CN220557915U - Electrical appliance - Google Patents

Abstract

The utility model discloses an electrical apparatus, comprising: an apparatus body including a receiving chamber for receiving a cleaning robot; and the drinking water mechanism is connected with the equipment body and is integrally constructed. The electrical equipment of the embodiment of the utility model realizes the integration of the electrical equipment and the drinking water mechanism, and realizes a common pipeline in water consumption, thereby being convenient for the water consumption requirement when the cleaning robot cleans.

Description

Electrical appliance

Technical Field

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

Background

With the continuous improvement of the living standard of the user, the types of electric appliances entering the living of the user are gradually increased, when the user uses electric appliances of different types, the occupied space of each electric appliance is overlarge, the use of each electric appliance is relatively independent, and the required pipelines and corresponding parts are more, so that the whole arrangement is disordered, and the daily use is inconvenient.

If some users use cleaning robots, some cleaning robots have their own electrical equipment, wherein, the electrical equipment is fixedly installed at a certain fixed position in a room, the cleaning robots are moving parts, the cleaning robots can clean the indoor ground, and the cleaning robots can enter the electrical equipment to be used for cleaning and charging the cleaning robots, when more electrical equipment in the users are used, the sweeping base station is used together with other electrical equipment, the occupied space is large, and the electrical equipment cannot be reasonably and fully utilized in certain common functions, and the installation and the use are troublesome.

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 integrates the electrical apparatus and a drinking water mechanism, and realizes a common pipeline in terms of water consumption, thereby facilitating the water consumption requirement when the cleaning robot is cleaning.

According to an embodiment of the utility model, an electrical apparatus includes: an apparatus body including a receiving chamber for receiving a cleaning robot; and the drinking water 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 equipment body and the drinking water mechanism are better integrated together and connected, the integrity and the integration degree are high, when the cleaning robot needs to be cleaned, water is conveyed to the inside of the equipment body through the drinking water mechanism, the water is convenient, the space occupation of the electrical equipment and the drinking water mechanism is reduced, and the use cost of a user is reduced.

According to the electrical equipment provided by the embodiment of the utility model, the equipment body is provided with the cleaning tank positioned at the bottom of the accommodating chamber; the water drinking mechanism is provided with a water drinking system, the water drinking system is connected with a connecting pipeline, the connecting pipeline is communicated with the cleaning tank, and the water drinking system is suitable for supplying water to the cleaning tank through the connecting pipeline.

According to the electrical equipment provided by the embodiment of the utility model, the equipment body is provided with the water injection part, the water injection part is suitable for supplying water to the cleaning robot, the connecting pipeline is communicated with the water injection part and the cleaning tank, when the equipment body is in butt joint with the cleaning robot, the water drinking system supplies water to the water injection part and/or the cleaning tank through the connecting pipeline, and the water injection part supplies water to the cleaning robot.

According to the electrical equipment provided by the embodiment of the utility model, the drinking water system comprises a clean water tank, a hot water waterway and a cold water waterway, and the connecting pipeline is communicated with at least one of the clean water tank, the hot water waterway and the cold water waterway.

According to the electrical equipment provided by the embodiment of the utility model, the connecting pipeline comprises a first branch, a second branch and a total water outlet, the first branch is communicated with the hot water waterway, the second branch is communicated with the cold water waterway, the total water outlet is communicated with the cleaning tank, and the first branch and the second branch are both communicated with the total water outlet.

According to the electrical equipment provided by the embodiment of the utility model, the second branch is connected with the water receiving tank and/or the cold water channel of the water dispenser, a buffer tank is arranged between the water receiving tank and the cleaning tank, and the second branch is communicated to the cleaning tank through the buffer tank.

According to the electrical equipment provided by the embodiment of the utility model, the connecting pipeline is provided with the temperature regulating valve, the temperature regulating valve is arranged at the joint of the first branch, the second branch and the total water outlet path, and the temperature regulating valve is connected with the controller of the drinking water mechanism.

The electrical equipment provided by the embodiment of the utility model further comprises a timing module, wherein the first branch is provided with the electromagnetic valve, the timing module is electrically connected with the electromagnetic valve of the first branch, and the timing module controls the electromagnetic valve to be opened/closed when the set time is reached.

According to the electrical equipment provided by the embodiment of the utility model, the water drinking system comprises a water supply waterway and a clear water tank, one end of the water supply waterway is communicated with an external water source, the other end of the water supply waterway is communicated with the clear water tank, and the water supply waterway is connected with the connecting pipeline.

According to the electrical equipment provided by the embodiment of the utility model, the water supply waterway comprises a third branch, a fourth branch and a total water inlet waterway, the total water inlet waterway is communicated with the external water source, the third branch is communicated with the clear water tank, the fourth branch is communicated with the connecting pipeline, and the third branch and the fourth branch are both communicated with the total water inlet waterway.

According to the electrical equipment provided by the embodiment of the utility model, the water drinking mechanism further comprises a filter, and the filter is connected to the third branch.

According to the electrical equipment provided by the embodiment of the utility model, the water drinking mechanism is internally provided with the steam generator and the steam outlet, the steam outlet is connected with the cleaning tank through the steam pipeline, and the steam pipeline is suitable for conveying steam airflow to the cleaning tank.

The electrical equipment according to the embodiment of the utility model further comprises: and the sterilization and deodorization module is connected with the steam pipeline.

