control module, and a threshold value R is arranged in the control module to form a structure which can provide heat with a temperature value of more than or equal to 30 degrees and less than or equal to 85 degrees for thermally drying the roller by the thermal module.

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