EP3763272A1 - Base station for connecting a cleaning device and method for operating a cleaning system - Google Patents

Abstract

A base station for connecting a cleaning device and a method for operating a cleaning system with a cleaning device and such a base station are proposed, the room air being conditioned by means of the base station and / or the quality of the room air being measured by means of the base station.

Description

The present invention relates to a base station for the electrical or fluidic connection of a cleaning device according to the preamble of claim 1 and a method for operating a cleaning system according to the preamble of claim 10.

A base station within the meaning of the present invention is a constructive, preferably stationary, device for connecting or maintaining a (mobile) cleaning device, such as a vacuum cleaner, in particular in order to vacuum or empty the cleaning device and / or to charge it electrically.

For this purpose, a base station within the meaning of the present invention has a fluidic or pneumatic and / or electrical connection for the cleaning device.

The EP 3 033 982 A1 discloses such a base station for a handheld vacuum cleaner, the base station being connectable to an optional adapter module in order to connect a vacuum robot to the base station in addition to the handheld vacuum cleaner.

The present invention is based on the object of specifying an improved base station and an improved method for operating a cleaning system with a base station and a cleaning device.

The object on which the invention is based is achieved by a base station according to claim 1 or a method for operating a cleaning system according to claim 10. Advantageous further developments are the subject of the subclaims.

A cleaning system in the sense of the present invention is a system with several components for cleaning surfaces, in particular floors. Such a cleaning system has at least one, preferably several (mobile) cleaning devices, such as a vacuum cleaner, and a preferably stationary base station for maintenance, in particular for emptying and / or electrical charging, of the cleaning device (s).

A cleaning device in the sense of the present invention is preferably a vacuum cleaner, for example a hand-held vacuum cleaner, a particularly mobile floor vacuum cleaner, a trunk vacuum cleaner, a stick or stick vacuum cleaner or a (partially) autonomous or self-propelled or self-flying vacuum cleaner robot.

A cleaning device in the sense of the present invention can also be another device for cleaning and / or caring for surfaces, in particular floors. For example, floor wiping devices or robots, polishing devices or robots, window cleaning devices or robots or lawn mowing devices or robots are also to be understood as cleaning devices in the context of the present invention.

The cleaning device can be connected to the base station after use or after a cleaning process in order to maintain the cleaning device, preferably automatically or automatically, in particular to charge it electrically and / or to empty or vacuum it.

The operation of cleaning devices and / or base stations can stir up dust and / or generate heat and thus change or deteriorate the quality of the ambient or room air.

According to one aspect of the present invention, the base station has an in particular integrated air conditioner for conditioning / air conditioning the ambient or room air, preferably wherein the air conditioner is used for cleaning / filtering, humidifying, dehumidifying, warming / heating and / or cooling the ambient or room air. Room air is formed.

By means of the air conditioner it is possible, for example before, during and / or after a cleaning process or the use of the cleaning device and / or before, during and / or after a maintenance process, in particular a suction process, by means of the base station, the ambient or room air to condition / air-condition, in particular to clean, humidify, dehumidify, heat and / or cool.

In particular, the proposed base station can be used to improve the quality of the room air during and / or after a cleaning process and / or a maintenance process or to at least partially compensate for the negative influence of the operation of the cleaning device or the base station on the quality of the room air.

According to a further aspect of the present invention that can also be implemented independently, the base station has an in particular integrated measuring device to measure the quality of the room air, in particular the (dust) particle number, size and / or concentration in the room air, the temperature and / or measure or determine the humidity of the room air.

The measuring device makes it possible to control the air-conditioning device and, in particular, to start or end and / or adapt the conditioning / air-conditioning on the basis of the measured values recorded by the measuring device.

The measuring device can, for example, have one or more sensors, in particular dust, temperature and / or humidity sensors.

The term “air quality” or “indoor air quality” in the context of the present invention preferably refers to the concentration or density, size and / or number of the contaminants or particles, such as dust particles, contained in the air or room air, and / or the temperature the air or room air and / or the humidity or the moisture content of the air or room air.

The base station preferably has a container for suction material from the cleaning device. In particular, suction material from the cleaning device can be collected or separated in the container when the cleaning device is connected to the base station or is sucked out by means of the base station. The base station is optionally equipped with a filter, in particular a filter bag, which is arranged in the container.

According to a particularly preferred embodiment, the container of the base station is connected to the air conditioning unit or pneumatically connected or connectable to the air conditioning unit, in particular in such a way that the room air passed through the container is (subsequently) post-treated, in particular cleaned, humidified, dehumidified, heated by the air conditioning unit and / or can be cooled and / or released into the environment in the conditioned state (again).

The term "air conditioner" in the context of the present invention is to be understood as a structural device which is designed to bring air in a room, hereinafter referred to as room air, into a specific or predefined state or to condition it and / or the temperature to change the humidity and / or the purity or (dust) particle concentration of the room air. An air conditioner in the sense of the present invention can, however, also be designed to exclusively clean or filter the room air.

The proposed method for operating a cleaning system with a cleaning device and a base station for the cleaning device is characterized in that - in particular before, during and / or after a cleaning process using the cleaning device and / or before, during and / or after a maintenance or Suction process by means of the base station - room air is air-conditioned, in particular cleaned, heated, cooled, humidified and / or dehumidified by means of the base station, in particular an (integrated) air conditioning device in the base station. Corresponding advantages are realized in this way.

According to a particularly preferred variant of the method, the room air is post-treated by means of the air conditioner during the maintenance or suction process by means of the base station, in particular before the room air is (again) released into the environment as supply air.

During a maintenance or suction process, room air is preferably sucked together with suction material from the cleaning device into the base station and the suction material is collected in the container of the base station or separated from the suctioned room air. The (cleaned) room air can then be fed to the air conditioning unit for post-treatment or conditioning, in particular before the room air - as supply air - is (re) released to the environment.

In a method of this type, a pleasant room climate is advantageously maintained or established during or through the operation of the base station or a suction process and / or the operation of the base station is prevented from having a negative effect on the room climate.

According to a further variant of the method that can also be implemented independently - in particular before, during and / or after a cleaning process by means of the cleaning device and / or before, during and / or after a maintenance or suction process by means of the base station - the quality, in particular the particle concentration, number and / or size, the humidity and / or the temperature, the room air by means of the base station, in particular an (integrated) measuring device in the base station, measured.

Additionally or alternatively, the quality, in particular the particle concentration, number and / or size, the humidity and / or the temperature, of the room air is measured by means of the cleaning device, preferably during a cleaning process and / or at different points in a room to be cleaned.

The air conditioning is preferably controlled, in particular (automatically) started, ended and / or adjusted by means of the base station, in particular the air conditioning device, as a function of the measured values.

The measured values are preferably exchanged (in terms of data technology) between the cleaning device and the base station, in particular in order to compare the measured values with one another and / or to use the measured values of the cleaning device to control the base station, in particular the air-conditioning device.

For example, in the case of a particularly high particle or dust concentration, it is possible to start a cleaning process by means of the cleaning device and / or the air conditioning, in particular cleaning, by means of the base station or the air conditioning device (automatically).

