CN115153299B - But recycle's non-contact water intaking device - Google Patents

Abstract

The invention discloses a recyclable non-contact water taking device, which relates to the technical field of water dispensers and comprises a water dispenser body, wherein a water receiving disc is arranged and connected at the bottom of the side end of the water dispenser body, a water storage tank is arranged at the upper end of the water receiving disc, a filter frame is embedded and installed, a sensor group is installed at the side end of the water receiving disc and penetrates into the water storage tank, a water pumping pipe is also connected at the side end of the sensor group in a penetrating way, and the water pumping pipe is connected with a recycling device; according to the invention, through the recycling device, the control seat detects water liquid in the water receiving tray through the sensor group, and controls the micro water pump to recycle the water liquid in the water receiving tray into the collecting barrel, meanwhile, night tea water can be poured into the collecting barrel to be collected manually, finally, the driving motor is controlled to break tea leaves at regular time, tea residues and the water liquid are mixed through the micro sewage pump to be discharged out for watering flowers, so that water resources are fully recycled, plant growth is promoted, and the sustainable development idea is greatly improved.

Description

But recycle's non-contact water intaking device

Technical Field

The invention relates to the technical field of water dispensers, in particular to a recyclable non-contact water taking device.

Background

The water dispenser is a device for heating or cooling barreled purified water (or mineral water) and bringing convenience to people for drinking. And the barreled water is placed above the machine and is matched with the barreled water for use. The water dispenser is divided into a warm type, an ice type and an ice type, and the ice type and the heat type are divided into a semiconductor refrigerating water dispenser and a compressor type refrigerating water dispenser.

The existing drinking machine used by people is pressed on a tap by hands, and water flows into a container. The contact propagation is easy to cause, meanwhile, when the water dispenser is used, water in the water dispenser is required to be put into a cup or a container by two hands, when hands are dirty, the tap is pressed, so that pollution of drinking water is easy to cause, and germs are brought into the water in the container; and when receiving water, need pour the tea water night, partial water liquid can fall into the water collector of bottom and store, dismantles after the water collector is full, and the same falls inside water liquid, causes the waste of water resource, is unfavorable for resource sustainable development.

Therefore, a recyclable non-contact water intake device is required.

Disclosure of Invention

The invention provides a recyclable non-contact water taking device, which solves the technical problems.

In order to solve the technical problems, the recyclable non-contact water taking device comprises a water dispenser body, wherein a slot is formed in the rear side of the upper end of the water dispenser body, a drawing water tank is inserted into the slot, a non-contact water receiving system is arranged in the water dispenser body, a water receiving disc is installed and connected at the bottom of the side end of the water dispenser body, a water storage tank is arranged at the upper end of the water receiving disc, a filter frame is embedded and installed, a sensor group is installed at the side end of the water receiving disc and penetrates into the water storage tank, a water pumping pipe is further connected through the side end of the sensor group, the water pumping pipe is connected with a recycling device, the recycling device is fixedly installed on the water dispenser body and comprises a collecting barrel, a control seat and a water pump box, one side end of the water pump box is connected with the collecting barrel, the other side end of the water pump box is connected with the water receiving disc, and the upper end of the water pump box is provided with the control seat and is electrically connected with an external power supply of the water dispenser body.

Further, the non-contact water receiving system comprises a signal processing control center, an electromagnetic valve, a water outlet head and a photoelectric sensor are arranged in the water dispenser body, a pressure sensor is arranged on a water receiving tray below the water outlet head, the signal processing control center is electrically connected with the electromagnetic valve, the output end of the signal processing control center is connected with the electromagnetic valve, the electromagnetic valve is connected with the water outlet head through a pipeline, the output end of the photoelectric sensor is connected with the input end of the signal processing control center, and the pressure sensor is connected with the signal processing control center.

Further, a control panel is installed on the upper side of the water dispenser body, a first switch is installed between the signal processing control center and the pressure sensor, a second switch is installed between the signal processing control center and the photoelectric sensor, and the control panel is electrically connected with the first switch and the second switch respectively.

Further, the feed inlet is run through with inside to be seted up to collecting vessel upper end one side, and two water level sensor are installed respectively with interior lower part in the collecting vessel to run through inside, collecting vessel side still runs through and installs inlet tube and outlet pipe, two driving motor are installed to the inner bottom of the collecting vessel part division, and two driving motor pivots run through inside the collecting vessel, and install two rotary blades.