According to the electrical equipment provided by the embodiment of the utility model, the equipment body is further provided with a water drainage channel, and the water drainage channel is connected with the cleaning tank and is used for draining water in the cleaning tank.

According to the electrical equipment provided by the embodiment of the utility model, the water drinking mechanism is fixedly arranged above the equipment body.

According to the electrical equipment provided by the embodiment of the utility model, the equipment body is further provided with the dust collection air port and the dust collection cavity, the dust collection cavity is internally provided with the airflow driving piece, and when the cleaning robot is in butt joint with the electrical equipment, the dust collection air port is communicated with the dust collection cavity and the dust chamber of the cleaning robot.

According to the electrical equipment provided by the embodiment of the utility model, the equipment body is provided with the universal plug-in end, the water drinking mechanism is provided with the first electric connection end, the cleaning robot is provided with the second electric connection end, and the universal plug-in end is used for being plugged and matched with the first electric connection end or the second electric connection end to be electrically connected.

According to the electrical equipment provided by the embodiment of the utility model, the electrical equipment further comprises a controller, wherein the controller is arranged on the equipment body or the drinking water mechanism, the controller is used for controlling the running states of the drinking water mechanism and the cleaning robot, and the controller is arranged for controlling the cleaning robot to enter the second working state when the drinking water mechanism is in the first working state.

The embodiment of the utility model also discloses another electrical equipment.

According to an embodiment of the utility model, an electrical apparatus includes: the cleaning device comprises an equipment body, a cleaning device and a cleaning device, wherein the equipment body comprises a containing chamber, the containing chamber is used for containing a cleaning robot, and the equipment body is provided with a cleaning tank; wherein the device body is configured to connect with a drinking water mechanism.

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 view of the overall structure of an electrical apparatus according to an embodiment of the present utility model;

fig. 2 is a schematic view of a structure in a housing chamber of an electrical device according to an embodiment of the present utility model.

Icon: 100-electrical equipment; 1-an equipment body; 11-a receiving chamber; 111-cleaning a tank; 112-water outlet; 113-universal plug terminal; 114-infrared signal transmission window; 115-a dust collection tuyere; 116-steam delivery port; 117-climbing up a slope; 2-a drinking water mechanism; 3-cleaning robot.

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, where an apparatus body 1 of the electrical apparatus 100 and a drinking water mechanism 2 are integrally configured, so that the space occupied by the two is smaller, and sharing can be implemented in terms of a part of structure or function, thereby facilitating implementation of an integrated design, not only facilitating improvement of the integration level of indoor household appliances, reducing occupation of indoor space, but also realizing dual purposes of one object and reducing use cost.

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 a drinking water mechanism 2.

Wherein, the equipment body 1 includes holding chamber 11, holds chamber 11 and is used for holding cleaning robot 3, and drinking water mechanism 2 links to each other and constructs as an organic wholely with equipment body 1.

In practice, referring to fig. 1, the inside of the bottom of the drinking mechanism 2 is the device body 1, the accommodating chamber 11 in the device body 1 is used for accommodating the cleaning robot 3, the accommodating chamber 11 can be used for cleaning or charging the cleaning robot 3, and the device body 1 and the drinking mechanism 2 are connected and integrally constructed, and it should be noted that, the connection mode of the drinking mechanism 2 and the device body 1 in the present utility model may refer to the connection of water, electricity, gas and air paths, or the connection may be structurally performed, for example, a mounting frame is provided, the drinking mechanism 2 is suspended in the mounting frame, and the device body 1 is located at the bottom in the mounting frame, that is, the drinking mechanism 2 and the device body 1 may be directly connected or indirectly connected, in other words, the drinking mechanism 2 and the device body 1 are not necessarily fixedly connected in a direct contact manner. If the water drinking mechanism 2 is directly connected with the equipment body 1, the equipment body 1 and the water drinking mechanism 2 do not occupy the ground space respectively, so that the space cannot be reasonably used, the space can be saved, meanwhile, the water drinking mechanism 2 is close to a water source end when placed, a water supply pipeline is connected, the water drinking mechanism 2 is generally connected with the water supply pipeline from the rear of the water drinking mechanism 2, and thus the water drinking mechanism can be conveniently connected into the equipment body 1 from the rear, and the uniformity is high when the front of the water drinking mechanism 2 is seen.

The drinking water mechanism 2 generally comprises a water tap, a filter flask, a water receiver and a stainless steel hot liner, wherein the water tap can be used as a water receiving end of a user, the filter flask filters water, the water receiver can store water, and the stainless steel hot liner is used as a heating component of the drinking water machine.

When the user uses, use drinking water mechanism 2 and equipment body 1 as the overall structure of electrical equipment 100 to realize the integrated setting of two, the user not only can enter into cleaning robot 3 in the electrical equipment 100 and wash and charge, and accessible electrical equipment 100 carries out daily drinking water and uses, thereby realizes daily drinking water, cleaning robot 3 washs the dual-purpose function of a thing of charging, increases user's acceptance, promotes user experience. Therefore, the integration level of the household appliance design is improved, the whole space occupation is reduced, the household appliance is convenient for a user to realize the home arrangement of the indoor household appliance, and the cost of the electrical equipment 100 in the utility model can be smaller than the cost of two independent parts of the conventional electrical equipment 100 and the drinking water mechanism 2, thereby being beneficial to reducing the use cost of the household appliance for the user.

