CN211633165U - Dish washing machine with ultrasonic cleaning vibrator for independently washing boiler chamber - Google Patents

Abstract

The utility model belongs to the field of household washing appliances, and provides a dish washing machine with an ultrasonic cleaning vibrator for independently washing a boiler chamber, aiming at the problems that the boiler washing effect of the dish washing machine in the prior art is poor and secondary pollution is easily caused after oil stains float easily, the machine comprises a machine body provided with a dish washing groove and a boiler washing groove, and the machine body also comprises a water injection mechanism, a washing mechanism, a water circulation mechanism, an induction module and a control circuit board; a bowl washing barrel with a bowl washing basket is arranged in the bowl washing groove, and an ultrasonic wave boiler washing chamber with an ultrasonic wave vibrator is arranged in the boiler washing groove; control circuit board is used for controlling opening and close of water injection mechanism, washing mechanism, hydrologic cycle mechanism and ultrasonic vibrator according to the information that the response module responded to, and water injection mechanism and washing mechanism are used for injecting water and washing liquid into the bucket that washes the dishes, and hydrologic cycle mechanism is used for taking out the rotatory arm that sprays through the apopore in the bucket that washes the dishes and spouts the bucket again to washing the dishes.

Description

Dish washing machine with ultrasonic cleaning vibrator for independently washing boiler chamber

Technical Field

The utility model belongs to family's washing apparatus field, concretely relates to take ultrasonic cleaning oscillator to independently wash dish washer of boiler room.

Background

The cooking mode of China often uses frying pans, so that the frying pans are greasy and easy to be burnt. A dishwasher, also known as a dish washer or a dish washer, is a household appliance for replacing manual washing of dishes, cups, plates, spoons and the like. The working principle of the existing dish-washing machine is that hot water dissolved with detergent is jetted to kitchenware to be washed at high speed, water is drained after washing, and then clean water is changed for washing. Washing of dishes by high pressure does not achieve a good cleaning effect against stubborn stains. Some adopt the ultrasonic wave to wash, wash the back, discharge water again, however wash back, the oil stain is apt to float at the liquid level, after the drainage, the oil stain is apt to cause the secondary pollution to the bowl dish. Some existing dish washers cannot wash pots, some existing dish washers can wash pots, and the washing effect is poor. The pan is washed manually and independently after each meal, which is a big defect of the existing dish washer.

Therefore, it is of interest to the skilled person how to provide a dishwasher capable of both washing a pot and washing a dish.

SUMMERY OF THE UTILITY MODEL

The utility model discloses take independent dish washer of washing boiler room of ultrasonic cleaning oscillator, to prior art, dish washer washing pot effect is poor, and oil stain floats when washing the pot bowl and causes secondary pollution's problem at the liquid level to the pot bowl.

The utility model discloses a basic scheme does: take dish washer of ultrasonic wave pot washing function, include the organism that comes by the repacking of fountain dish washer, the organism is opened has the pot washing groove, the pot washing inslot is equipped with the ultrasonic wave and washes the boiler room, and the ultrasonic wave is washed the boiler room and is equipped with the ultrasonic device who is used for washing the pot.

The principle and the beneficial effects of the basic scheme are as follows: this scheme uses the ultrasonic wave to wash the pot body of putting into the dish washer, solves prior art, and the pot body washs the problem of difficulty. And when washing dishes, the washing machine can also adopt ultrasonic cleaning, thereby reducing the use of cleaning agents and saving resources. During ultrasonic cleaning, the oil stain is by homodisperse in aqueous, avoids appearing the fried dough twist situation, compares prior art, and the probability that causes secondary pollution to the pot bowl is littleer.