• varianten der vorliegenden Erfindung können grundsätzlich unabhängig voneinander, aber auch in beliebiger Kombination bzw. Reihenfolge realisiert werden.

The aforementioned aspects, features and method steps or variants of the present invention as well as the aspects, features and method steps and / or methods resulting from the claims and the following description.

• Variants of the present invention can in principle be implemented independently of one another, but also in any combination or sequence.

Fig. 1

eine schematische Seitenansicht eines vorschlagsgemäßen Reinigungssystems mit einer vorschlagsgemäßen Basisstation und mehreren daran angeschlossenen Reinigungsgeräten;

Fig. 2

einen schematischen pneumatischen Schaltplan des Reinigungssystems gemäß Fig. 1 mit nur einem daran angeschlossenen Reinigungsgerät; und

Fig. 3

den schematischen pneumatischen Schaltplan des Reinigungssystems gemäß Fig. 2 im Bereich eines Klimageräts.

Further aspects, advantages, features and properties of the present invention emerge from the claims and the following description of a preferred embodiment based on the figures. It shows:

Fig. 1

a schematic side view of a proposed cleaning system with a proposed base station and several cleaning devices connected to it;

Fig. 2

a schematic pneumatic circuit diagram of the cleaning system according to Fig. 1 with only one cleaning device connected to it; and

Fig. 3

the schematic pneumatic circuit diagram of the cleaning system according to Fig. 2 in the area of an air conditioner.

In the only schematic figures, some of which are not to scale, the same reference numerals are used for identical, identical or similar parts and components, with corresponding or comparable properties and advantages being achieved even if a repeated description is dispensed with.

Fig. 1 schematically shows a proposed cleaning system 1 with a proposed base station 10.

The representation according to Fig. 1 shows the cleaning system 1 or the base station 10 in the installed / assembled state or in the usual position of use in which the base station 10 (on the back) rests or is attached to a wall 2 and preferably (on the floor) on a floor 3 rests or ends near the ground or is arranged.

The cleaning system 1 is preferably equipped with several components.

In addition to the base station 10, the cleaning system 1 preferably has at least one (mobile) cleaning device 20, 30, the cleaning device 20, 30 being fluidically, in particular pneumatically, and / or electrically connectable to the base station 10, in particular around the cleaning device 20 , 30 to empty / suck out and / or to charge electrically, as will be explained in more detail below.

At the in Fig. 1 In the illustrated embodiment, the cleaning system 1 has several, here two different, cleaning devices 20, 30, in the present case a first cleaning device 20 being designed as a vacuum robot and a second cleaning device 30 as a hand-held vacuum cleaner. However, other constellations are also conceivable here, for example in which the cleaning system 1 has several vacuum robots.

Individual or multiple aspects, advantages, features, properties and method steps that are only described in connection with one of the cleaning devices 20, 30 are preferably also provided for the other of the cleaning devices 20, 30, so that corresponding versions are also provided for the other of the cleaning devices 20 , 30 apply.

The use of the base station 10 with two cleaning devices 20, 30 is described below. However, it is also possible that the cleaning system 1 only has one cleaning device 20, 30 or the base station 10 is only used with one cleaning device 20, 30.

The cleaning system 1 is used in particular in interiors or for cleaning interiors. In principle, however, it is also possible to use the cleaning system 1 in outside rooms / areas or to use it for cleaning outside rooms or areas.

As already explained at the beginning, the base station 10 is designed for electrical and / or fluidic connection or for waiting, in particular for (electrical) charging and / or for (automated) emptying or vacuuming, of one or more cleaning devices 20, 30. For this purpose, the cleaning devices 20, 30 are coupled to the base station 10, whereby a fluidic, in particular pneumatic and / or electrical connection between the base station 10 and the cleaning devices 20, 30 is established.

The connection / coupling of the cleaning devices 20, 30 to the base station 10 can take place manually - for example in the case of a hand-held vacuum cleaner - or automatically or automatically - for example in the case of a robot vacuum cleaner. In the embodiments shown, it is provided that the first cleaning device 20 connects automatically or automatically after a cleaning process with the base station 10 and the second cleaning device 30 is hung into the base station 10 manually or by a user in order to use the cleaning devices 20, 30 the base station 10 to charge electrically and / or to suck.

The base station 10 is preferably elongated and / or box-shaped or cabinet-like.

It is preferred that the base station 10 is connected to the wall 2 in a fixed or immovable manner. The base station 10 can, however, in principle also be designed as a free-standing and / or mobile or movable device.

The base station 10 is preferably mounted on the wall 2 in such a way that the base station 10 in the installed state rests on the floor 3 on the floor and rests flat against the wall 2. However, other solutions are also possible here, in particular in which the base station 10 in the installed state is arranged at a distance from the floor 3 or is suspended on the wall 2.

The base station 10 is preferably constructed in several parts or modular. The base station 10 particularly preferably has a plurality of modules or can be expanded by one or more modules.

The base station 10 preferably has a floor module 40 and / or a head module 50, in particular the head module 50 being arranged (directly) above the floor module 40 in the position of use or in the installed state.

The base module 40 is preferably for the electrical and / or fluidic connection of the first cleaning device 20 and / or the head module 50 for electrical and / or fluidic connection of the second cleaning device 30 is formed.

Provision is therefore made for the first cleaning device 20 to be (electrically) charged and / or emptied by means of the base module 40 and / or the second cleaning device 30 by means of the head module 50, in particular from the side, from below and / or from above.

Fig. 1 shows the cleaning system 1 or the cleaning devices 20, 30 in the coupling or connection position in which the cleaning devices 20, 30 are electrically and / or pneumatically connected to the base station 10.

The base station 10 preferably has a (first) electrical connection 40E for the first cleaning device 20 and / or a (second) electrical connection 50E for the second cleaning device 30 in order to electrically connect the base station 10 to the cleaning device 20 or 30 and a only schematically indicated accumulator 20A or 30A of the cleaning device 20 or 30 to charge. The first electrical connection 40E is preferably arranged in the base module 40 and the second electrical connection 50E in the head module 50.

The electrical connection 40E or 50E is preferably formed by one or more electrical contacts or - in particular for wireless energy transmission - by one or more coils.

The cleaning device 20 or 30 has an electrical connection 20E or 30E corresponding to the electrical connection 40E or 50E, which is preferably connected by one or more electrical contacts or - in particular for wireless energy transmission - by one or more coils on an outside of the Cleaning device 20 and 30 is formed.

The base station 10, in particular the floor module 40, is equipped with an optional power supply unit 10A - preferably with corresponding charging electronics - and / or a power connection 10B for connection to an only schematically indicated power network in order to supply power to the first cleaning device 20, in particular via the first electrical Port 40E and / or the second To enable cleaning device 30 in particular via the second electrical connection 50E, as indicated by dashed lines in Fig. 1 indicated.

The base station 10, in particular the floor module 40, preferably forms a receptacle 40A for the first cleaning device 20 in order to at least partially receive the first cleaning device 20. The first cleaning device 20 can thus at least partially move into the floor module 40 in order to establish a fluidic and / or electrical connection with the base station 10 or the floor module 40.

