CN220175030U - Electrical appliance - Google Patents

Abstract

The utility model discloses an electrical equipment, which comprises: an apparatus body including a housing chamber for housing the cleaning robot; and the air conditioning mechanism is connected with the equipment body and is integrally constructed. According to the electrical equipment provided by the embodiment of the utility model, the air conditioning mechanism and the equipment body are integrated, so that the setting cost of a product is reduced, the space and the resources are saved, the use effect is better, and the application range is wider.

Description

Electrical appliance

Technical Field

The utility model relates to the technical field of household appliances, in particular to an electrical appliance.

Background

Along with the improvement of the living standard of people, the use types of electric appliances in daily life are gradually increased, when the electric appliances of different types are used, the occupied space of each electric appliance is large, the use of each electric appliance is relatively independent, and the required pipelines and corresponding parts are more, so that the space is stacked in disorder, and the daily use is inconvenient. The existing cleaning robot assembly comprises a base station and a robot, the robot can perform operations such as charging, cleaning, flushing and the like on the base station, but the size of the base station is larger, the availability of the base station is lower at present, the waste of the structural resources of the base station is caused, and the improvement space exists.

Disclosure of Invention

The present utility model aims to solve at least one of the technical problems existing in the prior art. Therefore, an object of the present utility model is to provide an electrical apparatus, which reduces the installation cost and saves space and resources.

According to an embodiment of the utility model, an electrical apparatus includes: an apparatus body including a housing chamber for housing the cleaning robot; and the air conditioning mechanism is connected with the equipment body and is integrally constructed.

According to the electrical equipment provided by the embodiment of the utility model, the air conditioning mechanism and the equipment body are integrated, so that the setting cost of a product is reduced, the space and the resources are saved, the use effect is better, and the application range is wider.

According to the electrical equipment provided by some embodiments of the utility model, the equipment body is provided with a drying air channel, the drying air channel is used for drying the first cleaning piece and/or the second cleaning piece of the cleaning robot, the air conditioning mechanism is provided with an air outlet module, the air outlet module is provided with an air outlet for outputting hot air, and the air outlet is communicated with the drying air channel.

According to some embodiments of the utility model, a connection air path is arranged between the device body and the air conditioning mechanism, and the connection air path is connected between the air outlet and the drying air duct.

According to some embodiments of the utility model, the air conditioning mechanism includes a compressor, a heating device and a cooling device, the compressor is connected to the heating device and the cooling device, and the heating device is connected to the air outlet module and is used for heating the air flow in the air outlet module.

According to some embodiments of the utility model, the heating device is located in the air outlet module or in the device body.

According to some embodiments of the utility model, the air outlet module further comprises a disinfection and purification device, which is located in the air outlet module or the device body and is used for disinfecting and/or purifying the air flow passing through the disinfection and purification device.

According to some embodiments of the utility model, the device body is provided with a climbing plate, the cleaning robot is suitable for entering the accommodating chamber along the climbing plate, the device body is provided with a position detecting piece for detecting the climbing plate, and the disinfection and purification device is arranged to be started when the position detecting piece detects that the climbing plate is retracted.

According to some embodiments of the utility model, the device body is provided with a cleaning tank for accommodating a first cleaning piece of a cleaning robot, and the drying air duct is communicated with the cleaning tank and is suitable for conveying hot air into the cleaning tank.

According to some embodiments of the utility model, the air conditioning mechanism is provided with a first water drain path, which is in communication with the cleaning tank.

According to some embodiments of the utility model, the electrical equipment further comprises a sewage module, wherein the sewage module is provided with a sewage inlet, the sewage module is provided with a drain valve, the drain valve is provided with a first valve body inlet, a second valve body inlet and a valve body outlet, the first valve body inlet is connected with the first drainage waterway, and the valve body outlet is connected with the sewage inlet.

According to some embodiments of the utility model, a buffer chamber is arranged in the air conditioning mechanism, the buffer chamber is positioned below a condenser of the air conditioning mechanism, and the first water drainage channel extends into the air conditioning mechanism and is communicated with the buffer chamber.

According to some embodiments of the utility model, a control valve is disposed in the first water discharge path, and the control valve is configured to supply water into the cleaning tank when the water amount in the buffer chamber is greater than a set water amount.

According to some embodiments of the utility model, the air conditioning mechanism is disposed above the device body.

According to some embodiments of the utility model, the air conditioning mechanism is detachably connected to the device body, and an area of a top mounting surface of the device body is adjustable.

According to some embodiments of the utility model, the device body is provided with a universal plug end, the air conditioning mechanism is provided with a first electrical connection end, the cleaning robot is provided with a second electrical connection end, and the universal plug end is used for being plugged and matched with the first electrical connection end and/or the second electrical connection end to perform electrical connection.

According to some embodiments of the utility model, the electrical apparatus further comprises a controller mounted on the apparatus body or the air conditioning mechanism, the controller is used for controlling the operation states of the air conditioning mechanism and the cleaning robot, and the controller is configured to control one of the air conditioning mechanism and the cleaning robot to stop operation or switch from the first operation state to the second operation state when controlling the other.