Further, a bowl washing groove is formed in the upper portion of the machine body, and the pot washing groove is formed in the side wall of the lower portion of the machine body; the machine body also comprises a water injection mechanism, a washing mechanism, a water circulation mechanism, an induction module and a control circuit board;

a dish washing barrel is arranged in the dish washing groove, a dish washing basket used for placing dishes is further arranged at the upper part of the dish washing barrel, and the machine body further comprises a first door body used for closing the dish washing groove; the water injection mechanism comprises a water inlet pipe for injecting tap water into the dish washing barrel and a water inlet electromagnetic valve arranged on the water inlet pipe; the washing mechanism comprises a storage cavity, a washing pipeline and a washing electromagnetic valve, wherein the storage cavity is arranged on the first door body and used for storing detergent, the two ends of the washing pipeline are respectively communicated with the bottom of the storage cavity and the dish washing barrel, and the washing electromagnetic valve is arranged on the washing pipeline; the water circulation mechanism comprises a water suction pump, a washing water heater, a rotary spray arm arranged above the inner wall of the dish washing barrel and a spray water circulation pipeline provided with a circulation solenoid valve, the spray water circulation pipeline comprises a downcomer, a middle water pipe and an upper water pipe, one end of the downcomer is communicated with the bottom of the dish washing barrel, the other end of the downcomer is communicated with the water suction pump, one end of the middle water pipe is connected with a water outlet of the water suction pump, the other end of the middle water pipe is communicated with a feed inlet of the washing water heater, one section of the upper water pipe is communicated with a discharge outlet of the washing water heater, the other end of the upper water pipe is communicated with the rotary spray arm;

the machine body also comprises a second door body used for closing the boiler washing groove; the bottom of the dish washing barrel is communicated with the ultrasonic wave washing chamber through a washing pot water inlet pipe, and a washing pot electromagnetic valve is arranged on the washing pot water inlet pipe; the ultrasonic wave washing boiler chamber is also communicated with an external water pipeline, and is provided with an external water door for opening and closing the external water pipeline;

the induction module is used for sensing whether the first door body and the second door body both close the dish washing tank and the pot washing tank, and the control circuit board controls the starting of the water inlet electromagnetic valve in the water injection mechanism and the starting of the washing electromagnetic valve in the washing mechanism according to the conditions sensed by the induction module; the induction module is also used for sensing the current water inflow injected by the water inlet pipe after the water inlet electromagnetic valve is opened, and the control circuit board controls the water inlet electromagnetic valve to be closed according to the current water inflow; the induction module is also used for sensing the current detergent amount injected into the washing pipeline after the washing electromagnetic valve is opened, and the control circuit board controls the washing electromagnetic valve to be closed according to the current detergent amount; the control circuit board is also used for controlling the on-off of the circulating electromagnetic valve and the water pump according to the current water inflow and the current detergent amount;

the induction module is also used for inducing the current water level information in the ultrasonic wave boiler washing chamber and the closing condition of the additional water door; when the water level in the ultrasonic wave boiler washing chamber reaches the highest level and the additional water door is closed, the control circuit board controls the ultrasonic vibrator to start.

The principle and the beneficial effects of the scheme are as follows:

when the user needs to wash dirty bowls and dishes

Opening the first door body, putting dirty bowls, dishes and other tableware into a bowl washing basket on a bowl washing barrel by a user, and manually closing the first door body; and opening the second door body, putting the dirty frying pan or casserole into the ultrasonic wave boiler washing chamber, and closing the second door body.

The induction module induces the first door body to close the dish washing groove, and the second door body closes the pot washing groove; the control circuit board controls the water inlet electromagnetic valve and the washing electromagnetic valve to be started; the water inlet electromagnetic valve after being started opens the water inlet pipe, so that tap water can be injected into the dish washing barrel of the dish washing groove through the water inlet pipe; the washing electromagnetic valve after being started opens the washing pipeline, so that the detergent in the storage cavity can enter the dish washing barrel along the washing pipeline. Therefore, the purpose of automatically injecting water and detergent into the dish washing barrel is achieved, the automation degree is improved, manual operation is reduced, and the workload of a user is reduced.

The sensing module also senses the current water inflow injected by the water inlet pipe and the current detergent amount injected by the washing pipeline, and the control circuit board closes the water inlet electromagnetic valve when the current water inflow reaches a preset water inflow value; when the current detergent amount reaches the detergent amount preset value, the control circuit board closes the washing solenoid valve. Therefore, the scheme realizes the automatic control of the injected water inflow and the automatic control of the injected detergent amount, and is more accurate and efficient compared with manual work.