The base station 10, in particular the head module 50, is preferably designed to hold or partially accommodate the second cleaning device 30. In particular, the second cleaning device 30 can be fastened to the head module 50 or suspended in the head module 50.

The base station 10, in particular the head module 50, preferably has a holder 10C in order to hold the second cleaning device 30, in particular positively and / or non-positively and / or above or at a distance from the floor 3.

In the embodiment shown, the holder 10C is formed by a hook, the second cleaning device 30 having a bracket corresponding to the hook in order to hang the cleaning device 30. However, other solutions are also possible here.

The base station 10, in particular the head module 50, has an in particular box-shaped housing 50A, preferably the housing 50A having or forming the holder 10C.

In a particularly preferred embodiment, the electrical connection 50E is integrated into the holder 10C.

The electrical and / or fluidic connection between the base station 10 or the head module 50 and the second cleaning device 30 is preferably established by or at the same time as attaching or mechanically coupling the cleaning device 30 to the base station 10 or the head module 50.

The base station 10 preferably has a (first) fluidic, in particular pneumatic, connection 40F for the first cleaning device 20 and / or a (second) fluidic, in particular pneumatic, connection 50F for the second cleaning device 30 in order to connect the base station 10 fluidically, in particular pneumatically to be connected to the cleaning device 20 or 30, preferably wherein the first fluidic connection 40F is arranged in the base module 40 and the second fluidic connection 50F is arranged in the head module 50.

The fluidic connection 40F or 50F of the base station 10 is preferably formed by a nozzle, an opening or the like, for example in a foot part 40B of the base module 40 and / or on a front side 50C of the head module 50 and / or directly next to the electrical connection 40E or 50E arranged.

In a particularly preferred embodiment, the fluidic connection 50F of the head module 50 is integrated into the holder 10C for the second cleaning device 30.

It is preferred that the cleaning device 20 or 30 connects both fluidically and electrically to the base station 10 (automatically) when it moves onto the foot part 40B or against the base station 10, in particular the floor module 40, or into the base station 10, in particular the head module 50, is suspended or is in the connection position.

The base station 10, in particular the head module 50, preferably has a container 50G, a filter 50H and / or a fan or blower 50J, preferably wherein the fluidic connection 40F or 50F is fluidically connected to the container 50G, the filter 50H and / or connected to the fan 50J.

The filter 50H is preferably a (disposable) filter bag or a (disposable) filter cartridge, which is preferably replaced after use or when a certain fill quantity has been reached or with a new filter or a new filter cartridge is replaced.

The filter 50H is preferably arranged in the container 50G and / or attached to an inlet of the container 50G.

By connecting the cleaning device 20 or 30 to the base station 10, a fluidic connection of an only schematically indicated chamber 20C or 30C of the cleaning device 20 or 30 with the base station 10 or the head module 50, in particular the container 50G or the 50J blower manufactured.

By means of the fan 50J, it is possible to convey a fluid, in particular suction material or air together with suction material, from the cleaning device 20 or 30, in particular the chamber 20C or 30C, to the base station 10 or in its container 50G, in particular to suck.

In the connection position of the cleaning device 20 or 30, the cleaning device 20 or 30 is fluidically, particularly preferably both fluidically and electrically, connected to the base station 10, in particular such that the chamber 20C or 30C of the cleaning device 20 or 30 is emptied and / or the accumulator 20A or 30A can be charged. In the connection position, a maintenance process, in particular a suction process and / or charging process, of the cleaning device 20 or 30 can be carried out by means of the base station 10.

For example, in the connection position or during a maintenance or suction process, suction material can be drawn from the chamber 20C of the first cleaning device 20 via the fluidic connection 40F of the base module 40 and / or via the fluidic connection 50F of the head module 50 suction material from the chamber 30C of the second cleaning device 30 are sucked off and transferred to the (common) container 50G. In this way, manual emptying of the cleaning devices 20, 30 can be dispensed with.

The container 50G preferably has a volume which is greater than the volume of the chamber 20C of the first cleaning device 20 or the chamber 30C of the second cleaning device 30, preferably twice or three times, so that the entire contents of the chamber 20C or 30C from Container 50G can be accommodated. The volume of the container 50G is particularly preferably greater than the combined volume of the chamber 20C of the first cleaning device 20 and the chamber 30C of the second cleaning device 30, in particular by at least twice or three times. In this way it is possible to accommodate the entire contents of both chambers 20C, 30C of the cleaning device 20, 30 in the container 50G.

The container 50G preferably has a volume of more than 1 l or 1.5 l, particularly preferably of more than 2 l or 3 l.

The base station 10, in particular the head module 50, is preferably equipped with a flap 10D in order to open the base station 10, in particular the container 50G, to empty it and / or to change the filter 50H.

In the embodiment shown, the flap 10D is designed as a removable or pivotable cover. But it is also possible, for example, to provide the front side 50C with the flap 10D.

The container 50G or the filter 50H has an inlet, wherein in the embodiment shown, both cleaning devices 20, 30 or both fluidic connections 40F, 50F are connected fluidically or via corresponding lines to the inlet.

The base station 10 preferably has an optional (controlled) shut-off device 10E, such as a shut-off flap or a valve, in order to control the air flow and / or the air flow. In particular, the first cleaning device 20 or the fluidic connection 40F or the second cleaning device 30 or the fluidic connection 50F can be connected fluidically to the container 50G or the filter 50H by means of the shut-off device 10E.

The base station 10 preferably has a control device 10S which controls the (electrical) charging and / or emptying of the cleaning devices 20, 30. For this purpose, the control device 10S is preferably electrically connected to the (first) electrical connection 40E, the (second) electrical connection 50E, the power supply unit 10A, the fan 50J and / or the shut-off device 10E, as in FIG Fig. 1 indicated by dashed lines.

In the following, the air flow of the cleaning system 1 is based on the Fig. 2 described in more detail, only the first cleaning device 20 being shown. A Corresponding air guidance can, however, also be provided for the optional other cleaning device 30.

The cleaning device 20 has a suction opening 20B, a suction line 20D, a fluidic connection 20F, a supply line 20G, a connecting line 20H, a ventilator or blower 20J, an outlet line 20L, an outlet opening 20N and / or a suction line 20P.

The lines 20D, 20G, 20H, 20L and 20P are designed as air-conducting or pneumatic lines in the cleaning device 20 and enable a medium, in particular air, to be transported in the cleaning device 20.

The openings 20B and 20N are designed as openings or perforations in the housing of the cleaning device 20 and enable an exchange of air between the cleaning device 20, in particular the chamber 20C, and the environment.

In the cleaning mode of the cleaning device 20, for example when the cleaning device 20 is used to clean the floor 3 or is carrying out a cleaning process, air together with suction material from the environment can enter the cleaning device 20, via the suction opening 20B or the suction line 20D, by means of the fan 20J. in particular the chamber 20C, are sucked.