The utility model also provides an electrical device.

According to an embodiment of the utility model, an electrical apparatus includes: an apparatus body including a housing chamber for housing the cleaning robot; wherein the device body is configured to be connected with an air conditioning mechanism.

According to the electrical equipment provided by the embodiment of the utility model, the air conditioning mechanism is connected with the equipment body, so that the setting cost of a product is reduced, the space and the resources are saved, the use effect is better, and the application range is wider.

Additional aspects and advantages of the utility model will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the utility model.

Drawings

The foregoing and/or additional aspects and advantages of the utility model will become apparent and may be better understood from the following description of embodiments taken in conjunction with the accompanying drawings in which:

fig. 1 is a schematic structural view of an electrical apparatus according to an embodiment of the present utility model;

fig. 2 is a schematic diagram of a second embodiment of an electrical device according to the present utility model.

Reference numerals:

the electrical device 100 is configured to provide a signal,

the device comprises a device body 1, a drying air duct 11, a cleaning tank 12, a climbing plate 13, an air conditioning mechanism 2, an air outlet module 21, an air outlet 211, a first water drainage channel 22, a connecting air channel 3, a sewage module 4, a sewage inlet 41, a drain valve 42, a first valve body inlet 421, a second valve body inlet 422 and a valve body outlet 423.

Detailed Description

Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the utility model.

The following describes an electrical apparatus 100 according to an embodiment of the present utility model with reference to fig. 1 to 2, which reduces setup costs and saves space and resources.

As shown in fig. 1-2, an electrical apparatus 100 according to an embodiment of the present utility model includes: an apparatus body 1 and an air conditioning mechanism 2.

The apparatus body 1 includes a housing chamber for housing the cleaning robot, and the air conditioning mechanism 2 is connected to the apparatus body 1 and is integrally constructed.

The cleaning robot is also called a cleaning robot, an automatic cleaner and the like, and can automatically finish floor cleaning work in a room through machine setting. After the cleaning robot finishes the floor cleaning operation, the cleaning robot can return to the electrical equipment 100 according to the set route, and the electrical equipment 100 can not only clean and dry the mop carried by the cleaning robot, but also discharge sewage, charge the cleaning robot and the like so as to facilitate the next cleaning. The air conditioning mechanism 2 is an air conditioner that can output hot air and cold air and purify and sterilize the air through the built-in air outlet module 21.

Specifically, the cleaning robot is provided with the mop, after the cleaning robot accomplishes cleaning work, can get back to the equipment body 1 in the chamber that holds that is provided with to clean cleaning robot, avoid mop unclean etc. to influence user healthy, electrical equipment 100 still is provided with air conditioning mechanism 2, and air conditioning mechanism 2 can produce cold wind, hot-blast etc. in order to adjust external environment temperature.

Further, the air conditioning mechanism 2 is connected with the device body 1, and the air conditioning mechanism 2 and the device body 1 are arranged into an integral structure, that is, the air conditioning mechanism 2 and the device body 1 share a shell, an installation space can be formed in the device body 1, the air conditioning mechanism 2 and the cleaning robot can be arranged in the installation space, or the air conditioning mechanism 2 and the cleaning robot are respectively arranged in the respective installation spaces, the cleaning robot is movable relative to the installation space, the air conditioning mechanism 2 is fixed relative to the installation space, the air conditioning mechanism 2 and the cleaning robot are all arranged around the device body 1, the air conditioning mechanism 2 and the device body 1 can share components, and the utilization rate of the components is improved while the placement space is saved.

It should be noted that, the connection mode of the air conditioning mechanism 2 and the device body 1 in the present utility model may refer to connection of water, electricity, gas and air paths, or may be structurally connected, for example, an installation frame is provided, the air conditioning mechanism 2 is suspended in the installation frame, and the device body 1 is located at the bottom of the installation frame, that is, the air conditioning mechanism 2 and the device body 1 may be directly connected or indirectly connected, in other words, the air conditioning mechanism 2 and the device body 1 do not have to be fixedly connected in a direct contact manner.

According to the electrical equipment 100 provided by the embodiment of the utility model, the air conditioning mechanism 2 and the equipment body 1 are integrated, so that the setting cost of a product is reduced, the space and the resources are saved, the use effect is better, and the application range is wider.

In some embodiments, the apparatus body 2 is provided with a drying air duct 11, the drying air duct 11 is used for drying the first cleaning member and/or the second cleaning member of the cleaning robot, that is, the drying air duct 11 is used for drying the first cleaning member and the second cleaning member of the cleaning robot, and may be used for drying only the first cleaning member or drying only the second cleaning member, the air conditioning mechanism 2 is provided with an air outlet module 21, the air outlet module 21 is provided with an air outlet 211 for outputting hot air, and the air outlet 211 is communicated with the drying air duct 11.