In some embodiments, the apparatus body 1 is provided with a washing tank 111 at the bottom of the containing chamber; the drinking water mechanism is provided with a drinking water system, the drinking water system is connected with a connecting pipeline, the connecting pipeline is communicated with the cleaning tank 111, and the drinking water system is suitable for supplying water to the cleaning tank 111 through the connecting pipeline.

In practice, the drinking water mechanism 2 and the device body 1 are connected through a connecting pipeline, the drinking water mechanism 2 is provided with a drinking water system, the connecting pipeline connected with the drinking water system can be a pipeline directly connected with a cold water channel and a hot water channel of the drinking water mechanism 2, then the drinking water system is connected with the cleaning tank 111 through the pipeline, and the drinking water mechanism can also be a pipeline with a water supply end directly connected with the cleaning tank 111, no matter which pipeline is used, the connecting pipeline is connected with the cleaning tank 111, so that the cleaning water requirement of the cleaning tank 111 can be met; meanwhile, the lower part of the drinking water mechanism 2 is provided with a door body part and a drinking water mechanism body part, the door body part is rotationally connected with the drinking water mechanism body, a placing space is arranged in the opened door body part, and the placing space is used for placing some drinking water articles; and link together equipment body 1 and drinking water mechanism 2, can link as an organic wholely through connection structure for drinking water mechanism 2 and equipment body 1 can both satisfy the condition of drinking water demand and washing demand respectively under, the trend of connecting line is more concentrated, and the regularity of pipeline is high, and the selectivity of washing tank 111 water is more.

In some embodiments, the apparatus body 1 is provided with a water injection part adapted to supply water towards the cleaning robot 3, the connecting pipeline is in communication with the water injection part and the cleaning tank 111, and the water drinking system supplies water towards the water injection part and/or the cleaning tank 111 through the connecting pipeline when the apparatus body 1 is docked with the cleaning robot 3, and the water injection part supplies water to the cleaning robot 3.

In practice, the cleaning robot 3 may be a cleaning robot 3 for mopping, when the cleaning robot 3 climbs along the climbing line 117 to the accommodating chamber 11 inside the apparatus body 1, water is supplied to the water injection part through the connecting pipeline so as to supply liquid required for cleaning to the cleaning robot 3, so that the cleaning robot 3 always maintains proper water for cleaning during cleaning, the cleaning effect of the cleaning robot 3 is improved, and water is supplied to the cleaning tank through the connecting pipeline so as to clean cleaning elements of the cleaning robot 3.

In some embodiments, the drinking water system includes a clean water tank, a hot water waterway, and a cold water waterway, the connecting tube being in communication with at least one of the clean water tank, the hot water waterway, and the cold water waterway.

In practice, the clean water tank is connected with the water supply source, water enters the cold water channel through the clean water tank, and enters the heating module through the cold water channel for heating, the heated pipeline is a hot water channel, when the connecting pipeline is communicated with the clean water tank, the clean water tank is a path of the cold water channel of the water drinking mechanism 2, that is, before the cold water channel, the water in the clean water tank can be led into the cleaning tank 111 through the connecting pipeline, and at the moment, the cleaning robot 3 in the cleaning tank 111 can be cleaned by connecting the cold water into the cleaning tank 111; when the hot water waterway is communicated with the connecting pipeline and the connecting pipeline is connected to the cleaning tank 111, hot water can be connected into the cleaning tank 111, and at the moment, the cleaning robot 3 in the cleaning tank 111 can be cleaned by adopting hot water; when the connection pipe is connected to the cold water path, the cleaning robot 3 in the cleaning tank 111 may be cleaned by transferring the cold water path inside the drinking water mechanism 2 to the connection pipe and connecting the cleaning tank 111 through the connection pipe.

In some embodiments, the connecting lines include a first branch that communicates with the hot water waterway, a second branch that communicates with the cold water waterway, and a total outlet waterway that communicates with the rinse tank 111, both the first branch and the second branch communicating with the total outlet waterway.

In practice, when cold water is needed to wash the cleaning robot 3 in the cleaning tank 111, the second branch connected with the cold water channel can be used to wash the cleaning robot 3 in the cleaning tank 111, the first branch connected with the hot water channel can also be used to wash the cleaning robot 3 in the cleaning tank 111, and the first branch and the second branch are connected and then are communicated into the cleaning tank 111 through the total water outlet channel, as shown in fig. 2, the water outlet 112 of the total water outlet channel flows into the cleaning tank 111 through the water outlet 112, at this time, a mixture of hot water and cold water can be used to wash the cleaning robot 3 in the cleaning tank 111, so that in summer, cold water can be used to wash the cleaning robot 3, mixed water or hot water can be used to wash the cleaning member (e.g. mop) of the sweeper 3 in winter, of course, a better cleaning effect can be achieved, for example, the oil stain is cleaner, and meanwhile, a sterilizing effect can be achieved.

In some embodiments, the second branch is connected to a water receiving tank and a cold water channel of the drinking water mechanism, and a buffer tank is disposed between the water receiving tank and the cleaning tank, and the second branch is communicated to the cleaning tank 111 through the buffer tank.