In the chamber 20C, in the cleaning mode of the cleaning device 20 or during the cleaning process, suction material is separated from the air, for example by means of a filter (not shown), so that the (cleaned) air in particular via the connecting line 20H, the fan 20J, the outlet line 20L and the outlet opening 20N can be released back into the environment.

The suction opening 20B is preferably arranged on the bottom and / or on an underside of the cleaning device 20 and is connected to the chamber 20C via the suction line 20D or the supply line 20G.

The blower 20J is preferably fluidically connected to the chamber 20C via the connecting line 20H and / or, in the cleaning mode of the cleaning device 20, is arranged downstream of the chamber 20C.

The chamber 20C is consequently preferably arranged fluidically between the suction opening 20B or the suction line 20D on the one hand and the fan 20J or the outlet opening 20N on the other side.

The air flow or the direction of flow is changed at least partially or in sections in the suction mode or during suction using the base station 10 compared to the cleaning mode. In particular, the direction of flow in the chamber 20C is reversed in the suction mode compared to the cleaning mode.

In the following, a distinction is therefore made between the cleaning mode and the suction mode of the cleaning device 20. In Fig. 2 the preferred flow direction in the suction mode or during a maintenance or suction process is shown by arrows.

The cleaning mode is the mode in which the cleaning device 20 is during cleaning or while a cleaning process is being carried out.

A cleaning process within the meaning of the present invention is preferably a process in which cleaning takes place by means of the cleaning device 20 and / or in which the cleaning device 20 cleans or vacuums a surface such as the floor 3.

In the cleaning mode or during a cleaning process, the cleaning device 20 is usually not connected to the base station 10 and / or is spaced apart from the base station 10.

In particular, in the cleaning mode of the cleaning device 20 or during a cleaning process, the blower 20J is activated or switched on, in particular in such a way that air flows from the suction opening 20B to the outlet opening 20N. In the cleaning mode, air particularly preferably flows from the suction opening 20B via the suction line 20D or the supply line 20G into the chamber 20C and from the chamber 20C via the connecting line 20H and the blower 20J to the outlet line 20L or outlet opening 20N.

Consequently, the suction opening 20B and the suction line 20D form the suction tract of the cleaning device 20 in the cleaning mode.

The suction mode is the mode in which the cleaning device 20 is during suction using the base station 10 or during a maintenance or suction process.

A maintenance process within the meaning of the present invention is preferably a process in which the cleaning device 20 is serviced by means of the base station 10. A maintenance process can be a suction process and / or a charging process. In particular, the cleaning device 20 can be at least partially, preferably completely, sucked out by a maintenance process or a suction process and the cleaning device 20 can be at least partially, preferably completely charged, by a maintenance process or a charging process.

In the maintenance or suction mode or during a maintenance process, the cleaning device 20, in particular the fluidic connection 20F and / or the electrical connection 20E of the cleaning device 20, is connected to the base station 10, in particular the fluidic connection 40F and / or the electrical connection 40E of the Base station 10 connected.

In particular, in the maintenance or suction mode or during a maintenance process of the cleaning device 20, the fan 20J of the cleaning device 20J is deactivated or switched off.

Sucking out takes place preferably via the fluidic connection 20F or the suction line 20P of the cleaning device 20. In particular, the chamber 20C can be sucked out by means of the base station 10 via the fluidic connection 20F or the suction line 20P.

The fluidic connection 20F is preferably formed by a connector, an opening or the like in the cleaning device 20, in particular in the housing of the cleaning device 20. In the embodiment shown, the connection 20F is arranged on an upper side of the cleaning device 20. The fluidic connection 20F is preferably fluidically connected to the chamber 20C via the suction line 20P.

The cleaning device 20 preferably has a suction valve 20Q in order to control or change the air flow or the air flow in the cleaning device 20, in particular in order to switch between the cleaning mode and the suction mode.

The suction opening 20B or the connection 20F can preferably be fluidically connected to the chamber 20C by means of the suction valve 20Q.

In the cleaning mode or during a cleaning process, the suction opening 20B is fluidically connected to the chamber 20C in order to be able to suck in air from the environment or to direct it into the chamber 20C via the supply line 20G. The connection 20F is preferably fluidically separated from the chamber 20C in the cleaning mode.

In the suction mode, the fluidic connection 20F is fluidically connected to the chamber 20C in order to convey air or suction material from the chamber 20C and the optional supply line 20G to the connection 20F or the base station 10. The suction opening 20B is preferably fluidically separated from the chamber 20C in the suction mode.

Air or room air RL preferably flows from outlet opening 20N to fluidic connection 20F during suction or in suction mode. Particularly preferably, when sucking out or in the suction mode, air or room air RL flows via the outlet line 20L, the fan 20J and / or the connecting line 20H into the chamber 20C and from the chamber 20C via the supply line 20G and the suction line 20P through the cleaning device 20 or to the fluidic connection 20F or to the base station 10.

Consequently, the outlet opening 20N and the outlet line 20L form the suction tract of the cleaning device 20 in the suction mode or during a maintenance or suction process.

The cleaning device 20 preferably has a control device 20S, a data processing device 20R and / or a communication device 20K, preferably wherein the control device 20S, the data processing device 20R, the communication device 20K, the fan 20J and / or the suction valve 20Q are electrically connected to one another, as in Fig. 2 indicated by dashed lines.

The control device 20S is preferably designed to control the fan 20J, in particular to activate or deactivate it and / or to adapt the power of the fan 20J.

In addition, the control device 20S is preferably designed to control the suction valve 20Q or to adapt the switching position of the suction valve 20Q.

The cleaning device 20 is preferably equipped with a measuring device 20M in order to measure the air quality, in particular the size, number and / or concentration or density of (dust) particles in the room air RL, the temperature of the room air RL and / or the (relative) To measure the humidity of the room air RL.

The cleaning device 20 or the measuring device 20M preferably has one or more (different) measuring points S1 or S2.

In the embodiment shown, a (first) measuring point S1 is in the supply line 20G or in the cleaning mode of the cleaning device 20 (directly) upstream of the chamber 20C and / or a (second) measuring point S2 is in the connecting line 20H or in the suction mode of the cleaning device 20 located (immediately) upstream of chamber 20C. However, other embodiments are also possible, for example in which the measuring point (s) S1 or S2 is or are arranged in the suction opening 20B, the fluidic connection 20F, the outlet opening 20N and / or on an outside of the housing.

The cleaning device 20 or the measuring device 20M preferably has one or more sensors 20W, 20X. In the embodiment shown, the measuring device 20M has a first sensor 20W for the first measuring point S1 and a second sensor 20X for the second measuring point S2.

The measuring device 20M is preferably designed to measure the size, number and / or concentration or density of particles in the room air RL, the temperature of the room air RL and / or the (relative) humidity of the measuring point (s) S1 or S2 To measure or determine room air RL.

The sensor 20W or 20X is preferably a dust sensor or particle counter, a humidity sensor or a hygrometer and / or a temperature sensor or a thermometer.