Specifically, cleaning machines people are provided with first cleaning member and second cleaning member, first cleaning member can set up to the round brush, the second cleaning member can set up to the mop, after cleaning machines people accomplish cleaning work, can get back to clean in the equipment body 1, equipment body 1 is provided with stoving wind channel 11, stoving wind channel 11 can carry out the stoving to cleaning machines people's after wasing first cleaning member and second cleaning member and handle, avoid the mop moist to breed bacterium etc. and influence user's health, electrical equipment 100 still is provided with air conditioning mechanism 2, air conditioning mechanism 2 is provided with air-out module 21, air-out module 21 includes the fan, motor and motor controller etc. air-out module 21 that air conditioning mechanism 2 accessible set up on it produces cold wind, hot-blast etc. in order to adjust external ambient temperature, and air-out module 21 is provided with air outlet 211, the hot-blast accessible air outlet 211 output of air-out module 21, in order to export to the stoving wind channel 11 that is linked together with air outlet 211, and then dry first cleaning member and second cleaning member, the utilization ratio is improved.

In some embodiments, a connection air path 3 is provided between the apparatus body 1 and the air conditioning mechanism 2, and the connection air path 3 is connected between the air outlet 211 and the drying duct 11.

Specifically, the electrical equipment 100 is further provided with a connecting air path 3, one end of the connecting air path 3 is connected with the air outlet 211, namely, one end of the connecting air path 3 is connected with the air outlet module 21, the other end of the connecting air path 3 is connected with the drying air channel 11, namely, the other end of the connecting air path 3 is connected with the equipment body 1, when the cleaning robot finishes cleaning work and returns to the equipment body 1, and after cleaning is performed through the equipment body 1, the air outlet module 21 of the air conditioning mechanism 2 works to produce hot air, the hot air can enter the connecting air path 3 through the air outlet 211, and the hot air can circulate into the drying air channel 11 of the equipment body 1 connected with the hot air through the connecting air path 3, so that the hot air can dry the mop of the cleaning robot, the air conditioning mechanism 2 and the equipment body 1 share the air outlet module 21 and the connecting air path 3 are ensured, the utilization rate of parts is improved, and resources are saved.

In some embodiments, the air outlet module 21 is located on a side wall of the air conditioning mechanism 2, that is, the air outlet module 21 may be disposed on front, rear, left and right sides of the air conditioning mechanism 2, in this embodiment, the air outlet module 21 is disposed on a rear side wall of the air conditioning mechanism 2, an upper end of the connection air path 3 is connected to the air outlet module 21, and a lower end of the connection air path 3 is connected to the drying air duct 11.

Specifically, as shown in fig. 2, the air conditioning mechanism 2 is disposed above the device body 1, the air outlet module 21 is disposed on a rear side wall of the air conditioning mechanism 2, that is, the air outlet module 21 is disposed above the device body 1, the air outlet module 21 is provided with an air outlet 211, the device body 1 is provided with a drying air duct 11, the air outlet 211 is located above the drying air duct 11, the connecting air duct 3 is disposed along a vertical direction, an upper end of the connecting air duct is connected with the air outlet module 21, a lower end of the connecting air duct is connected with the drying air duct 11, and hot air generated by the air outlet module 21 can downwards circulate to the drying air duct 11 through the connecting air duct 3 so as to dry a mop of the cleaning robot.

In some embodiments, the air conditioning mechanism 2 includes a compressor, a heating device, and a cooling device, the compressor being coupled to the heating device and the cooling device, the heating device being coupled to the air outlet module 21 and configured to heat the air flow within the air outlet module 21.

Specifically, the heating device is provided with a condenser, a throttling part, a four-way reversing valve and the like, the refrigerating device is provided with an evaporator, the throttling part and the like, the compressor of the air conditioning mechanism 2 is used for absorbing heat of the low-pressure area into the refrigerant and then sending the refrigerant to the high-pressure area, and then sending the refrigerant to the air, so that the air conditioning mechanism plays a role in adjusting the air temperature, and the compressor is sequentially connected with the heating device and the refrigerating device, so that the air conditioning mechanism 2 can perform cold and hot adjustment on the outside air, and different use requirements of users are met.

Meanwhile, the heating device is positioned in the air outlet module 21, the air flow generated by the air outlet module 21 can form hot air after being processed by the heating device, the hot air enters the connecting air duct 3 through the air outlet 211, and then enters the drying air duct 11 through the connecting air duct 3 so as to dry the mop of the cleaning robot, so that the air conditioner can dry the mop of the cleaning robot in a cold mode and a hot air mode, the functions are integrated, the compressor of the air conditioning mechanism 2 has higher power, the air flow and the flow velocity generated by the compressor arranged by the air conditioning mechanism 2 are higher, the hot air flow and the flow velocity used for drying the mop of the cleaning robot are higher, the drying time is saved, and the operation efficiency is improved.