Further, the filter mantle is installed on the outer side of the water outlet pipe and positioned on the inner side wall of the collecting barrel, and a plurality of small filter holes are formed in the surface of the filter mantle in a penetrating manner.

Further, the protective housing is installed to the pump case side and is connected with the water collector, and the reposition of redundant personnel mechanism is still installed to the pump case outer end, the inside miniature water pump and the miniature sewage pump of being provided with of pump case, miniature water pump water inlet coupling hose to run through protective housing and drinking-water pipe link up, and miniature water pump delivery port coupling hose, and link up with the inlet tube and be connected, miniature sewage pump water inlet coupling hose, and link up with the outlet pipe and be connected, and miniature sewage pump delivery port coupling hose, and link up with reposition of redundant personnel mechanism.

Further, the flow dividing mechanism comprises a flow dividing box, the flow dividing box is arranged on the water pump box and is connected with a hose of a water outlet of the miniature sewage pump, a plurality of discharge pipes are connected to the outer end of the flow dividing box in a penetrating manner, and control valves are arranged on the discharge pipes.

Further, the plurality of control valves are respectively connected with the hoses and pulled into the plurality of flowerpots.

Further, the control seat comprises a key setting module, a timing module, a display module and a processing circuit board module, wherein the processing circuit board module is electrically connected with the key setting module, the timing module and the display module respectively, and is also electrically connected with the sensor group, the first water level sensor and the two driving motors.

Further, the sensor group comprises two water level sensors II which are respectively arranged on the upper side wall and the lower side wall of the inner part of the water receiving disc.

Compared with the related art, the recyclable non-contact water taking device provided by the invention has the following beneficial effects:

according to the invention, when the water receiving disc is internally provided with the sensor group, when the water level reaches the two positions of the upper water level sensor, the processing circuit board module controls the micro water pump to work, water liquid in the water receiving disc is extracted, the water liquid flows out from the water pumping pipe and is input into the collecting barrel for storage, and when the water level is lower than the two positions of the lower water level sensor, the processing circuit board module controls the micro water pump to stop working.

According to the invention, a user can pour tea water in the night into the collecting barrel from the feed inlet to collect, when the time set by the timing module is reached, the two driving motors are synchronously controlled to drive the two rotating blades to rotate at high speed, tea leaves in water liquid are crushed, the miniature sewage pump is controlled to work, the tea water mixture in the collecting barrel is pumped and flows into the diversion mechanism, the diversion mechanism is used for diversion, the tea water mixture is discharged into each flowerpot, and healthy growth of plants is promoted.

According to the invention, when the water level in the collecting barrel rises to the upper water level sensor, the upper water level sensor sends a signal to the processing circuit board module, the processing circuit board module controls the two driving motors to stir, the miniature sewage pump is used for watering flowers, water is prevented from overflowing, and when the water level in the collecting barrel falls to the lower water level sensor, the processing circuit board module can close the timing function of the timing module, and the control device stops working and needs to be restarted manually, so that the safety is improved.

The invention adopts two induction water-yielding modes of pressure induction and photoelectric induction, and does not need to press any button when water is received, thereby avoiding contacting bacteria, being simple and convenient to operate and being beneficial to personal protection

In summary, according to the recycling device, the control seat detects the water liquid in the water receiving disc through the sensor group, controls the micro water pump to recycle the water liquid in the water receiving disc into the collecting barrel, meanwhile, manually pours night tea water into the collecting barrel to collect the water, finally, controls the driving motor to break tea leaves at regular time, mixes tea residues with the water liquid through the micro sewage pump to discharge the water liquid for watering flowers, fully recycles water resources, promotes plant growth, and greatly improves the sustainable development idea.

Drawings

FIG. 1 is a schematic view of the overall installation of the present invention;

FIG. 2 is a schematic view of a non-contact water receiving system according to the present invention;

FIG. 3 is a schematic view of a recycling apparatus according to the present invention;

FIG. 4 is a schematic view of a drip tray of the present invention;

FIG. 5 is a schematic side cross-sectional view of a drip tray of the present invention;

FIG. 6 is a schematic view of a collector barrel of the present invention;

FIG. 7 is a schematic front cross-sectional view of a collector of the present invention;

FIG. 8 is a schematic diagram of the connection of the control seat to the water pump box according to the present invention;

fig. 9 is an enlarged schematic view of the invention at a.