When the current water inflow and the current detergent amount reach preset values, the control circuit board controls the circulation solenoid valve and the water suction pump to be started; the opening of the circulation electromagnetic valve enables the spray water circulation pipeline to be communicated, and the dish washing water in the dish washing barrel gradually enters the spray water circulation pipeline, the water suction pump, the washing water heater and the rotary spray arm under the action of gravity and the water suction pump and then flows out along the water outlet hole of the rotary spray arm, so that tableware such as dirty bowls and dishes in the dish washing basket are washed. Therefore, there is a hydrologic cycle in this scheme, retrieves the water of washing the dishes barrel bottom, after carrying out heat treatment, washes tableware such as dirty bowl, dish in the dish basket through rotatory spray arm, and the water after washing assembles the washing barrel bottom once more, so accomplishes the cyclic utilization many times of the water of washing the dishes. The scheme reduces the water consumption for washing dirty bowls, dishes and other tableware, and reduces resource waste.

(II) when the user needs to wash the frying pan and the casserole

In this scheme, the ultrasonic vibrator starts to be controlled by control circuit board, and the condition that its needs satisfy is that plus water gate is to close and the ultrasonic wave washes the water in the boiler and be full, and the water source in the ultrasonic wave washing boiler has two, be the additional water that washes the dishes in the bucket and the injection of extra water pipeline respectively.

After the completion of washing dishes in the washing tub, the user opens the washing pot solenoid valve to make the washing pot oral siphon switch on the washing tub bottom and ultrasonic wave washing pot room, the washing water in the washing tub pours dishes into the ultrasonic wave washing pot room along the washing pot oral siphon, utilizes the washing that the washing water carried out the pot body, make full use of water resource.

Simultaneously when the ultrasonic wave was washed the boiler to the water of washing the dishes not enough fill, the user can open extra water gate for extra water piping intercommunication, the user can pour into the ultrasonic wave through the water piping in with external water and wash the boiler, thereby makes the ultrasonic wave wash in the boiler by water full.

The induction module induces the current water level information in the ultrasonic wave boiler washing chamber and the closing state of the additional water door, and the control circuit board controls the opening and closing of the ultrasonic vibrator; specifically be, response module senses current water level information and is the top value and plus water gate graduation, and control circuit board control ultrasonic vibrator starts, through this ultrasonic vibrator, can clear up greasy spot etc. on the pot bodies such as frying pan earthenware pot effectively conveniently more.

Therefore, the beneficial effects of the scheme include the following points:

a, the ultrasonic wave washing chamber is separated from the dish washing barrel, so that secondary pollution of oil stains on a pot body to dishes in the dish washing barrel is prevented when the pot is washed;

b, pumping out the dishwashing water in the dishwashing barrel, heating, and washing dishes in the dishwashing barrel again; the dish washing water is injected into the ultrasonic wave washing boiler chamber, so that water resources are fully utilized; compared with the prior art, the scheme has better water saving performance;

and C, the control circuit board controls whether the water injection mechanism, the washing mechanism, the water circulation odd-even strand and the ultrasonic vibrator are started or not according to the information sensed by the sensing module, the automation degree is high, the workload of a user is reduced, and the manual resources are saved.

Further, the machine body also comprises a timing module, and when the control circuit board controls the ultrasonic vibrator to start, the control circuit board also controls the timing module to start for timing; the control circuit board also controls the ultrasonic vibrator to be closed according to the current timing information of the timing module.

In the scheme, the timing module times the continuous working time of the ultrasonic vibrator, and the control module controls the ultrasonic vibrator to be closed when the current timing information reaches the preset timing information. Here, the preset time information may be preset by a manufacturer or may be set by a user. After the working time of the ultrasonic vibrator is preset by a user, the dish-washing machine can automatically close the ultrasonic vibrator at regular time, and the user does not need to keep staring at the working state of the ultrasonic vibrator all the time; therefore, the scheme improves the automation degree, reduces the pressure of the user on doing housework, and is beneficial to the user to better arrange the self time.

Further, a drain pipe is further arranged in the ultrasonic wave boiler washing chamber, a drain electromagnetic valve is arranged in the drain pipe, and when the control circuit board controls the ultrasonic wave vibrator to be closed, the control circuit board also controls the drain electromagnetic valve to be started; when the current water level information reaches 0, the control circuit board controls the drainage electromagnetic valve to be closed.

When the ultrasonic vibrator is closed, the drainage electromagnetic valve is opened to conduct the drainage pipe, so that the sewage in the ultrasonic boiler washing chamber can flow out of the drainage pipe conveniently; the automatic drainage of the ultrasonic boiler washing chamber is realized, the automation degree is improved, and the working pressure of a user is reduced.