In some embodiments, the heating device is located in the air outlet module 21 or in the device body 1, that is, the heating device may be disposed in the air outlet module 21 or may be disposed in the device body 1, the heating device is disposed in the air outlet module 21, the air outlet module 21 includes an air outlet duct, the heating device may be located in the air outlet duct to heat the air flow in the air outlet module 21, so that the hot air may be directly discharged from the air outlet module 21, and the heating device may also be directly disposed in the air conditioning mechanism 2, so that the hot air directly enters the air outlet module 21 and is discharged through the air outlet module 21, so that the setting position of the heating device is more selectable, and the diversity of the device arrangement is improved.

In some embodiments, the air conditioning mechanism 2 further includes a disinfection and purification device, where the disinfection and purification device is provided with an air treatment unit, a return exhaust pipeline, an air duct attachment, a terminal filtering device, and the like, and the disinfection and purification device is located in the air outlet module 21 or the equipment body 1, that is, the disinfection and purification device may be disposed in the air outlet module 21, or may be disposed in the equipment body 1, for disinfecting and/or purifying an air flow flowing through the disinfection and purification device, that is, the disinfection and purification device may be used for disinfecting and purifying an air flow flowing through the disinfection and purification device, or may be used for disinfecting and purifying only an air flow flowing through the disinfection and purification device, or may be used for purifying only an air flow flowing through the disinfection and purification device.

Specifically, the air conditioning mechanism 2 is provided with a disinfection and purification device, so that air can be disinfected, sterilized, purified and the like, the air quality of the external environment is improved, the health of a user is further guaranteed, the disinfection and purification device of the air conditioning mechanism 2 can be arranged in the air outlet module 21 or the equipment body 1, the disinfection and purification device is arranged in the air outlet module 21, the air flow produced by the air outlet module 21 is processed by the disinfection and purification device to form air flow with disinfection and sterilization effects, the air flow is heated by the heating device to form hot air with disinfection and sterilization effects, and the hot air enters the drying air channel 11 through the connecting air channel 3, so that the mop of the cleaning robot is dried, sterilized and sterilized, and the air conditioning mechanism 2 has the effects of disinfecting, sterilizing and purifying the air and simultaneously realizes the drying, sterilizing and the sterilization of the mop of the cleaning robot, so that functions are integrated and diversified, and different requirements of the user are met.

In some embodiments, the air outlet module 21 further comprises an air flow driver located within the air outlet module 21, the air flow driver being adapted to deliver an air flow towards the air outlet 211.

Specifically, be provided with the air current driving piece in the air-out module 21, can drive the air current that the air-out module 21 produced, so that the air current carries to air outlet 211, the air current is produced through parts such as compressor, the air current forms hot-blast after heating through heating device, hot-blast density is low, compared with cold wind can upwards flow, the air-out module 21 is located equipment body 1 top, the air-out module 21 is located stoving wind channel 11 top promptly, set up the air current driving piece and can make the hot-blast transport that is located equipment body 1 top to the stoving wind channel 11 of equipment body 1, the flow direction of hot-blast has been guaranteed, simultaneously, the air current driving piece still can improve the velocity of flow of hot-blast, the stoving speed of cleaning robot mop is accelerated, improve work efficiency.

In some embodiments, the device body 1 is provided with a climbing plate 13, the cleaning robot is adapted to enter the accommodation chamber along the climbing plate 13, the device body 1 is provided with a position detecting member for detecting the climbing plate 13, and the disinfection and purification device is arranged to be opened when the position detecting member detects that the climbing plate 13 is retracted.

Specifically, as shown in fig. 1, the apparatus body 1 is provided with a climbing plate 13, one end of the climbing plate 13 is connected with the ground, the other end is connected with the accommodation chamber, so that the cleaning robot can enter the accommodation chamber from the ground through the climbing plate 13, and the apparatus body 1 is provided with a position detection member for detecting the climbing plate 13, after the cleaning robot enters the accommodation chamber, the climbing plate 13 can be retracted to seal the accommodation chamber, after the climbing plate 13 is retracted, the position detection member detects the climbing plate 13 to be in a retracted state, and can be transmitted to a disinfection and purification device, the disinfection and purification device is opened when the position detection member detects the climbing plate 13 to be retracted, the first cleaning member and the second cleaning member are disinfected in the closed accommodation chamber, so that the disinfection efficiency can be improved, and the disinfection effect can be improved.

In some embodiments, the apparatus body 1 is provided with a cleaning tank 12, the cleaning tank 12 is used for accommodating a first cleaning member of a cleaning robot, and the drying duct 11 is communicated with the cleaning tank 12 and is adapted to convey hot air into the cleaning tank 12.