In practice, the water drinking mechanism generally includes a water receiving tank, the water receiving tank can be used as one of the water storages, by connecting the water receiving tank with the cleaning tank 111, water in the water receiving tank flows into the buffer tank when water exists in the water receiving tank of the water drinking machine, and the cleaning tank 111 is connected through the buffer tank, when the cleaning tank 111 needs cleaning water, water in the buffer tank can be used, so that reasonable utilization of water resources can be achieved, and more water supply channels of the cleaning robot 3 can be ensured.

In some embodiments, the connecting pipeline is provided with a temperature regulating valve, the temperature regulating valve is arranged at the joint of the first branch, the second branch and the total water outlet, and the temperature regulating valve is connected with the controller of the drinking water mechanism 2.

In practice, the junction of first branch road, second branch road and total water way is equipped with the temperature regulating valve, the temperature regulating valve is the three way valve, be connected with first branch road and second branch road through the temperature regulating valve selectivity, one valve body export and two valve body imports of temperature regulating valve communicate promptly, or one valve body export and two valve body imports all communicate, the proportion that cold water and hot water got into total play water way is used for controlling to the temperature of total water way is adjusted to the temperature regulating valve, and be connected the temperature regulating valve with the controller of drinking water mechanism 2, then the controller can control the temperature regulating valve according to the water temperature condition, thereby the flow of the hot water of control first branch road and the cold water of second branch road, and then the temperature through total water way is controlled, through controller and temperature regulating valve electrical connection, can accurate quick and convenient control total water temperature, can make the hot water temperature of drinking water mechanism 2 adjustable like this, can adapt to cleaning robot 3 and wash the optimizing temperature of rag.

In some embodiments, the device further comprises a timing module, wherein the first branch is provided with a solenoid valve, the timing module is electrically connected with the solenoid valve of the first branch, and the timing module controls the solenoid valve to be opened/closed when the set time is reached.

The timing module generally comprises a timer, a counter, a processor and the like, the timer prescribes a time range, the counter is used as time for counting, the processor receives a time signal and processes a signal for controlling the electromagnetic valve correspondingly, the first branch is connected with a hot water pipeline, the timing module can be arranged in a controller of the water drinking mechanism, the electromagnetic valve on the first branch is determined according to the set time of the timing module to have an opening condition, if the hot water pipeline is not used all the time in a certain time, namely, the timing module sends an instruction to the control module, the electromagnetic valve of the first branch can be opened, so that hot water flows to the water cleaning tank 111 through the first branch, the hot water of the water drinking mechanism can be ensured to be eluted for cleaning robot 3 under the state of long-time non-use, and cleaning of the cleaning robot 3 is ensured to be cleaner or oil stains which are difficult to clean can be better cleaned.

In some embodiments, the drinking water system includes a water supply waterway and a clear water tank, one end of the water supply waterway is communicated with an external water source and the other end is communicated with the clear water tank, and the water supply waterway is connected with the connecting pipeline.

Specifically, the water supply waterway may be directly communicated with the clean water tank for supplying water to the inside of the drinking water mechanism 2, and the water supply waterway may be further communicated with the cleaning tank 111, and water at the water source may be directly supplied to the cleaning tank 111 through the water supply waterway. When the water supply waterway is connected with the connecting pipeline, the water supply waterway can be connected with the cold water waterway through the second branch of the connecting pipeline, at the moment, the water supply waterway and the cold water waterway can supply water to the cleaning tank 111 together, meanwhile, the water supply waterway can also supply water to a user of the water drinking mechanism 2 together with the cold water waterway, and meanwhile, the water supply waterway also keeps entering the clean water tank, so that the water in the clean water tank enters the cold water waterway to supply water to the user of the water drinking mechanism 2; the water supply options for the user are more convenient.

Of course, water supply water route still can be connected with the fresh water tank one end, and the fresh water tank is connected the water source simultaneously, and the other end of water supply water route is connected with the total water outlet path of connecting line, like this, the water temperature that the total water outlet path comes out can be adjusted and set up, in addition the water of water supply water route, can supply water in the washing tank 111 together, increased the route to washing tank 111 water supply, the water supply mode of above-mentioned washing tank 111 can be with equipment body 1 and drinking water mechanism 2's water route reasonable link together, and can use drinking water mechanism 2's hot water, convenient to use.

In some embodiments, the water supply waterway includes a third leg, a fourth leg, and a total water intake waterway, the total water intake waterway is in communication with an external water source, the third leg is in communication with the clean water tank, the fourth leg is in communication with the connecting tube, and both the third leg and the fourth leg are in communication with the total water intake waterway.

In actual design, one end of the total water inlet channel is connected with a water source, the other end of the total water inlet channel is bifurcated before entering the clean water tank to form two paths, one path is a third path and is connected with the clean water tank, the other path is a fourth path and is communicated with a connecting pipeline, at the moment, the fourth path can be connected with a total water outlet channel of the connecting pipeline, and when one end of water supply flows into the clean water tank, the other end of the water supply flows into the cleaning tank 111 through the total water outlet channel. Of course, the fourth branch can also be connected with the second branch of the connecting pipeline, so that the fourth branch can flow to the cleaning tank 111 together with the cold water path connected with the second branch as a water supply end, cold water cleaning is realized, the cold water path connected with the second branch can also supply water to the user of the water drinking mechanism 2, the total water inlet path is divided into a form of the third branch and the fourth branch, water supply to the water drinking mechanism 2 and the cleaning tank 111 can be better realized respectively, or water supply of the water drinking mechanism 2 and the cleaning tank 111 is combined, water supply to different modes of the water drinking mechanism 2 is satisfied, water supply to different modes of the cleaning tank 111 is also satisfied, and effective combination of the water drinking mechanism 2 and the cleaning tank 111 can be realized.