Further, the ultrasonic vibrator in the ultrasonic wave washing boiler chamber is detachable, the ultrasonic wave platform is installed to the washtub, the ultrasonic wave platform is used for installing detachable ultrasonic vibrator.

In this scheme, the user can dismantle the ultrasonic vibrator of ultrasonic wave washing boiler room, then is connected this ultrasonic vibrator and ultrasonic wave platform, realizes the ultrasonic cleaning of the interior dish washing basket of the bucket that washes the dishes.

Further, the first door body is a top opening door, the top of the dish washing barrel is opened, and the top opening door can completely shield the dish washing barrel.

Further, first door body is for opening the door, the washing tub side opening, the door can shelter from the washing tub completely to open the side.

Furthermore, the bottom of the dish washing barrel is provided with a water outlet pipe, and a water outlet electromagnetic valve is arranged on the water outlet pipe.

In this scheme, the user only washes dishes, need not carry out the ultrasonic wave and washes the pot, washes the dishes so according to becoming the back, can open out water solenoid valve for the outlet pipe intercommunication, the washing dishes water in the bucket that washes the dishes can stay the outside along the outlet pipe, accomplishes single drainage.

Further, the dishwashing basket can be removed from the dishwashing tub.

In this scheme, the user only need wash the fruit vegetables, so the user just can take out the washing bowl basket, and the fruit vegetables are direct washs in the washing bowl bucket.

Furthermore, the induction module comprises a first pressure sensor which is arranged on the machine body and used for sensing whether the first door body is closed or not, a first magnet is arranged on the first door body, and a first iron sheet is arranged at the position, corresponding to the first door body, of the machine body; the induction module comprises a second pressure sensor which is arranged on the induction module and used for inducing a second door body, a second magnet is arranged on the second door body, and a second iron sheet is arranged on the machine body corresponding to the second door body; the induction module comprises a water inlet flow meter arranged on the water inlet pipe, and the water inlet flow meter is used for sensing the current water inflow flowing through the water inlet pipe after the water inlet electromagnetic valve is opened; the induction module comprises a washing flowmeter arranged on the washing pipeline, and the washing flowmeter is used for sensing the current detergent amount circulating in the washing pipeline after the washing electromagnetic valve is opened; the induction module also comprises a water level sensor arranged at the top of the ultrasonic wave boiler washing chamber, and the water level sensor is used for inducing the current water level information in the ultrasonic wave boiler washing chamber; the induction module further comprises a third pressure sensor arranged at the position, corresponding to the outer water gate, of the machine body, a third magnet is arranged on the outer water gate, and a third iron sheet is arranged at the position, corresponding to the outer water gate, of the machine body.

Drawings

FIG. 1 is a front view of a first embodiment of a dishwasher with an ultrasonic cleaning vibrator for washing a boiler independently;

FIG. 2 is a schematic structural diagram of a first embodiment of the dishwasher with an ultrasonic cleaning vibrator for washing a boiler independently according to the present invention;

FIG. 3 is a schematic view of the vegetable basket of FIG. 2 shown disengaged from the tub;

FIG. 4 is a schematic block diagram of a first embodiment of the dishwasher with an ultrasonic cleaning vibrator for washing a boiler independently according to the present invention;

FIG. 5 is a schematic structural diagram of a second embodiment of the dishwasher with an ultrasonic cleaning vibrator for washing a boiler independently according to the present invention;

FIG. 6 is a schematic structural diagram of a third embodiment of the dishwasher with an ultrasonic cleaning vibrator for washing a boiler independently according to the present invention;

FIG. 7 is a schematic structural diagram of a fourth embodiment of the dishwasher with an ultrasonic cleaning vibrator for washing a boiler independently according to the present invention;

FIG. 8 is a schematic structural diagram of a fifth embodiment of the dishwasher with an ultrasonic cleaning vibrator for washing a boiler independently according to the present invention;

FIG. 9 is a front view of a sixth embodiment of the dishwasher with ultrasonic cleaning vibrator for washing the boiler independently according to the present invention;

FIG. 10 is a schematic structural diagram of a sixth embodiment of the dishwasher with an ultrasonic cleaning vibrator for washing a boiler independently according to the present invention;

FIG. 11 is a schematic structural diagram of a seventh embodiment of the dishwasher with an ultrasonic cleaning vibrator for washing a boiler independently according to the present invention;

FIG. 12 is a schematic structural diagram of an eighth embodiment of the dishwasher with an ultrasonic cleaning vibrator for washing a boiler independently according to the present invention;

fig. 13 is a schematic structural diagram of a ninth embodiment of the dishwasher with an ultrasonic cleaning vibrator for independently washing the boiler chamber.