Specifically, as shown in fig. 1, the cleaning tank 12 is disposed in the apparatus body 1, and an open opening is disposed on one side of the cleaning tank 12, and is communicated with the outside, the cleaning robot can enter the cleaning tank 12 through the open opening after completing the cleaning task, the cleaning tank 12 is connected with the drying duct 11, after completing the cleaning task, the cleaning robot can return to the apparatus body 1, and the first cleaning member of the cleaning robot is disposed in the cleaning tank 12 through the open opening, at this time, the apparatus body 1 can start to clean the first cleaning member of the cleaning robot, after completing the cleaning, the air outlet module 21 of the air conditioning mechanism 2 operates to produce hot air, the hot air can circulate into the drying duct 11 of the apparatus body 1 connected with the hot air through the connecting air duct 3, and then the hot air can enter the cleaning tank 12, so as to dry the first cleaning member of the cleaning robot, ensure the drying of the first cleaning member, and also can dry the first cleaning member while cleaning the first cleaning member, so that the apparatus function is more comprehensive.

In some embodiments, as shown in fig. 2, the air conditioning mechanism 2 is provided with a first drain waterway 22, the first drain waterway 22 being in communication with the cleaning tank 12.

Specifically, when the air conditioning mechanism 2 is in operation, air flows through the inside of the air conditioning mechanism 2 and heat exchange occurs, water vapor in the air can be condensed, and then condensed water is formed, a first water drainage waterway 22 arranged by the air conditioning mechanism 2 can be used for recycling and discharging condensed water and the like, the first water drainage waterway 22 is connected with the cleaning tank 12, when a mop of the cleaning robot needs to be cleaned, water can be supplied through the first water drainage waterway 22 so as to complete cleaning work, and after cleaning is completed, sewage after cleaning can also be recycled and discharged through the first water drainage waterway 22, so that resources are saved.

In some embodiments, as shown in fig. 2, the electrical apparatus 100 further includes a sewage module 4, the sewage module 4 is provided with a sewage inlet 41, the sewage module 4 is provided with a drain valve 42, the drain valve 42 is provided with a first valve body inlet 421 and a valve body outlet 423, the first valve body inlet 421 is connected with the first drain waterway 22, and the valve body outlet 423 is connected with the sewage inlet 41.

Specifically, the sewage module 4 may be used for storing, treating or discharging condensate water and the like produced by the air conditioning mechanism 2 and cleaning sewage discharged from the cleaning tank 12, the base station for cleaning floor is further provided with a drain valve 42, the drain valve 42 is connected with the sewage module 4, and the drain valve 42 is provided with a first valve body inlet 421 and a valve body outlet 423, the first valve body inlet 421 is connected with the first water drain waterway 22, and the valve body outlet 423 is connected with the sewage inlet 41.

Further, when the first valve body inlet 421 is opened and the valve body outlet 423 is closed, the first valve body inlet 421 is communicated with the first water drain waterway 22, i.e. the first water drain waterway 22 is communicated, condensed water and the like in the air conditioning mechanism 2 can be discharged to the cleaning tank 12 for reuse, and when the first valve body inlet 421 is closed, the valve body outlet 423 is communicated with the sewage inlet 41, i.e. the first water drain waterway 22 is communicated with the sewage module 4, condensed water and the like in the air conditioning mechanism 2 can be directly discharged to the sewage module 4, so that various treatment modes can be realized.

In some embodiments, a buffer chamber is provided in the air conditioning mechanism 2, the buffer chamber is located below a condenser of the air conditioning mechanism 2, and the first drain water path 22 extends into the air conditioning mechanism 2 and communicates with the buffer chamber.

Specifically, when the air conditioning mechanism 2 is in operation, air flows through the inside of the air conditioning mechanism 2 and heat exchange occurs, water vapor in the air can be condensed, condensate water is formed, condensate water density is high, the condensate water can drop downwards due to gravity after being condensed on the inner wall of the air conditioning mechanism 2, and a buffer chamber arranged in the air conditioning mechanism 2 is opened upwards, so that the condensate water dropping from a condenser can be collected into the buffer chamber, the buffer chamber is communicated with the first water drainage waterway 22, and the condensate water in the buffer chamber can be recycled, discharged and the like through the first water drainage waterway 22, so that resource recycling is realized, and resources are saved.

In some embodiments, the air conditioning mechanism 2 is separate from the apparatus body 1.

Specifically, the air conditioning mechanism 2 and the device body 1 are split, that is, the air conditioning mechanism 2 is movable relative to the device body 1, an installation space can be formed in the device body 1, the air conditioning mechanism 2 and the cleaning robot can be arranged in the installation space, or the cleaning robot is arranged in the installation space, the air conditioning mechanism 2 is arranged outside the device body 1, the cleaning robot is movable relative to the installation space, the air conditioning mechanism 2 is movable relative to the device body 1, the air conditioning mechanism 2 and the device body 1 can share the air outlet module 21, the air path 3 and other components, the component utilization rate is improved, and meanwhile, the position of the air conditioning mechanism 2 relative to the device body 1 is adjustable, so that the space utilization mode is flexible and changeable, and the requirements of various space placement are met.

In some embodiments, a control valve is provided in the first drain waterway 22, the control valve being configured to supply water into the sink 12 when the amount of water in the buffer chamber is greater than the set amount of water.