In some embodiments, the drinking mechanism 2 further comprises a filter, which is connected to the third branch. Specifically, the filter can be arranged in the third branch, cold water is generally used through the third branch when the filter is used, and the filter can filter all water sources when water is initially supplied, so that the safety of water used by a user of the water drinking mechanism 2 is guaranteed, the probability of pipeline blockage can be reduced, the water subsequently supplied to the cleaning robot 3 is filtered, the failure risk of components such as pumps, valves and the like in the cleaning robot 3 is reduced, and meanwhile, the filter is arranged in the third branch, so that the waste of filter elements can be avoided.

In some embodiments, the drinking water mechanism 2 is provided with a steam generator and a steam outlet, wherein the steam outlet is connected with the cleaning tank 111 through a steam pipeline, and the steam pipeline is suitable for conveying steam airflow to the cleaning tank 111.

Firstly, the water drinking mechanism 2 is provided with a heating module, after water enters the cold water pipeline through the clean water tank and then enters the heating module, on one hand, the water supply is connected with a hot water waterway through one outlet end of the heating module, in addition, steam can be generated in the heating process, a steam port is formed in the heating module, the steam port can be directly communicated with the inside of the cleaning tank 111 through a steam pipeline, wherein the steam pipeline is different from the connecting pipeline and can be an independent pipeline or one of the connecting pipelines.

When carrying out the mop stoving, utilize the high temperature steam in the drinking water mechanism 2 well, in other words, can realize the stoving effect to the mop without setting up solitary high temperature steam module on equipment body 1, reduce high temperature steam module's setting cost, realize inner structure's multiple utilization, promote user's use convenience.

In an actual design, the steam pipeline may be configured as a flexible pipe, so that when the steam pipeline is disposed in the electrical apparatus 100, the arrangement inside the electrical apparatus 100 is adapted to the flexible deformation of the steam pipeline, which is beneficial to improving the installation efficiency.

In some embodiments, further comprising: and the sterilization and deodorization module is connected with the steam pipeline. In practice, a sterilization and deodorization module can be arranged on the steam pipeline, the sterilization and deodorization module can be a containing cavity or a pipeline, and can be used for containing a certain amount of sterilization liquid, and the sterilization and deodorization module is in a closed state under normal conditions and can be opened and used for containing the sterilization liquid when the sterilization liquid is needed to be placed; and during operation, after the steam of the sterilizing and deodorizing module and the steam pipeline are mixed, the cleaning cloth of the cleaning robot 3 can be effectively sterilized and deodorized.

In some embodiments, the apparatus body 1 is further provided with a water drain path connected to the cleaning tank 111 and used for draining water in the cleaning tank 111.

Wherein, the drainage pipeline of equipment body 1 is located the rear of equipment body 1, and the rear is just for holding the rear of cavity 11 open-ended, and be equipped with the control valve on the drainage water route, open control drainage pipeline's opening through the control valve, and can be with drainage pipeline and sewer intercommunication, of course, if under the condition that does not have the condition intercommunication, also can artificial adoption collection device collect, cleaning robot 3 enters into after holding cavity 11, the mop is located the washing tank 111, at this moment, can supply water in the washing tank 111 to wash the mop, and after wasing the mop, can open the control valve on the drainage water route, so that the water in the washing tank 111 is discharged.

In some embodiments, the drinking mechanism 2 is fixedly mounted above the apparatus body 1. That is, the height of the water drinking mechanism 2 is larger than the height of the device body 1, so that the position of the device body 1 can be kept at a lower height, the cleaning robot 3 can enter the device body 1, and a climbing slope 117 with a smaller gradient is arranged at the front side of the direction in which the cleaning robot 3 enters, so that the cleaning robot 3 automatically enters the device body 1 from the climbing slope 117 after cleaning is finished, and meanwhile, the cleaning robot 3 can smoothly exit from the device body 1. Meanwhile, the user water receiving end of the water drinking mechanism 2 is relatively high, and the user water receiving end can be set to be close to the hand of the user, so that water receiving operation of the user when drinking water is needed is facilitated.

And, in actual design, the external dimension of the drinking water mechanism 2 can be set to be matched with the external dimension of the device body 1, for example, the front-back width and the left-right width of the drinking water mechanism 2 are set to be the same as the front-back width and the left-right width of the device body 1, so that the drinking water mechanism 2 is more integrated after being arranged above the device body 1.

Further, the connecting pipeline can also be communicated with the clean water tank, the hot water channel and the cold water channel, so that when the cleaning tank 111 needs water to clean the cleaning robot 3, any pipeline connected to the cleaning tank 111 can be selectively used according to specific situations so as to meet the water requirement of the cleaning tank 111; of course, when connecting pipeline and clean water tank, hot water route and cold water route all communicate, all set up the control valve on connecting pipeline connection clean water tank's pipeline, connecting pipeline connection hot water route's pipeline, connecting pipeline connection cold water route for select the route of needs according to the specific case.