A dust sensor in the sense of the present invention is a sensor for detecting the size, number and / or concentration or density of particles in a medium such as air. A dust sensor is preferably an optical sensor and / or a dust sensor has a light source, a measuring cell and a detector, preferably to detect scattered light of the particles in the measuring cell by means of the detector.

The measuring device 20M, in particular the sensor 20W or 20X, is preferably electrically connected to the control device 20S, the data processing device 20R and / or the communication device 20K, in particular in order to process and evaluate the measured values and / or to the base station 10 and / or a to be transmitted to another facility, as will be explained in more detail below.

The base station 10 preferably has a supply line 10G, a fan line 10H, an outlet line 10J and / or an outlet opening 10L, preferably wherein the container 50G is fluidically connected via the supply line 10G to the fluidic connection 40F or 50F and / or via the fan line 10H or the outlet line 10J is connected to the outlet port 10L.

In the embodiment shown, the base station 10 has a first connection line 10N and a second connection line 10P, the first fluidic connection 40F via the first connection line 10N and the second fluidic connection 50F via the second connection line 10P fluidly with the supply line 10G or the container 50G is connected or connectable.

The lines 10G, 10H, 10J, 10N and 10P are designed as air-conducting or pneumatic lines in the base station 10 and enable a medium, in particular air and / or suction, to be transported in the base station 10.

The outlet opening 10L is designed as an opening or breakthrough in the housing 50A of the base station 10 and enables the exchange of air between the base station 10, in particular the container 50G, and the environment.

As already explained, the fluidic connection 40F or the fluidic connection 50F can optionally be connected fluidically to the container 50G or the blower 50J by means of the optional shut-off device 10E.

The blower 50J is preferably fluidically connected to the container 50G via the blower line 10H and / or via the outlet line 10J to the outlet opening 10L or the environment. In particular, the fan 50J is fluidly arranged between the container 50G and the outlet opening 10L.

The base station 10 preferably has a control device 10S, a data processing device 10R, a communication device 10K and / or a measuring device 10M, preferably wherein the control device 10S, the data processing device 10R, the communication device 10K, the measuring device 10M, the shut-off device 10E and / or the fan 50J are electrically interconnected as in Fig. 2 and Fig. 3 indicated by dashed lines.

When the cleaning device 20 is sucked out or during a maintenance or suction process, suction material or air is transferred or sucked together with suction material from the cleaning device 20, in particular the chamber 20C, into the base station 10, in particular the container 50G, in particular by means of the Fan 50J.

In the container 50G of the base station 10, suction material is separated from the air, for example by means of the filter 50H (in Fig. 2 not shown), so that the (cleaned) air, hereinafter referred to as suction air, can be released back into the environment in particular via the fan line 10H, the fan 50J, the outlet line 10J and / or the outlet opening 10L.

The base station 10 preferably has an air conditioner 60 for conditioning / air conditioning the room air RL or for emitting conditioned supply air ZL. In the following, the structure and the mode of operation of the air conditioner 60 will be explained on the basis of FIG Fig. 3 explained in more detail, which shows a section of the base station 10 in the area of the air conditioner 60.

The air conditioning device 60 is preferably integrated into the base station 10, in particular the base module 40 or the head module 50, or is arranged within the housing 50A of the base station 10. However, it is also possible for the air-conditioning device 60 to be designed as a separate module that can be mounted on the head module 50 (subsequently), for example.

The air conditioner 60 is preferably designed for cleaning, humidifying, dehumidifying, heating and / or cooling the room air RL. In particular, room air RL can be sucked in, cleaned or filtered, humidified, dehumidified or dried, heated, cooled and / or in the conditioned or processed state or as supply air ZL (again) released to the environment by means of the air conditioning device 60 .

The term “room air” in the context of the present invention is preferably to be understood as the ambient air or the air in the room in which the cleaning system 1 or the base station 10 or the cleaning device 20 is used. The room air RL is preferably the air that is sucked in by the base station 10, in particular in order to measure and / or adjust the condition or quality of the air, in particular the purity or particle concentration, the humidity and / or the temperature.

The term "supply air" in the context of the present invention is preferably to be understood as the air that is emitted from the base station 10 to the environment. The supply air ZL is preferably the air or room air RL that has been conditioned or conditioned by means of the base station 10, in particular the air conditioning device 60.

The air conditioner 60 preferably works independently and / or has its own air duct, which is preferably decoupled from the air duct for vacuuming the cleaning device 20 or 30. However, solutions are also possible in which the air conditioner 60 is fluidically or pneumatically connected to the container 50G or downstream of the container 50G, as will be explained in more detail below.

The air conditioner 60 has an inlet 60A with an optional inlet flap 60B, a filter arrangement 60C, an optional preheater 60D, a cooler 60E, a dehumidifier 60F, a humidifier 60G, a heater 60H, a fan or blower 60J and / or an outlet 60K with an optional exhaust flap 60L.

The inlet 60A and the outlet 60K are designed as openings or breakthroughs in the housing 50A and enable an exchange of air between the base station 10, in particular the air conditioner 60, and the environment.

By means of the optional inlet flap 60B or the outlet flap 60L it is possible to open or close the inlet 60A or outlet 60K or to change the flow cross-section of the inlet 60A or outlet 60K.

The filter arrangement 60C is preferably arranged (directly) downstream of the inlet 60A and / or is connected to the inlet 60A via an inlet line 60M.

The filter arrangement 60C is designed for cleaning / filtering the room air RL and / or designed to retain or separate and / or decompose or to remove suspended matter or particles, in particular dust, bacteria, viruses, pollen, mite eggs or the like columns.

The filter arrangement 60C is configured in one or more stages and / or has one or more filters or filter stages.

The filter arrangement 60C preferably has a prefilter 60N, a particulate filter 60P, an activated carbon filter 60Q, a photocatalyst 60R, an ozone generator 60S and / or an electrostatic filter 60T.

The prefilter 60N is preferably designed as a grid, sieve or fleece filter and / or is provided to separate larger particles, for example with an aerodynamic diameter of more than 1 μm or 2 μm.

The particulate filter 60P is preferably connected immediately downstream of the prefilter 60N and / or is designed to separate particles with an aerodynamic diameter of less than 1 μm or 0.5 μm.

The particulate filter 60P is preferably designed as a ULPA, HEPA or EPA filter.

With the HEPA filter 60P it is possible to remove the smallest particles such as fine dust, bacteria and / or viruses from the room air RL.

The particulate filter 60P preferably has filter class H13 or H14 according to the European standard DIN EN 1822-1: 2011-01.

The activated carbon filter 60Q is preferably connected downstream of the prefilter 60N and / or the particulate filter 60P.

The activated carbon filter 60Q is preferably designed to separate or break down dust, in particular fine dust, heavy metals, ozone and / or pollutants from the room air RL.

The photocatalyst 60R is preferably connected downstream of the prefilter 60N, the particulate filter 60P and / or the activated carbon filter 60Q.

The photocatalyst 60R is preferably designed as a UV filter and / or designed to decompose organic substances and / or to oxidize gaseous substances by means of photocatalysis or UV radiation and titanium dioxide as a catalyst.