Specifically, the first water drainage channel 22 extends into the air conditioning mechanism 2 and is communicated with the buffer chamber, condensed water dropping from the condenser can be collected into the buffer chamber, and as the use time increases, the condensed water in the buffer chamber can increase, a control valve is arranged in the first water drainage channel 22, and the control valve is provided with an opening water value, when the water quantity in the buffer chamber is larger than the set water quantity, the control valve is opened, so that the condensed water in the buffer chamber is discharged through the first water drainage channel 22, and the automatic water drainage is realized.

In some embodiments, the air conditioning mechanism 2 is disposed above the apparatus body 1.

Specifically, as shown in fig. 1-2, an installation space is provided above the apparatus body 1 and inside the apparatus body 1, the cleaning robot is movably disposed in the installation space inside the apparatus body 1, the air conditioning mechanism 2 is disposed in the installation space above the apparatus body 1, that is, the lower end of the air conditioning mechanism 2 is fixedly connected with the upper end of the apparatus body 1, the shape of the lower end of the air conditioning mechanism 2 is matched with the shape of the upper end of the apparatus body 1, the integration degree of the air conditioning mechanism 2 and the apparatus body 1 is improved, and at the same time, the visual uniformity is formed, and the space utilization maximization can be realized.

In some embodiments, the air conditioning mechanism 2 is detachably connected to the apparatus body 1, and the area of the top mounting surface of the apparatus body 1 is adjustable.

Specifically, the air conditioning mechanism 2 is disposed above the device body 1, and is detachably connected with the device body 1, the shape of the upper top surface of the device body 1 is matched with the shape of the lower bottom surface of the air conditioning mechanism 2, and the sizes are the same, so that the consistency of the external profile of the air conditioning mechanism 2 after the air conditioning mechanism is mounted on the device body 1 is ensured, and the area of the top mounting surface of the device body 1 is set to be adjustable, namely, the area of the top mounting surface of the device body 1 can be adjusted according to the area of the lower bottom surface of the air conditioning mechanism 2, thus, the occupied indoor space can be avoided, and the external dimension of the device body 1 is adjustable, so that the air conditioning mechanism 2 with different sizes can be adapted, the mounting adaptability of the device body 1 is improved, the condition of developing different device bodies 1 for each type of the air conditioning mechanism 2 is avoided, and the development cost is saved.

In some embodiments, the device body 1 is provided with a universal socket end, the air conditioning mechanism 2 is provided with a first electrical connection end, the cleaning robot is provided with a second electrical connection end, and the universal socket end is used for being in socket fit with the first electrical connection end and/or the second electrical connection end for electrical connection, i.e. the universal socket end is used for being in socket fit with the first electrical connection end and the second electrical connection end for electrical connection, or can be in socket fit with the first electrical connection end only for electrical connection, or can be in socket fit with the second electrical connection end only for electrical connection.

Specifically, the first electric connection end that air conditioning mechanism 2 set up can peg graft the cooperation with the general grafting end that equipment body 1 set up to be connected with air conditioning mechanism 2 electricity, supply power to air conditioning mechanism 2, make air conditioning mechanism 2 normal operating, the second electric connection end that cleaning robot set up also can peg graft the cooperation with the general grafting end that equipment body 1 set up, in order to be connected with cleaning robot electricity, supply power to cleaning robot, charge etc. makes cleaning robot normally function, air conditioning mechanism 2 shares same general grafting end with cleaning robot, can improve the utilization ratio of the upper part of equipment body 1, make the equipment integrated level higher.

In some embodiments, the electrical apparatus 100 further includes a controller, which is mounted to the apparatus body 1 or the air conditioning mechanism 2, that is, the controller may be mounted to the apparatus body 1 or may be mounted to the air conditioning mechanism 2, the controller is configured to control an operation state of the air conditioning mechanism 2 and the cleaning robot, and the controller is configured to control one of the air conditioning mechanism 2 and the cleaning robot to stop operation when the controller controls the operation of the cleaning robot, that is, the controller controls the air conditioning mechanism 2 to stop operation when the controller controls the cleaning robot to stop operation, or to switch from the first operation state to the second operation state, the first operation state and the second operation state having different power consumption, and the cleaning robot is not charged when switching from the first operation state to the second operation state, and only cleans the first cleaning member and the second cleaning member, thereby ensuring that only one of the air conditioning mechanism 2 and the cleaning robot is operated, and avoiding an excessive line load.

The utility model also proposes an electrical device 100.

An electrical apparatus 100 according to an embodiment of the present utility model includes: the apparatus body 1.

The apparatus body 1 includes a housing chamber for housing the cleaning robot, wherein the apparatus body 1 is configured to be connected with the air conditioning mechanism 2.