In some embodiments, the apparatus body 1 is further provided with a dust collection port 115 and a dust collection chamber, in which an air flow driving member is provided, the dust collection port 115 communicates the dust collection chamber with the accommodating chamber 11, and the dust collection port communicates the dust collection chamber with a dust chamber of the cleaning robot when the cleaning robot 3 is docked with the electrical apparatus.

Wherein, the bottom of the equipment body 1 is provided with a containing chamber 11, the cleaning tank 111 is located in the containing chamber 11, the cleaning tank 111 can be used for cleaning the cleaning robot 3, for example, the cleaning tank 111 is located at the bottom of the containing chamber 11, and the cleaning tank 111 is arranged to be opened upwards in the containing chamber 11. In this way, after the cleaning robot 3 has entered the receiving chamber 11, the mop at the bottom of the cleaning robot 3 can be extended into the washing tub 111, so that the cleaning of the mop can be achieved. And, after the cleaning robot 3 enters into the accommodating chamber 11, the cleaning robot 3 may be electrically connected with the apparatus body 1 so that the apparatus body 1 supplies power toward the cleaning robot 3. Thus, when the cleaning robot 3 is used, the cleaning robot 3 comes out of the accommodating chamber 11 and enters the indoor space to clean the floor, and when the cleaning robot 3 cleans or the electric quantity is insufficient, the cleaning robot 3 can enter the accommodating chamber 11 to clean and supplement the electric quantity.

Referring to fig. 2, the rear side of the accommodating chamber 11 is provided with a dust collecting chamber which is also a part of the apparatus body 1, the dust collecting air port 115 is provided at a side of the dust collecting chamber near the accommodating chamber 11 side, and the apparatus body 1 is provided with two dust collecting air ports 115, the two dust collecting air ports 115 are respectively near positions of both sides of the apparatus body 1, so that when dust is present in the accommodating chamber 11 of the apparatus body 1, the dust is blown into the dust collecting chamber through the two dust collecting air ports 115 by an air flow driving member in the dust collecting chamber, the two dust collecting air ports 115 are provided, so that the dust can be collected more rapidly, and the air flow driving member in the dust collecting chamber can be a fan, a fan or the like, so that the accommodating chamber 11 has less dust as much as possible, and the rear side of the dust collecting chamber can be provided with an opening, after the dust is collected to a certain extent, the dust can be cleaned by the opening, the dust collecting chamber is communicated with the dust chamber of the cleaning robot 3, and the dust can also be collected inside the cleaning robot, and the dust can be collected in the dust collecting chamber, so that the dust is convenient for the centralized treatment of the dust.

In some embodiments, the device body 1 is provided with a universal plug end 113, the drinking water mechanism 2 is provided with a first electrical connection end, the cleaning robot 3 is provided with a second electrical connection end, and the universal plug end 113 is used for plug-in matching with the first electrical connection end or the second electrical connection end for electrical connection.

Therefore, when the water drinking mechanism 2 is used, the first electric connection end and the universal plug end 113 can be in plug fit, so that the electric connection between the water drinking mechanism 2 and the equipment body 1 is realized, or when the cleaning robot 3 is charged, the second electric connection end and the universal plug end 113 can be in plug fit, so that the electric connection between the cleaning robot 3 and the equipment body 1 is realized.

Wherein, set up the electrical connection end of equipment body 1 and cleaning robot 3, drinking water mechanism 2 to the sharing port, need not set up solitary grafting port respectively to two electrical connection ends, reduced the setting quantity of grafting port, reduced the setting cost, the utilization ratio that the promotion structure set up, the integrated level of improvement equipment.

In addition, be close to general grafting end 113 department and be equipped with infrared signal perspective window 114 on the medial surface of equipment body 1, cleaning robot 3 can constantly outwards send the infrared signal when recharging infrared signal perspective window 114, and cleaning robot 3 the place ahead then is equipped with the receiver of receiving the infrared signal for detect the strong degree that the charging seat sent the infrared signal, thereby adjust cleaning robot 3 self gesture and position guide cleaning robot 3 walk in towards equipment body 1 through certain algorithm, and then in order to realize accurate butt joint.

In some embodiments, the electrical apparatus further comprises a controller mounted to the apparatus body 1 or the drinking water mechanism 2, the controller being configured to control the operation states of the drinking water mechanism 2 and the cleaning robot 3, the controller being configured to control the cleaning robot 3 to enter the second operation state when the drinking water mechanism 2 is in the first operation state.

Wherein the controller is used for controlling the running states of the water drinking mechanism 2 and the cleaning robot 3, and the controller is arranged to control the other to enter the second working state when controlling the first working state in the water drinking mechanism 2 and the cleaning robot 3, namely, when the controller controls a user of the water drinking mechanism 2 to receive boiled water, the controller controls the cleaning robot 3 to stop cleaning the mop, and the mop cleaning process is vibration prevention to influence the user receiving the water.

The embodiment of the utility model also discloses another electrical equipment, which comprises an equipment body 1, wherein the equipment body 1 comprises a containing chamber 11, the containing chamber 11 is used for containing the cleaning robot 3, and the equipment body 1 is provided with a cleaning tank 111; wherein the device body 1 is configured to be connected with a drinking water mechanism 2.