Reference numerals in the drawings: 1. a drinking water body; 2. drawing the water tank; 3. a non-contact water receiving system; 31. a pressure sensor; 32. an electromagnetic valve; 33. a signal processing control center; 34. a second switch; 35. a first switch; 36. a control panel; 37. a water outlet head; 38. a photoelectric sensor; 4. a water receiving tray; 41. a water pumping pipe; 42. a filter frame; 43. a sensor group; 5. a recycling device; 51. a collecting barrel; 511. a feed port; 512. a first water level sensor; 513. a water inlet pipe; 514. a water outlet pipe; 5141. a filter cover; 515. a driving motor; 516. a rotary blade; 52. a control base; 53. a water pump box; 531. a protective housing; 532. a shunt mechanism; 5321. a discharge pipe; 5322. a control valve; 5323. a shunt box.

Detailed Description

An embodiment I is given by fig. 1 and fig. 3-5, a recyclable non-contact water intake device, including a water dispenser body 1, a slot is provided at the rear side of the upper end of the water dispenser body 1, and a drawing water tank 2 is inserted into the slot, a non-contact water receiving system 3 is provided inside the water dispenser body 1, a water receiving tray 4 is installed and connected at the bottom of the side end of the water dispenser body 1, a water storage tank is provided at the upper end of the water receiving tray 4, a filter frame 42 is installed in a mosaic manner, a sensor group 43 is installed at the side end of the water receiving tray 4, the sensor group 43 penetrates into the water storage tank, a water pumping pipe 41 is also connected at the side end of the sensor group 43 in a penetration manner, the water pumping pipe 41 is connected with a recycling device 5 in a pipeline manner, the recycling device 5 is fixedly installed on the water dispenser body 1, and includes a collecting barrel 51, a control seat 52 and a water pump 53, the pipeline at the side end of the water pump 53 is connected with the collecting barrel 51, the pipeline at the other side end of the water pump 53 is connected with the water receiving tray 4, the control seat 52 is installed at the upper end of the water pump 53, and is electrically connected with an external power supply of the water dispenser body 1.

Specifically, through recycle device 5, control seat 52 detects the inside water liquid of water collector 4 through sensor group 43 to control miniature water pump is with the water liquid recovery in the water collector 4 to collect in bucket 51, can pour the tea night into collection bucket 51 and will collect simultaneously, and the timing control driving motor 515 breaks tealeaves at last, and mixes tealeaves sediment and water liquid discharge flower watering through miniature sewage pump, fully with water resource recycle, promote the growth of plant, improve sustainable development theory greatly.

6-7, a feeding hole 511 is formed in one side of the upper end of the collecting barrel 51 to penetrate through the collecting barrel, two water level sensors 512 are respectively arranged on the upper part and the lower part in the collecting barrel 51 and penetrate through the collecting barrel, a water inlet pipe 513 and a water outlet pipe 514 are also arranged at the side end of the collecting barrel 51 in a penetrating mode, two driving motors 515 are respectively arranged on the inner bottom of the collecting barrel 51, and two rotating shafts of the two driving motors 515 penetrate through the collecting barrel 51 and are provided with two rotating blades 516.

The user can pour the tea in the night into the belt collecting vessel 51 from the feed inlet 511, when the time that the timing module set up arrives, the processing circuit board module synchronous control two driving motors 515 drive two rotatory blades 516 high-speed rotation, stirs the tealeaves in the water liquid, after reaching the settlement time, two driving motors 515 stop working, the processing circuit board module control miniature sewage pump work again, extracts the tea water mixture in the collecting vessel 51.

Wherein, the filter cover 5141 is arranged on the outer side of the water outlet pipe 514 and positioned on the inner side wall of the collecting barrel 51, and a plurality of small filter holes are arranged on the surface of the filter cover 5141 in a penetrating way; in the extraction process, the large tea residues are intercepted by filtering through the small filtering holes on the filter cover 5141, and the fine tea flows out of the water outlet pipe 514 along with the water, so that the blockage is prevented.