Detailed Description

The following is further detailed by the specific embodiments:

reference numerals in the drawings of the specification include: the device comprises a machine body 1, a first door body 2, a second door body 3, a dish washing barrel 11, a dish washing basket 12, a rotary spray arm 21, an upper water pipe 22, a washing water heater 23, a middle water pipe 24, a water pump 25, a lower water pipe 26, a water outlet pipe 27, a water outlet pipe 28, an ultrasonic washing boiler chamber 31, a washing boiler inlet water pipe 32, an external water pipe 33, an external water door 34, a water storage tank 29, an ultrasonic vibrator 4, a first ultrasonic vibrator 41 and a second ultrasonic vibrator 42.

The first embodiment is as follows:

a dish washing machine with an ultrasonic cleaning vibrator for independently washing a boiler chamber comprises a machine body 1, wherein the shape of the machine body 1 is shown in figure 1. The upper part of the machine body 1 is provided with a bowl washing groove with an upward opening, and the side wall of the lower part of the machine body 1 is provided with a pot washing groove with a leftward opening. The machine body 1 further comprises a water injection mechanism, a washing mechanism, a water circulation mechanism, an induction module, a timing module, a control circuit board, a first door body 2 and a second door body 3. As shown in fig. 1, the first door body 2 is a top-opening door, and the right end of the first door body 2 is connected with the right end of the shell of the machine body 1 in a hinged manner or a hinge manner; along with the rotation of the first door body 2, the first door body 2 can open and close the bowl washing groove. As shown in fig. 5, the second door body 3 is a side-opening door, and the lower end of the second door body 3 is connected with the left lower end of the shell of the machine body 1 in a hinged manner or a hinge manner; along with the rotation of the second door body 3 in the vertical direction, the second door body 3 can open and close the pot washing groove.

As shown in fig. 2, a dish washing barrel 11 with an upward opening is installed in the dish washing groove, and a dish washing basket 12 for placing dishes is placed in the dish washing barrel 11; wherein the dishwashing basket 12 is removable, the condition of removal of the dishwashing basket 12 can be seen in fig. 3. The water injection mechanism includes a water inlet pipe (not shown) for injecting tap water into the tub 11 and a water inlet solenoid valve (not shown) installed at the water inlet pipe. The washing mechanism comprises a storage cavity (not shown) which is arranged on the first door body 2 and used for storing detergent, a washing pipeline (not shown) of which two ends are respectively communicated with the bottom of the storage cavity and the dish washing barrel 11, and a washing electromagnetic valve (not shown) arranged on the washing pipeline. The water circulation mechanism comprises a spray water circulation pipeline, a water pump 25, a washing water heater 23 and a rotary spray arm 21; the shower water circulation pipes include a down-comer pipe 26, a mid-comer pipe 24, and an up-comer pipe 22. As shown in FIG. 2, the left end of the downcomer 26 is connected to the bottom of the bowl 11, the right end of the downcomer 26 is connected to the water inlet of the water pump 25, the left end of the water pipe 24 is connected to the water outlet of the water pump 25, the right end of the water pipe 24 is connected to the material inlet of the washing water heater 23, the lower end of the water pipe 22 is connected to the material outlet of the washing water heater 23, and the upper end of the water pipe 22 is connected to the rotary spray arm 21. Install on the organism 1 of the barrel 11 below that washes the dishes if suction pump 25, washing water heater 23 installs in the right side of suction pump 25, the below of barrel 11 washes the dishes, and rotatory spray arm 21 is installed in the left end of first door body 2, guarantees that the apopore of rotatory spray arm 21 is towards barrel 11 washes the dishes. The bottom of the dish washing barrel 11 is communicated with a water outlet pipe 27, and a water outlet electromagnetic valve is arranged on the water outlet pipe 27.