In other words, the electrical apparatus 100 in this embodiment does not include the drinking water mechanism 2, but the apparatus body 1 of the electrical apparatus 100 may be configured to be identical to the apparatus body 1 in the foregoing embodiment, have the same arrangement features as those, and may be configured to be able to be used with the same drinking water mechanism 2 in the foregoing embodiment by providing its own configuration, such as the electrical apparatus 100 being provided with the water inlet pipe, the water outlet pipe, and the like in the foregoing embodiment, so that the function of cooperation with the drinking water mechanism 2 can be achieved.

By improving the structure of the electrical equipment 100 to be connected with the drinking water mechanism 2, for example, a cleaning tank 111 is arranged at the bottom of a containing cavity 11 in the electrical equipment 100, the electrical equipment 100 and the drinking water mechanism 2 are connected through a connecting pipeline, the connecting pipeline comprises a first branch, a second branch and a total water outlet, the first branch is communicated with a hot water waterway of the drinking water mechanism, the second branch is communicated with a cold water waterway of the drinking water mechanism, the total water outlet is communicated with the cleaning tank 111 of the electrical equipment 100, the first branch and the second branch are both communicated with the total water outlet, the total water outlet can be arranged on the inner wall of the electrical equipment 100, one end of the total water outlet is communicated with the cleaning tank 111, and one end of the total water outlet is communicated with the first branch and the second branch; in addition, the electrical apparatus 100 may further be provided with a steam pipeline outlet, which is connected with the steam pipeline of the drinking water mechanism 2 through the steam pipeline outlet, and the steam pipeline outlet is communicated into the cleaning tank 111, so that the steam pipeline can sterilize the cleaning robot 3 in the cleaning tank 111.

When the electrical equipment 100 provided by the embodiment of the utility model is used, a water source of the drinking water mechanism can be used, so that the cleaning robot 3 can be conveniently cleaned by the cleaning tank 111 in the electrical equipment 100, and the water resource of the drinking water mechanism can be reasonably utilized.

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.

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

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

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.

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 (35)

1. An electrical device, comprising:

an apparatus body including a receiving chamber for receiving a cleaning robot;

the drinking water mechanism is connected with the equipment body and is integrally constructed;

the equipment body is provided with a cleaning tank positioned at the bottom of the accommodating chamber;

the water drinking mechanism is provided with a water drinking system, the water drinking system is connected with a connecting pipeline, the connecting pipeline is communicated with the cleaning tank, and the water drinking system is suitable for supplying water to the cleaning tank through the connecting pipeline.

2. The electrical equipment according to claim 1, characterized in that the equipment body is provided with a water injection part, the water injection part is suitable for supplying water towards the cleaning robot, the connecting pipeline is communicated with the water injection part and the cleaning tank, when the equipment body is docked with the cleaning robot, the water drinking system supplies water towards the water injection part and/or the cleaning tank through the connecting pipeline, and the water injection part supplies water to the cleaning robot.

3. The electrical appliance according to claim 1, wherein the drinking water system includes a clean water tank, a hot water waterway, and a cold water waterway, and the connecting tube communicates with at least one of the clean water tank, the hot water waterway, and the cold water waterway.

4. The appliance of claim 3, wherein the connecting line includes a first branch, a second branch, and a total outlet, the first branch being in communication with the hot water waterway, the second branch being in communication with the cold water waterway, the total outlet being in communication with the rinse tank, the first branch and the second branch both being in communication with the total outlet.

5. The electrical equipment according to claim 4, wherein the second branch is connected to a water receiving tank and/or a cold water channel of the drinking water mechanism, a buffer tank is arranged between the water receiving tank and the cleaning tank, and the second branch is communicated to the cleaning tank through the buffer tank.

6. The electrical equipment according to claim 4, wherein the connecting pipeline is provided with a temperature regulating valve, the temperature regulating valve is arranged at the joint of the first branch, the second branch and the total water outlet path, and the temperature regulating valve is connected with a controller of the drinking water mechanism.

7. The electrical device of claim 6, further comprising a timing module, wherein the first leg is provided with a solenoid valve, the timing module is electrically connected to the solenoid valve of the first leg, and the timing module controls the solenoid valve to open/close when a set time is reached.

8. The electrical appliance according to claim 1, wherein the drinking water system comprises a water supply waterway and a clear water tank, one end of the water supply waterway is communicated with an external water source and the other end is communicated with the clear water tank, and the water supply waterway is connected with the connecting pipeline.

9. The electrical device of claim 8, wherein the water supply waterway comprises a third leg, a fourth leg, and a total water intake waterway, the total water intake waterway being in communication with the external water source, the third leg being in communication with the clean water tank, the fourth leg being in communication with the connecting tube, the third leg and the fourth leg both being in communication with the total water intake waterway.

10. The electrical device of claim 9, wherein the water dispenser further comprises a filter, the filter being connected to the third branch.

11. The electrical appliance according to claim 1, wherein a steam generator and a steam outlet are provided in the water dispenser, the steam outlet being connected to the cleaning tank by a steam line, the steam line being adapted to deliver a steam flow to the cleaning tank.

12. The electrical device of claim 11, further comprising: and the sterilization and deodorization module is connected with the steam pipeline.

13. The electrical equipment according to claim 1, wherein the equipment body is further provided with a water drain path connected to the cleaning tank for draining water in the cleaning tank.