As shown in fig. 8, the side end of the water pump tank 53 is provided with a protective casing 531 and connected with the water receiving tray 4, and the outer end of the water pump tank 53 is further provided with a diversion mechanism 532, a micro water pump and a micro sewage pump are arranged inside the water pump tank 53, the micro water pump water outlet connecting hose penetrates through the protective casing 531 and is connected with the water pumping pipe 41 in a penetrating way, the micro water pump water outlet connecting hose penetrates through the water inlet pipe 513, the micro sewage pump water outlet connecting hose penetrates through the water outlet pipe 514, and the micro sewage pump water outlet connecting hose penetrates through the diversion mechanism 532.

Specifically, when the internal water of the water pan 4 rises to the position of the upper water level sensor of the sensor group 43, the upper water level sensor sends a signal to the processing circuit board module, the processing circuit board module controls the micro water pump to work, the water of the water pan 4 is extracted, the water flows out of the water suction pipe 41 and passes through the micro water pump, the water enters the collecting barrel 51 from the water inlet pipe 513 for storage, when the water level in the water receiving box is lower than the position of the lower water level sensor of the sensor group 43, the lower water level sensor sends a signal to the processing circuit board module, the processing circuit board module controls the micro water pump to stop working, finally the driving motor 515 is controlled to break tea leaves at regular time, and tea residues and the water are mixed by the micro sewage pump and discharged to water for flower watering.

As shown in fig. 9, the diversion mechanism 532 includes a diversion box 5323, the diversion box 5323 is mounted on the water pump box 53 and is connected with a hose of a water outlet of the miniature sewage pump, the diversion box 5323 is connected with a plurality of discharge pipes 5321 through the outer end, and the plurality of discharge pipes 5321 are all mounted with control valves 5322; the plurality of control valves 5322 are respectively connected to hoses and pulled into the plurality of external flowerpots.

Specifically, the plurality of discharge pipes 5321 on the split box 5323 are connected with a plurality of hoses, the other ends of the plurality of hoses are respectively placed in a plurality of flowerpots, the flowerpots which are watered according to the requirements are opened, the corresponding control valves 5322 are opened, the tea water mixed solution flows into the split box 5323 to be split, flows into the flowerpots from the plurality of opened discharge pipes 5321, flows into the flowerpots along the hoses to be watered and fertilized, and healthy growth of plants is promoted.

The control base 52 includes a key setting module, a timing module, a display module, and a processing circuit board module, where the processing circuit board module is electrically connected to the key setting module, the timing module, and the display module, and is also electrically connected to the sensor group 43, the water level sensor one 512, and the two driving motors 515; when a user sets a program through the key setting module of the control seat 52, and the timing module is used for timing flower watering, and the set content is displayed on the display module.

The sensor group 43 includes two water level sensors two which are separately installed on the upper and lower sidewalls of the inside of the water pan 4.

In the second embodiment, as shown in fig. 2, the non-contact water receiving system 3 includes a signal processing control center 33, an electromagnetic valve 32, a water outlet 37, and a photoelectric sensor 38 are disposed in the water dispenser 1, a pressure sensor 31 is installed on the water receiving tray 4 below the water outlet 37 of the water dispenser 1, the signal processing control center 33 is electrically connected with the electromagnetic valve 32, an output end of the signal processing control center 33 is connected with the electromagnetic valve 32, the electromagnetic valve 32 is connected with the water outlet 37 through a pipeline, an output end of the photoelectric sensor 38 is connected with an input end of the signal processing control center 33, and the pressure sensor 31 is connected with the signal processing control center 33.

Wherein, control panel 36 is installed to the upside of water dispenser 1, installs first switch 35 between signal processing control center 33 and the pressure sensor 31, installs second switch 34 between signal processing control center 33 and the photoelectric sensor 38, and control panel 36 is connected with first switch 35 and second switch 34 electricity respectively.