As shown in fig. 2, an ultrasonic wave boiler washing chamber 31 with a leftward opening is arranged in the boiler washing groove, a boiler washing water inlet pipe 32 is communicated between the top end of the ultrasonic wave boiler washing chamber 31 and the bottom end of the dish washing barrel 11, and a boiler washing electromagnetic valve (not shown in the figure) is further arranged on the boiler washing water inlet pipe 32; in order to ensure that the water sprayed from the washing pot inlet pipe 32 is uniformly sprayed on the pot body, a washing pot spray header (not shown) can be arranged at the lower end of the washing pot inlet pipe 32 in the scheme, and the washing pot spray header is arranged on the upper wall of the ultrasonic washing pot chamber 31. An external water supply pipeline 33 is also communicated in the ultrasonic wave washing boiler chamber 31, an external water supply door 34 is arranged in the ultrasonic wave washing boiler chamber 31, and the external water supply door 34 is used for opening and closing the external water supply pipeline 33; the external water supply pipeline 33 can be directly communicated with the top end of the ultrasonic wave washing chamber 31, or can be communicated with the side wall of the washing pot water inlet pipe 32, in the scheme, as shown in fig. 2, the right end of the external water supply pipeline 33 is communicated with the side wall of the washing pot water inlet pipe 32.

As shown in fig. 4, the sensing module includes a first pressure sensor, a second pressure sensor, a water inlet flow meter, a washing flow meter, a water level sensor, and a third pressure sensor. The water inlet flow meter is arranged on the water inlet pipe and used for sensing the water inflow of the water inlet pipe flowing after the water inlet electromagnetic valve is opened and taking the water inflow as the current water inflow. The washing flowmeter is arranged on the washing pipeline and used for sensing the current detergent amount circulating in the washing pipeline after the washing electromagnetic valve is opened. A water level sensor is installed on the top of the upper wall of the ultrasonic wave washing chamber 31 for sensing the current water level information in the ultrasonic wave washing chamber 31.

The free end of the left wall of the first door body 2 is embedded with a first magnet, the machine body 1 is embedded with a first iron sheet on the left side of the bowl washing groove, and when the first magnet is embedded into the left wall of the first door body

When the first door body 2 is closed, the opening of the bowl washing groove is completely shielded, the first magnet is contacted with the first patch, and the first pressure sensor is arranged near the first iron sheet; therefore, when the first pressure sensor senses the pressure, the scheme can judge that the first door body 2 is closed.

A second magnet is embedded in the free end of the upper wall of the second door body 3, a second iron sheet is embedded in the upper side of the boiler washing groove of the machine body 1, when the second door body 3 is covered, the opening of the boiler washing groove is completely shielded, the second magnet is in contact with the second iron sheet, and a second pressure sensor is arranged near the second iron sheet; therefore, when the second pressure sensor senses the pressure, the scheme can judge that the second door body 3 is closed. A third magnet is embedded in the right wall of the external water door 34, a third iron sheet is embedded in the left wall of the machine body 1 corresponding to the external water door 34, and a third pressure sensor is rod-shaped and is positioned on the visual field of the third iron sheet; therefore, when the third pressure sensor senses that the pressure is positive, the present solution can determine that the water addition gate 34 has been closed.

As shown in fig. 4, the sensing module senses that the first door body 2 and the second door body 3 respectively close the bowl washing tank and the pot washing tank through the first pressure sensor and the second pressure sensor, and the control circuit board controls the water inlet electromagnetic valve in the water injection mechanism to be started and the washing electromagnetic valve in the washing mechanism to be started. The water inlet electromagnetic valve after being started opens the water inlet pipe, so that tap water can be injected into the dish washing barrel 11 of the dish washing groove through the water inlet pipe; the washing solenoid valve after being activated opens the washing pipe, so that the detergent in the storage chamber can enter the washing tub 11 along the washing pipe. Therefore, the purpose of automatically injecting water and detergent into the dish washing barrel 11 is achieved, the automation degree is improved, manual operation is reduced, and the workload of a user is reduced.