Specifically, the cleaning robot is provided with the mop, after the cleaning robot accomplishes cleaning work, can get back to the equipment body 1 in the chamber that holds that is provided with to clean cleaning robot, avoid the mop to be unclean etc. to influence user's health, equipment body 1 is configured to be connected with air conditioning mechanism 2, and air conditioning mechanism 2 can produce cold wind, hot-blast etc. in order to adjust external environment temperature.

Further, the air conditioning mechanism 2 is connected with the equipment body 1, an installation space can be formed in the equipment body 1, the air conditioning mechanism 2 and the cleaning robot can be arranged in the installation space, or the air conditioning mechanism 2 and the cleaning robot are respectively installed in the respective installation spaces, the cleaning robot is movable relative to the installation space, the air conditioning mechanism 2 is movable relative to the installation space, and further the air conditioning mechanism 2 and the cleaning robot are arranged around the equipment body 1, so that the air conditioning mechanism 2 and the equipment body 1 can share the air outlet module 21, the air path 3 and other components are connected, and the utilization rate of the components is improved while the placing space is saved.

In other words, the electric apparatus 100 in this embodiment does not include the air conditioning mechanism 2, but the apparatus body 1 of the electric apparatus 100 may be configured to be identical to the apparatus body 1 in the foregoing embodiment, have the same arrangement characteristics as those, and may be configured to be able to be used in cooperation with the air conditioning mechanism 2 in the foregoing embodiment by providing its own configuration, such as the electric apparatus 100 being provided with the water inlet pipe, the water outlet pipe, and the like in the foregoing embodiment, and may achieve the cooperation with the air conditioning mechanism 2.

According to the electrical equipment provided by the embodiment of the utility model, the air conditioning mechanism is connected with the equipment body, so that the setting cost of a product is reduced, the space and the resources are saved, the use effect is better, and the application range is wider.

1. In the description of the present utility model, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the device or element being referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present utility model.

2. In the description of the utility model, a "first feature" or "second feature" may include one or more of such features.

3. In the description of the present utility model, "plurality" means two or more.

4. In the description of the utility model, a first feature "above" or "below" a second feature may include both the first and second features being in direct contact, and may also include the first and second features not being in direct contact but being in contact with each other by another feature therebetween.

5. In the description of the utility model, a first feature being "above," "over" and "on" a second feature includes the first feature being directly above and obliquely above the second feature, or simply indicates that the first feature is higher in level than the second feature.

In the description of the present specification, reference to the terms "one embodiment," "some embodiments," "illustrative embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the utility model. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the present utility model have been shown and described, it will be understood by those of ordinary skill in the art that: many changes, modifications, substitutions and variations may be made to the embodiments without departing from the spirit and principles of the utility model, the scope of which is defined by the claims and their equivalents.

Claims (28)

1. An electrical device, comprising:

an apparatus body including a housing chamber for housing the cleaning robot;

an air conditioning mechanism connected to the apparatus body and constructed as one body;

the equipment body is provided with a drying air channel, the drying air channel is used for drying a first cleaning piece and/or a second cleaning piece of the cleaning robot, the air conditioning mechanism is provided with an air outlet module, the air outlet module is provided with an air outlet for outputting hot air, and the air outlet is communicated with the drying air channel;

the device comprises an equipment body and an air conditioning mechanism, wherein a connecting air path is arranged between the equipment body and the air conditioning mechanism, and the connecting air path is connected between the air outlet and the drying air duct.

2. The electrical appliance according to claim 1, wherein the air conditioning mechanism comprises a compressor, a heating device and a cooling device, the compressor being connected to the heating device and the cooling device, the heating device being connected to the air outlet module and being adapted to heat the air flow within the air outlet module.

3. The electrical device of claim 2, wherein the heating device is located within the air outlet module or within the device body.

4. The electrical apparatus of claim 1, wherein the air conditioning mechanism further comprises a disinfection and purification device located within the air outlet module or the apparatus body for disinfecting and/or purifying the air flow through the disinfection and purification device.

5. The electrical equipment according to claim 4, wherein the equipment body is provided with a climbing plate, the cleaning robot is adapted to enter the accommodating chamber along the climbing plate, the equipment body is provided with a position detecting member for detecting the climbing plate, and the sterilizing and purifying device is arranged to be opened when the position detecting member detects that the climbing plate is retracted.

6. The electrical equipment according to claim 1, wherein the equipment body is provided with a cleaning tank for accommodating a first cleaning member of a cleaning robot, and the drying duct is communicated with the cleaning tank and adapted to convey hot air into the cleaning tank.

7. The electrical appliance according to claim 6, wherein the air conditioning mechanism is provided with a first drain waterway, the first drain waterway being in communication with the cleaning tank.

8. The electrical device of claim 7, further comprising a sewage module, the sewage module having a sewage inlet, the sewage module having a drain valve mounted thereon, the drain valve having a first valve body inlet and a valve body outlet, the first valve body inlet being connected to the first drain waterway, the valve body outlet being connected to the sewage inlet.