14. The electrical device of claim 1, wherein the drinking mechanism is disposed above the device body.

15. The electrical equipment according to claim 1, wherein the equipment body is further provided with a dust collection air port and a dust collection cavity, an air flow driving piece is arranged in the dust collection cavity, and when the cleaning robot is in butt joint with the electrical equipment, the dust collection air port is communicated with the dust collection cavity and a dust chamber of the cleaning robot.

16. The electrical equipment according to claim 1, wherein the equipment body is provided with a universal plug end, the water drinking mechanism is provided with a first electric connection end, the cleaning robot is provided with a second electric connection end, and the universal plug end is used for being plugged and matched with the first electric connection end or the second electric connection end to be electrically connected.

17. The electrical apparatus according to claim 1, further comprising a controller mounted to the apparatus body or the drinking water mechanism, the controller being configured to control the operation states of the drinking water mechanism and the cleaning robot, the controller being configured to control the cleaning robot to enter a second operation state when the drinking water mechanism is in the first operation state.

18. An electrical device, comprising:

the cleaning device comprises an equipment body, a cleaning device and a cleaning device, wherein the equipment body comprises a containing chamber, the containing chamber is used for containing a cleaning robot, and the equipment body is provided with a cleaning tank;

wherein the device body is configured to connect with a drinking water mechanism.

19. The electrical apparatus of claim 18, wherein the apparatus body is provided with a cleaning tank at the bottom of the accommodating chamber;

the water drinking mechanism is provided with a water drinking system, the water drinking system is connected with a connecting pipeline, the connecting pipeline is communicated with the cleaning tank, and the water drinking system is suitable for supplying water to the cleaning tank through the connecting pipeline.

20. The electrical apparatus according to claim 19, wherein the apparatus body is provided with a water injection part adapted to supply water towards the cleaning robot, the connection pipe communicates with the water injection part and the cleaning tank, and the water drinking system supplies water towards the water injection part and/or the cleaning tank and the water injection part supplies water to the cleaning robot through the connection pipe when the apparatus body and the cleaning robot are docked.

21. The electrical appliance according to claim 19, wherein the water drinking system includes a clean water tank, a hot water waterway, and a cold water waterway, and the connecting tube communicates with at least one of the clean water tank, the hot water waterway, and the cold water waterway.

22. The electrical appliance according to claim 21, wherein the connecting line includes a first branch, a second branch, and a total outlet, the first branch being in communication with the hot water waterway, the second branch being in communication with the cold water waterway, the total outlet being in communication with the rinse tank, the first branch and the second branch both being in communication with the total outlet.

23. The electrical equipment according to claim 22, wherein the second branch is connected to a water receiving tank and/or a cold water path of the drinking water mechanism, a buffer tank is provided between the water receiving tank and the cleaning tank, and the second branch is communicated to the cleaning tank through the buffer tank.

24. The electrical apparatus of claim 22, wherein the connecting line is provided with a temperature regulating valve, the temperature regulating valve is disposed at a junction of the first branch, the second branch and the main water outlet path, and the temperature regulating valve is connected to a controller of a drinking water mechanism.

25. The electrical device of claim 22, further comprising a timing module having a solenoid valve disposed on the first leg, the timing module being electrically connected to the solenoid valve of the first leg, the timing module controlling the solenoid valve to open/close when a set time is reached.

26. The electrical appliance according to claim 19, wherein the water supply system comprises a water supply waterway and a clear water tank, one end of the water supply waterway being in communication with an external water source and the other end being in communication with the clear water tank, the water supply waterway being connected to the connecting line.

27. The electrical device of claim 26, wherein the water supply waterway includes a third leg, a fourth leg, and a total water intake waterway, the total water intake waterway being in communication with the external water source, the third leg being in communication with the clean water tank, the fourth leg being in communication with the connecting tube, the third leg and the fourth leg each being in communication with the total water intake waterway.

28. The electrical device of claim 27, wherein the water dispenser further comprises a filter, the filter being connected to the third leg.

29. The electrical appliance according to claim 19, wherein a steam generator and a steam outlet are provided in the water dispenser, the steam outlet being connected to the cleaning tank by a steam line, the steam line being adapted to deliver a steam flow to the cleaning tank.

30. The electrical device of claim 29, further comprising: and the sterilization and deodorization module is connected with the steam pipeline.

31. The electrical appliance according to claim 19, wherein the appliance body is further provided with a water drain path connected to the cleaning tank for draining water in the cleaning tank.

32. The electrical device of claim 18, wherein the drinking mechanism is disposed above the device body.

33. The electrical apparatus of claim 18, wherein the apparatus body is further provided with a dust collection port and a dust collection chamber, wherein the dust collection chamber is provided with an air flow driving member therein, and wherein the dust collection port communicates with the dust collection chamber of the cleaning robot when the cleaning robot is docked with the electrical apparatus.

34. The electrical device of claim 18, wherein the device body is provided with a universal plug end, the water dispenser 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 configured to be plugged and mated with the first electrical connection end or the second electrical connection end to perform electrical connection.

35. The electrical appliance apparatus of claim 18, further comprising a controller mounted to the appliance body or the drinking water mechanism, the controller for controlling the operation states of the drinking water mechanism and the cleaning robot, the controller being configured to control the cleaning robot to enter a second operation state when the drinking water mechanism is in a first operation state.