The ozone generator 60S is preferably connected downstream of the prefilter 60N, the particulate filter 60P, the activated carbon filter 60Q and / or the photocatalyst 60R.

The ozone generator 60S is preferably designed for the production of ozone, in particular to use ozone as an oxidizing agent to organic compounds, such as Bacteria or viruses, to decompose. In particular, the room air RL is at least partially disinfected by means of the ozone generator 60S.

The electrostatic precipitator 60T is preferably connected downstream of the prefilter 60N, the particulate filter 60P, the activated carbon filter 60Q, the photocatalyst 60R and / or the ozone generator 60S.

The electrostatic precipitator 60T is preferably designed as an electrostatic precipitator or ionizer and / or designed to separate particles in an electric field.

By means of the filter arrangement 60C, in particular the different filter stages of the filter arrangement 60C, it is possible both to separate particles in the room air RL and to decompose organic compounds, in particular to reduce odors in the room air RL, which arise in particular from organic compounds.

The preheater 60D or the heater 60H is or are designed to heat the room air RL. For this purpose, the preheater 60D or the heater 60H preferably has electrical heating or electrical heating rods.

The cooler 60E is designed to cool the room air RL or to extract heat from the room air RL, in particular by means of a refrigerant, a (direct) evaporator, a condenser, a compressor or a pump (not shown).

The air conditioner 60, in particular the cooler 60E, optionally has an exhaust air connection 60U in order to dissipate heat or exhaust air, for example by means of an exhaust air hose (not shown). In addition, the cooler 60E can have an outside air connection 60V in order to draw in outside air, for example by means of a fresh air hose (not shown).

By means of the dehumidifier 60F it is possible to remove water from the room air RL, in particular by the room air RL being cooled in the dehumidifier 60F or in the cooler 60E to a temperature below the dew point temperature of the room air RL and guided past a condensation surface (not shown).

In the illustrated embodiment, the cooler 60E and the dehumidifier 60F are formed as one device. However, it is also possible that the cooler 60E and the dehumidifier 60F are two separate devices or are spatially spaced from one another.

The humidifier 60G is designed to increase the humidity of the room air RL or to give off water to the room air RL. The humidifier 60G can be designed as a steam humidifier or evaporator, as an evaporation humidifier or evaporator and / or as an aerosol atomizer or atomizer.

The base station 10 or the air conditioner 60, in particular the humidifier 60G, preferably has a tank 60W for water for humidifying the room air RL. The tank 60W can preferably be filled via a corresponding inlet (not shown) of the base station 10 or of the air conditioner 60. The water can be conveyed from the tank 60W to the humidifier 60G by means of an optional, preferably electrically operated, pump 60X.

By means of the fan 60J it is possible to suck in the room air RL from the environment or to convey it through the air-conditioning device 60 and / or to compensate for pressure losses in the air-conditioning device 60.

In the embodiment shown, the fan 60J is arranged downstream of the filter arrangement 60C and / or immediately upstream of the outlet 60K and / or is connected to the outlet 60K via an outlet line 60Y. However, other arrangements are also possible here.

The air conditioner 60 is preferably operated electrically or electrically with the power supply unit 10A (in Fig. 2 and Fig. 3 not shown), the control device 10S, the data processing device 10R and / or the communication device 10K.

The filter arrangement 60C, in particular the photocatalyst 60R, the ozone generator 60S and / or the electrostatic precipitator 60T, the preheater 60D, the cooler 60E, the dehumidifier 60F, the humidifier 60G, the pump 60X, the heater 60H, are the blower 60J, the inlet flap 60B and / or the outlet flap 60L electrically with the power supply unit 10A, the control device 10S, the data processing device 10R and / or the communication device 10K, as in Fig. 2 and Fig. 3 indicated by dashed lines.

As already explained, the air conditioning device 60 preferably works independently, in particular independently of the fan 50J, and / or the air conditioning device 60 has its own or separate air duct. In particular, the air conditioner 60 can be operated independently of, particularly preferably before, during and / or after a suction process. In other words, the room air RL can preferably be conditioned or air-conditioned independently of, in particular before, during and / or after a suction process.

However, it is particularly preferred that the air conditioner 60 is (pneumatically) coupled or can be coupled (if necessary) to the fluidic connection 40F or 50F, the container 50G, the filter 50H and / or the fan 50J, in particular in such a way that the fluidic connection 40F or 50F sucked air or room air RL is passed through the air conditioner 60.

The base station 10 preferably has a (corresponding) connecting line 10T which pneumatically connects the air conditioner 60 to the fluidic connection 40F or 50F, the container 50G, the filter 50H and / or the blower 50J, in particular such that the from the container 50G flowing air or room air RL can be aftertreated by means of the air conditioner 60.

The connecting line 10T preferably connects the filter arrangement 60C or the inlet line 60M of the air-conditioning device 60 to the fan line 10H or the outlet line 10J.

The base station 10 or the air conditioner 60 preferably has a valve 60Z in order to optionally couple the inlet 60A of the air conditioner 60 or the fluidic connection 40F or 50F or the container 50G to the air conditioner 60, in particular the filter arrangement 60C. The valve 60Z is preferably arranged between the inlet 60A and the filter arrangement 60C or in the inlet line 60M.

The connecting line 10T preferably opens upstream of the filter arrangement 60C into the inlet line 60M of the air conditioning device 60, so that the air supplied or room air RL can flow through the filter arrangement 60C or can be cleaned or post-treated by means of the filter arrangement 60C.

The base station 10 optionally has an outlet valve 10U in order to supply the air flow either directly to the surroundings or to the air conditioning device 60. The outlet valve 10U is preferably arranged downstream of the fan 50J or between the outlet opening 10L and the fan 50J and / or in the outlet line 10J.

The valve 60Z and the optional outlet valve 10U can be designed, for example, as a shut-off valve or (three-) way or switching valve. Preferably, the valve 60Z and / or the outlet valve 10U are / is electrically connected to the control unit 10S, as in FIG Fig. 2 and Fig. 3 indicated by dashed lines.

Using the measuring device 10M, it is possible to determine or measure the quality, in particular the number, size and / or concentration of particles, the temperature and / or humidity of the air, in particular the room air RL and / or the supply air ZL .

The base station 10 or the air conditioner 60 preferably has one or more (different) measuring points B1 to B5 to indicate the quality, in particular the number, size and / or concentration of particles and / or the temperature and / or humidity of the air to determine or measure one or more points in the base station 10, in particular in the air conditioning device 60.

The measuring points B1 to B5 are preferably arranged or distributed in the lines in the base station 10, in particular the air conditioning device 60. The measuring points B1 to B5 are particularly preferably arranged between the inlet 60A and the outlet 60K of the air-conditioning device 60. However, it is also possible for one or more measuring points B1 to B5 to be provided at other points in or on the base station 10, for example in the fan line 10H, the connecting line 10T and / or on an outside of the housing 50A.