9. The electrical apparatus of claim 7, wherein a buffer chamber is disposed in the air conditioning mechanism, the buffer chamber is located below a condenser of the air conditioning mechanism, and the first drain water path extends into the air conditioning mechanism and is in communication with the buffer chamber.

10. The electrical appliance according to claim 9, wherein a control valve is provided in the first drain water path, the control valve being configured to supply water into the cleaning tank when the amount of water in the buffer chamber is greater than a set amount of water.

11. The electrical apparatus according to claim 1, wherein the air conditioning mechanism is disposed above the apparatus body.

12. The appliance apparatus of claim 11, wherein the air conditioning mechanism is removably coupled to the appliance body, and wherein the top mounting surface of the appliance body is adjustable in area.

13. The electrical equipment according to claim 1, characterized in that the equipment body is provided with a universal plug-in end, the air conditioning mechanism is provided with a first electrical connection end, the cleaning robot is provided with a second electrical connection end, and the universal plug-in end is used for being plugged and matched with the first electrical connection end and/or the second electrical connection end to carry out electrical connection.

14. The electrical apparatus according to claim 1, further comprising a controller mounted to the apparatus body or the air conditioning mechanism, the controller being configured to control an operation state of the air conditioning mechanism and the cleaning robot, the controller being configured to control one of the air conditioning mechanism and the cleaning robot to stop operation or to switch from a first operation state to a second operation state when controlling the other.

15. An electrical device, comprising:

an apparatus body including a housing chamber for housing the cleaning robot;

wherein the device body is configured to be connected with an air conditioning mechanism;

the equipment body is provided with a drying air channel, the drying air channel is used for drying a first cleaning piece and/or a second cleaning piece of the cleaning robot, the air conditioning mechanism is provided with an air outlet module, the air outlet module is provided with an air outlet for outputting hot air, and the air outlet is communicated with the drying air channel;

the device comprises an equipment body and an air conditioning mechanism, wherein a connecting air path is arranged between the equipment body and the air conditioning mechanism, and the connecting air path is connected between the air outlet and the drying air duct.

16. The electrical appliance according to claim 15, wherein the air conditioning mechanism comprises a compressor, a heating device and a cooling device, the compressor being connected to the heating device and the cooling device, the heating device being connected to the air outlet module and being configured to heat the air flow within the air outlet module.

17. The electrical device of claim 16, wherein the heating device is located within the air outlet module or within the device body.

18. An electrical apparatus according to claim 15, wherein the air conditioning mechanism further comprises a disinfection and purification device located within the air outlet module or the apparatus body for disinfecting and/or purifying the air flow through the disinfection and purification device.

19. The electrical apparatus according to claim 18, wherein the apparatus body is provided with a climbing plate, the cleaning robot is adapted to enter the accommodation chamber along the climbing plate, the apparatus body is provided with a position detecting member for detecting the climbing plate, and the disinfection and purification device is arranged to be turned on when the position detecting member detects that the climbing plate is retracted.

20. The electrical apparatus of claim 15, wherein the apparatus body is provided with a cleaning tank for accommodating a first cleaning member of a cleaning robot, and the drying duct is communicated with the cleaning tank and adapted to convey hot air toward inside of the cleaning tank.

21. The electrical appliance according to claim 20, wherein the air conditioning mechanism is provided with a first drain waterway, the first drain waterway being in communication with the cleaning tank.

22. The electrical device of claim 21, further comprising a sewage module, the sewage module having a sewage inlet, the sewage module having a drain valve mounted thereon, the drain valve having a first valve body inlet and a valve body outlet, the first valve body inlet being coupled to the first drain waterway, the valve body outlet being coupled to the sewage inlet.

23. The electrical appliance according to claim 21, wherein a buffer chamber is provided in the air conditioning mechanism, the buffer chamber is located below a condenser of the air conditioning mechanism, and the first drain water path extends into the air conditioning mechanism and communicates with the buffer chamber.

24. The electrical appliance according to claim 23, wherein a control valve is provided in the first drain water path, the control valve being configured to supply water into the cleaning tank when the amount of water in the buffer chamber is greater than a set amount of water.

25. The electrical appliance according to claim 15, wherein the air conditioning mechanism is disposed above the appliance body.

26. The appliance of claim 25, wherein the air conditioning mechanism is removably coupled to the appliance body, and wherein the top mounting surface of the appliance body is adjustable in area.

27. The electrical apparatus according to claim 15, wherein the apparatus body is provided with a universal plug end, the air conditioning mechanism is provided with a first electrical connection end, the cleaning robot is provided with a second electrical connection end, and the universal plug end is used for being plugged and matched with the first electrical connection end and/or the second electrical connection end to perform electrical connection.

28. The electrical apparatus according to claim 15, further comprising a controller mounted to the apparatus body or the air conditioning mechanism, the controller being configured to control an operation state of the air conditioning mechanism and the cleaning robot, the controller being configured to control one of the air conditioning mechanism and the cleaning robot to stop operation or to switch from a first operation state to a second operation state when controlling the other.