Working principle:

program setting is carried out through a key setting module of the control seat 52, timing flower watering (timing of the working time length of the driving motor 515 and timing of the flower watering time period) is carried out through a timing module, and the set content is displayed on a display module;

when the water in the water receiving disc 4 rises to the position of the upper water level sensor of the sensor group 43, the upper water level sensor II sends a signal to the processing circuit board module, the processing circuit board module controls the micro water pump to work, the water in the water receiving disc 4 is extracted, the water flows out of the water suction pipe 41 and passes through the micro water pump, the water enters the collecting barrel 51 from the water inlet pipe 513 for storage, and when the water level in the water receiving box is lower than the position of the lower water level sensor II of the sensor group 43, the lower water level sensor II sends a signal to the processing circuit board module, and the processing circuit board module controls the micro water pump to stop working;

the collecting barrel 51 operates: the user can pour the tea water in the night into the collecting barrel 51 from the feeding hole 511, when the time set by the timing module arrives, the processing circuit board module synchronously controls the two driving motors 515 to drive the two rotating blades 516 to rotate at high speed, the tea leaves in the water are crushed, after the set time arrives, the two driving motors 515 stop working, the processing circuit board module controls the micro sewage pump to work, the tea water mixture in the collecting barrel 51 is extracted and discharged, in the extracting process, the filtering holes on the filter cover 5141 are used for filtering, the larger tea residues are intercepted, the tiny tea water flows out from the water outlet pipe 514 along with the water, and the tiny tea water flows into the splitting mechanism 532 through the micro sewage pump;

the plurality of discharge pipes 5321 on the split box 5323 are connected with a plurality of hoses, the other ends of the plurality of hoses are respectively placed in a plurality of flowerpots, the flowerpots are watered according to the requirements, the corresponding control valves 5322 are opened, the tea water mixed solution flows into the split box 5323 for split flow, flows into the flowerpots from the plurality of opened discharge pipes 5321, flows into the flowerpots along the hoses for watering flowers and fertilizing, and promotes healthy growth of plants;

when the water level in the collecting barrel 51 rises to the first upper water level sensor 512, the first upper water level sensor 512 sends a signal to the processing circuit board module, the processing circuit board module controls the two driving motors 515 to stir, then the miniature sewage pump performs flower watering work to prevent water from overflowing, and when the water level in the collecting barrel 51 falls to the first lower water level sensor 512, the processing circuit board module closes the timing function of the timing module, and the control device stops working and needs to be restarted manually, so that the safety is improved;

in summary, according to the recycling device 5, the control seat 52 detects the water inside the water receiving tray 4 through the sensor group 43, controls the micro water pump to recycle the water in the water receiving tray 4 into the collecting barrel 51, meanwhile, manually pours night tea into the collecting barrel 51 to collect the water, finally, controls the driving motor 515 to break the tea leaves at regular time, and mixes the tea leaves and the water through the micro sewage pump to discharge the water for watering flowers, so that water resources are fully recycled, plant growth is promoted, and sustainable development idea is greatly improved.

The first water outlet mode of the scheme is as follows: the first switch 35 is open and the second switch 34 is closed: when the water dispenser body 1 works and water is required to be discharged, the control panel 36 generates an instruction, the photoelectric sensor 38 detects a signal and outputs the signal to the signal processing control center 33, at the moment, the signal processing control center 33 outputs the signal to the electromagnetic valve 32 to be opened, and at the moment, the water outlet head 37 discharges water; when no signal is detected, the solenoid valve 4 is in a normally closed state.

The second water outlet mode of the scheme is as follows: the first switch 35 is closed and the second switch 34 is opened; when the water dispenser body 1 works and needs to discharge water, a cup is placed on the water receiving disc, the pressure is detected through the pressure sensor 31, a signal is transmitted to the signal processing control center 33 for analysis, the signal processing control center 33 sends a command to the electromagnetic valve 32, at the moment, the valve of the electromagnetic valve 32 is opened, the water outlet starts to discharge water, and when the signal processing control center 33 does not receive the signal from the pressure sensor 31, the electromagnetic valve 32 is in a normally closed state.

The two non-contact water outlet modes are connected in parallel on the signal processing control center 33, and the switching of the two different water outlet modes is realized by controlling the opening and closing of the first switch 35 and the second switch 34 through operating the control panel 36.