A (first) measuring point B1 is preferably in the inlet line 60M or (directly) upstream of the filter arrangement 60C, a (further or second) measuring point B2 (directly) downstream of the filter arrangement 60C, a (further or third) measuring point B3 (directly) upstream of the humidifier 60G, a (further or fourth) measuring point B4 (directly) downstream of the humidifier 60G and / or a (further or fifth) measuring point B5 in the outlet line 60Y or ( immediately) upstream of the outlet 60K.

The measuring device 10M is preferably designed to measure the number, size and / or concentration of particles, temperature and / or humidity at the measuring point (s) B1 to B5.

The base station 10, in particular the measuring device 10M, preferably has one or more sensors 10V to 10Z. In the embodiment shown, the base station 10, in particular the measuring device 10M, has a (first) sensor 10V for the (first) measuring point B1, a (further or second) sensor 10W for the second measuring point B2, a (further or third) Sensor 10X for the third measuring point B3, a (further or fourth) sensor 10Y for the fourth measuring point B4 and / or a (further or fifth) sensor 10Z for the fifth measuring point B5.

The sensors 10V to 10Z are preferably one or more dust sensors for measuring the number, size and / or concentration of particles, one or more temperature sensors for measuring the temperature and / or one or more humidity sensors for measuring the humidity.

For example, the first sensor 10V and / or the second sensor 10W are designed as dust sensor (s), the third sensor 10X, the fourth sensor 10Y and / or the fifth sensor 10Z as temperature sensor (s) and / or as a humidity sensor.

The measuring device 10M, in particular the sensors 10V to 10Z, is or are preferably electrically connected to the control device 10S, the data processing device 10R and / or the communication device 10K, in particular in order to process the measured values, evaluate them and / or to the cleaning device 20 and / or another device, such as a central device or a server.

The proposed method is preferably carried out by the proposed cleaning system 1 or the proposed base station 10. The following description in turn relates to the first cleaning device 20, but preferably also applies to the second cleaning device 30.

As already explained, before, during and / or after a cleaning process by means of the cleaning device 20 and / or before, during and / or after a maintenance process, in particular a suction process, by means of the base station 10, the room air RL is conditioned by means of the air conditioning unit 60, in particular heated, cooled, humidified, dehumidified and / or cleaned, and preferably released into the environment as conditioned supply air ZL.

The air conditioning can in principle be dependent on or independent of the maintenance or suction.

However, it is preferred that when using the cleaning device 20 or during a cleaning process, the room air RL is conditioned, in particular cleaned, by means of the base station 10, in particular the air-conditioning device 60.

The dust whirled up by the cleaning device 20 can advantageously be at least partially absorbed by the base station 10. In addition, it is possible to cool the room air RL by means of the base station 10, in particular the air conditioner 60, in such a way that the heat generated by the cleaning device 20 is at least partially dissipated in order to maintain or generate a pleasant room climate.

It is further preferred that during a maintenance process, in particular a suction process, the air-conditioning device 60 is activated or the room air RL is air-conditioned by means of the air-conditioning device 60.

In a particularly preferred variant of the method, during a maintenance process by means of the base station 10, the air sucked from the cleaning device 20 is post-treated by means of the air-conditioning device 60 or passed into the air-conditioning device 60 for post-treatment, in particular via the connecting line 10T.

In this way, it is possible to clean, cool, warm, humidify and / or dehumidify the air conducted through the container 50G or the filter 50H - additionally or before it is released to the environment. In this way, when a maintenance process or a suction process is carried out, the room climate is adapted and / or negative effects from the operation of the base station 10, in particular the blower 50J, are directly at least partially compensated.

It is preferred that during the cleaning by means of the cleaning device 20, the room air RL for air conditioning is sucked in via the inlet 60A of the air conditioning device 60.

When vacuuming or during a vacuuming process or when the cleaning device 20 is connected to the base station 10, the air flow in the base station 10 is preferably changed (automatically) or the valve 10U or 60Z is actuated, in particular such that the container 50G is pneumatically is coupled to the air conditioner 60 and / or the room air RL - in particular instead of via the inlet 60A of the air conditioner 60 - is sucked in via the fluidic connection 40F or 50F of the base station 10 and supplied to the air conditioner 60.

In such a variant of the method, the air supply to the air conditioner 60 is consequently changed when changing from a cleaning process using the cleaning device 20 to a suction process using the base station 10 (or vice versa), in particular without interruption or without the air conditioning unit 60 being deactivated.

When using the cleaning device 20 or when carrying out a cleaning process, the quality of the room air, in particular the particle concentration, the humidity and / or the temperature of the room air RL, is preferably determined by means of the cleaning device 20, in particular the measuring device 20M, and / or by means of the base station 10, in particular of the measuring device 10M, measured or determined.

The air conditioning is preferably carried out by means of the base station 10 or the air conditioning device 60, in particular by means of the measuring device 10M, and / or by means of the cleaning device 20, in particular the measuring device 20M, or as a function of controlled by the determined or determined measured values. In particular, the air conditioning is (automatically) started, ended and / or adapted as a function of the determined or determined measured values.

For example, if the dust concentration is too high or if a predefined limit value is exceeded, the room air RL is cleaned using the air conditioner 60, in particular the filter arrangement 60C, and if the temperature is too low or if the temperature falls below a predefined value, the room air RL is cleaned using the Air conditioner 60, in particular the heater 60H, is heated, if the temperature is too high or if a predefined temperature is exceeded, the room air RL is cooled by means of the air conditioner 60, in particular the cooler 60E, if the humidity is too low or if the humidity falls below a predefined level Room air RL is humidified by means of the air conditioning unit 60, in particular the humidifier 60G, and / or if the humidity is too high or when a predefined humidity is exceeded, the room air RL is dehumidified or dried by means of the air conditioning unit 60, in particular the dehumidifier 60F, specifically preferably during the D Implementation of a cleaning process by means of the cleaning device 20 and / or during the implementation of a maintenance process by means of the base station 10.

To control the air-conditioning device 60, the measured values of the measuring device 20M of the cleaning device 20 are consequently particularly preferably used - also or exclusively -. For this purpose, one or more measured values are transmitted (in terms of data) between the cleaning device 20 and the base station 10.

By using the measuring device 20M of the cleaning device 20, it is possible to measure the air quality at different points in the room and / or at a distance from or independently of the base station 10.

The measured values of the cleaning device 20 can, for example, be used as averaged values for controlling the base station 10, in particular the air conditioning device 60, and / or compared with the measured values of the base station 10, in particular the measuring device 10M. In this way, any errors and / or (local) outliers can be identified, in particular in order to avoid overriding the air-conditioning device 60.

The cleaning system 1 or the base station 10 can preferably be coupled (in terms of data) to the cleaning device 20 and / or further devices, such as a mobile device and / or a central device.

A wired or wireless data connection can preferably be established between the base station 10 and the cleaning device 20 or a further device, in particular to transmit a signal and / or information or to exchange it between the base station 10 and the cleaning device 20 and / or a further device. The data exchange or the signal transmission can take place directly or indirectly, for example via a mobile device or a central device.

A signal in the sense of the present invention is preferably a means for information transmission, a (modulated) wave, in particular in a conductor, a sequence, a packet in the IT sense or the like.