Claims (6)

1. The utility model provides a non-contact water intaking device of recycle, includes water dispenser body (1), its characterized in that: the water dispenser comprises a water dispenser body (1), wherein a slot is formed in the rear side of the upper end of the water dispenser body (1), a drawing water tank (2) is inserted into the slot, a non-contact water receiving system (3) is arranged in the water dispenser body (1), a water receiving disc (4) is installed at the bottom of the side end of the water dispenser body (1), a water storage tank is formed in the upper end of the water receiving disc (4), a filter frame (42) is inlaid and installed, a sensor group (43) is installed at the side end of the water receiving disc (4), the sensor group (43) penetrates through the water storage tank, a water pumping pipe (41) is further connected at the side end of the sensor group (43), a water pumping pipe (41) is connected with a recycling device (5) in a pipeline manner, the recycling device (5) is fixedly installed on the water dispenser body (1) and comprises a collecting barrel (51), a control seat (52) and a water pump box (53), one side end pipeline of the water pump box (53) is connected with the collecting barrel (51), and the other side end pipeline of the water pump box (53) is connected with the water receiving disc (4), and the upper end of the water pump box (53) is provided with the control seat (52) and is electrically connected with a power source (1).

The non-contact water receiving system (3) comprises a signal processing control center (33), the water dispenser body (1) is internally provided with the signal processing control center (33), an electromagnetic valve (32), a water outlet head (37) and a photoelectric sensor (38), the water dispenser body (1) is arranged on a water receiving disc (4) below the water outlet head (37) and is provided with a pressure sensor (31), the signal processing control center (33) is electrically connected with the electromagnetic valve (32), the output end of the signal processing control center (33) is connected with the electromagnetic valve (32), the electromagnetic valve (32) is connected with the water outlet head (37) through a pipeline, the output end of the photoelectric sensor (38) is connected with the input end of the signal processing control center (33), and the photoelectric sensor (38) is arranged on the outer wall of the water dispenser body (1) above the water receiving disc (4) and is used for detecting external light signals, and the pressure sensor (31) is connected with the signal processing control center (33).

The upper end of the collecting barrel (51) is provided with a feeding hole (511) in a penetrating way, two first water level sensors (512) are respectively arranged at the upper part and the lower part in the collecting barrel (51) and penetrate into the collecting barrel, the side end of the collecting barrel (51) is also provided with a water inlet pipe (513) and a water outlet pipe (514) in a penetrating way, the inner bottom part of the collecting barrel (51) is provided with two driving motors (515), and the rotating shafts of the two driving motors (515) penetrate into the collecting barrel (51) and are provided with two rotating blades (516);

the side end of the water pump box (53) is provided with a protective shell (531) which is connected with the water receiving disc (4), the outer end of the water pump box (53) is also provided with a diversion mechanism (532), a micro water pump and a micro sewage pump are arranged inside the water pump box (53), the micro water pump water outlet connecting hose penetrates through the protective shell (531) and is in through connection with the water suction pipe (41), the micro water pump water outlet connecting hose penetrates through connection with the water inlet pipe (513), the micro sewage pump water outlet connecting hose penetrates through connection with the water outlet pipe (514), and the micro sewage pump water outlet connecting hose penetrates through connection with the diversion mechanism (532);

the diversion mechanism (532) comprises a diversion box (5323), the diversion box (5323) is installed on the water pump box (53) and is connected with a miniature sewage pump water outlet hose, the diversion box (5323) is connected with a plurality of discharge pipes (5321) in a penetrating way at the outer end, and control valves (5322) are installed on the discharge pipes (5321).

2. The recyclable non-contact water intake device according to claim 1, wherein a control panel (36) is mounted on the upper side of the water dispenser body (1), a first switch (35) is mounted between the signal processing control center (33) and the pressure sensor (31), a second switch (34) is mounted between the signal processing control center (33) and the photoelectric sensor (38), and the control panel (36) is electrically connected with the first switch (35) and the second switch (34) respectively.

3. The non-contact water intake device capable of recycling according to claim 1, wherein a filter cover (5141) is installed on the inner side wall of the collecting barrel (51) outside the water outlet pipe (514), and a plurality of small filter holes are formed on the surface of the filter cover (5141) in a penetrating manner.

4. A recyclable non-contact water intake device as in claim 1 wherein the plurality of control valves (5322) are each connected to a hose and pulled into an external plurality of flowerpots.

5. The recyclable non-contact water intake device as set forth in claim 1, wherein the control base (52) comprises a key setting module, a timing module, a display module and a processing circuit board module, wherein the processing circuit board module is electrically connected with the key setting module, the timing module and the display module, and is further electrically connected with the sensor group (43), the first water level sensor (512) and the two driving motors (515).

6. The recyclable non-contact water intake device as claimed in claim 5, wherein the sensor group (43) comprises two water level sensors which are separately installed on the inner upper and lower side walls of the water receiving tray (4).