Preferably, a signal within the meaning of the present invention can be transmitted via a — wireless or wired — data connection. One or more items of information, for example relating to air quality, are particularly preferably assigned to a signal and / or contained in a signal.

In order to enable a data exchange between the base station 10 and the cleaning device 20 and / or another device or to transmit a signal, in particular the measured values, the base station 10 preferably has the communication device 10K and the cleaning device 20 has the communication device 20K.

The communication device 10K or the communication device 20K preferably has (in each case) a receiver for receiving a signal, a transmitter for sending a signal and / or an interface, in particular a radio interface, a WPAN interface, a near-field communication interface, an NFC Interface, a WLAN interface or some other, particularly preferably wireless interface.

Additionally or alternatively, the electrical connection 40E or 50E of the base station 10 and the electrical connection 20E or 30E of the cleaning device 20 are used for the preferably wired data exchange between the base station 10 and the cleaning device 20, in particular when the cleaning device 20 is in the connection position .

The measured values are preferably transmitted when the cleaning device 20 is connected to the base station 10 and / or is in use, that is, it is performing a cleaning process. In particular, it is possible for the measured values to be transmitted continuously or at intervals between the base station 10 and the cleaning device 20.

By means of the proposed base station 10 or the proposed method, it is possible to maintain or improve the quality of the room air, in particular when carrying out a cleaning process and / or a maintenance process. In particular, it is possible to detect a high level of dust exposure and / or, depending on the measured air quality, to activate and deactivate the air conditioning device 60 and / or to adapt the air conditioning by means of the base station 10.

Individual aspects, features and method steps or variants of the present invention can be implemented independently, but also in any combination and / or sequence. <b> List of reference symbols: </b> 1 Cleaning system 20G Supply line 2 wall 20H Connecting line 3 ground 20y fan 10 Base station 20K Communication facility 10A power adapter 20L Outlet pipe 10B Power connection 20M Measuring device 10C bracket 20N Outlet opening 10D flap 20P Suction line 10E Shut-off device 20Q Suction valve 10G Supply line 20R Data processing device 10H Blower line 20S Control device 10Y Outlet pipe 20W first sensor 10K Communication device 20X second sensor 10L Outlet opening 30th second cleaning device 10M Measuring device 30A accumulator 10N first connection line 30C chamber 10P second connection line 30E electrical connection 10R Data processing device 40 Floor module 10S Control unit 40A admission 10T Connecting line 40B Foot part 10U outlet valve 40E electrical connection 10V first sensor 40F fluidic connection 10W second sensor 10X third sensor 50 Head module 10Y fourth sensor 50A casing 10Z fifth sensor 50C front 50E electrical connection 20th first cleaning device 50F fluidic connection 20A accumulator 50G container 20B Suction opening 50H filter 20C chamber 50Y fan 20D Suction line 20E electrical connection 60 Air conditioner 20F fluidic connection 60A inlet 60B Inlet flap 60C Filter arrangement 60D Preheater 60E cooler 60F Dehumidifier 60G Humidifier 60H Warmer 60Y fan 60K Outlet 60L Exhaust flap 60M Inlet pipe 60N Pre-filter 60P HEPA filters 60Q Activated carbon filter 60R Photocatalyst 60S Ozone generator 60T Electrostatic precipitator 60U Exhaust air connection 60V Outside air connection 60W tank 60X pump 60Y Outlet pipe 60Z Valve B1 first measuring point in the base station B2 second measuring point in the base station B3 third measuring point in the base station B4 fourth measuring point in the base station B5 fifth measuring point in the base station S1 first measuring point in the cleaning device S2 second measuring point in the cleaning device RL Indoor air ZL Supply air

Claims (15)

Base station (10) for connecting a mobile cleaning device (20, 30), characterized in that
that the base station (10) is equipped with an air conditioner (60) for conditioning room air (RL) and / or a measuring device (10M) for measuring the quality of the room air (RL). Base station according to Claim 1, characterized in that the air conditioning device (60) is designed for cleaning, humidifying, dehumidifying, heating and / or cooling the room air (RL). Base station according to Claim 1 or 2, characterized in that the air conditioner (60) has a filter arrangement (60C) in order to clean the room air (RL). Base station according to Claim 3, characterized in that the filter arrangement (60C) has a prefilter (60N), a particulate filter (60P), an activated carbon filter (60Q), a photocatalyst (60R), an ozone generator (60S) and / or an electric filter (60T ) having. Base station according to one of the preceding claims, characterized in that the air conditioning device (60) has a dehumidifier (60F) for drying the air. Base station according to one of the preceding claims, characterized in that the air conditioning device (60) has a humidifier (60G). Base station according to one of the preceding claims, characterized in that the measuring device (10M) has a dust sensor (10V-10Z) for measuring the number, size and / or concentration of particles, a temperature sensor (10V-10Z) for measuring the temperature and / or a humidity sensor (10V-10Z) to measure the humidity of the room air (RL). Base station according to one of the preceding claims, characterized in that the base station (10) has a pneumatic connection (40F, 50F) for vacuuming the cleaning device (20, 30) and / or an electrical connection (40E, 50E) for electrically charging the cleaning device ( 20, 30). Base station according to one of the preceding claims, characterized in that the base station (10) has a container (50G) for suction material from the cleaning device (20, 30), wherein the air conditioning device (60) is arranged downstream of the container (50G) to air post-treatment from the container (50G). A method for operating a cleaning system (1) with a cleaning device (20, 30) and a base station (10) for the cleaning device (20, 30), preferably wherein the base station (10) is designed according to one of the preceding claims,
wherein room air (RL) is conditioned by means of the base station (10) and / or the quality of the room air (RL) is measured by means of the base station (10). Method according to claim 10, characterized in that before, during and / or after a cleaning process by means of the cleaning device (20, 30) and / or a maintenance process by means of the base station (10), the room air (RL) is conditioned, in particular heated, cooled and humidified , dehumidified and / or cleaned. A method according to claim 10 or 11, characterized in that during a maintenance operation by means of the base station (10), room air (RL) is sucked together with suction material from the cleaning device (20, 30) into the base station (10) and the suction material is stored in a container (50G ) the base station (10) is deposited, the room air (RL) then being post-treated or air-conditioned. Method according to one of claims 10 to 12, characterized in that - in particular before, during and / or after a cleaning process by means of the cleaning device (20, 30) and / or a maintenance process by means of the base station (10) - the particle concentration, the moisture and / or the temperature of the room air (RL) is measured by means of the base station (10). Method according to one of Claims 10 to 13, characterized in that - in particular before, during and / or after a cleaning process using the cleaning device (20, 30) and / or a maintenance process using the base station (10) - the quality of the room air (RL ), in particular the particle concentration, the humidity and / or the temperature of the room air (RL), is measured by means of the cleaning device (20, 30), preferably with measured values from the base station (10) being compared with the measured values from the cleaning device (20, 30) will. Method according to one of Claims 10 to 14, characterized in that a cleaning process by means of the cleaning device (20, 30) and / or the air conditioning by means of the base station (10) is automatically started, ended and / or adapted as a function of the measured values.

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