The sensing module senses the current water inflow injected by the water inlet pipe through the water inlet flowmeter and senses the current detergent amount injected by the washing pipeline through the washing flowmeter; when the current water inflow reaches a preset water inflow value, the control circuit board closes the water inflow electromagnetic valve; when the current detergent amount reaches the detergent amount preset value, the control circuit board closes the washing solenoid valve. Therefore, the scheme realizes the automatic control of the injected water inflow and the automatic control of the injected detergent amount, and is more accurate and efficient compared with manual work.

When the current water inflow and the current detergent amount reach preset values, the control circuit board controls the circulation solenoid valve and the water pump 25 to be started; opening of circulation solenoid valve makes spray water circulation pipeline switch on, and the water that washes the dishes in the bucket 11 that washes the dishes under gravity and suction pump 25's effect, gets into spray water circulation pipeline, suction pump 25, washing water heater 23, rotatory spray arm 21 gradually, then flows out along the apopore of rotatory spray arm 21 to wash tableware such as dirty bowl, dish in the basket 12 that washes the dishes. Therefore, there is a hydrologic cycle in this scheme, retrieves the water of washtub 11 bottom, after carrying out heat treatment, washes tableware such as dirty bowl, dish in washtub basket 12 through rotatory spray arm 21, and the water after washing assembles washtub 11 bottom once more, so accomplishes the cyclic utilization many times of washtub water. The scheme reduces the water consumption for washing dirty bowls, dishes and other tableware, and reduces resource waste.

As shown in fig. 2, the sensing module senses the current water level information in the ultrasonic wave washing chamber 31 through the water level sensor, and senses the closing state of the water adding door 34 through the third pressure sensor. When the current water level information reaches the highest value and the additional water door 34 is closed, the control circuit board controls the ultrasonic vibrator 4 in the ultrasonic washing boiler chamber 31 to start and the timing module to start. The timing module is used for timing the working time of the ultrasonic vibrator 4 in the ultrasonic boiler washing chamber 31 to obtain current timing information; when the current timing information reaches the preset timing information, the control circuit board controls the ultrasonic vibrator 4 in the ultrasonic wave boiler washing chamber 31 to be closed.

A drain pipe 28 is also arranged in the ultrasonic wave boiler washing chamber 31, a drain electromagnetic valve is arranged in the drain pipe 28, and when the control circuit board controls the ultrasonic wave vibrator 4 to be closed, the control circuit board also controls the drain electromagnetic valve to be started; when the current water level information reaches 0, the control circuit board controls the drainage electromagnetic valve to be closed. When the ultrasonic vibrator 4 is closed, the drainage electromagnetic valve is opened, so that the drainage pipe 28 is communicated, and the sewage in the ultrasonic boiler washing chamber 31 can flow out of the drainage pipe 28 conveniently; the automatic drainage of the ultrasonic wave boiler washing chamber 31 is realized, the automation degree is improved, and the working pressure of a user is reduced.

In use, the user will have the following: (1) the user only uses the dish washing barrel 11 to wash dishes without using the ultrasonic wave to wash the boiler chamber 31; (2) the user only uses the ultrasonic wave to wash the boiler chamber 31 and does not use the dish washing barrel 11; (3) the user uses the tub 11 and the ultrasonic washing chamber 31.

(1) The user only uses the dish washing barrel 11 to wash dishes without using the ultrasonic wave to wash the boiler chamber 31

S1-1, the user checks whether the first door body 2 and the second door body 3 can be normally opened and closed, and whether the water inlet electromagnetic valve, the washing electromagnetic valve, the circulating electromagnetic valve, the water outlet electromagnetic valve and the pot washing electromagnetic valve work well.

S1-2, the user opens the first door body 2, exposes the opening of the bowl washing groove in the air, puts a vegetable washing basket into the bowl washing barrel 11, puts dirty bowls and dishes into the vegetable washing basket, and closes the first door body 2.

S1-3, the first pressure sensor in the sensing module senses that the first door body 2 is closed, the second pressure sensor senses that the second door body 3 is closed, the control circuit board controls the water inlet electromagnetic valve and the washing electromagnetic valve to be opened, the water inlet pipe and the washing pipeline are both in a conduction state, the outside can inject tap water into the dish washing barrel 11 through the water inlet pipe, and detergent in the storage cavity enters the dish washing barrel 11 through the washing pipeline.

S1-4, the sensing module senses the current water inflow injected by the water inlet pipe through the water inlet flow meter and senses the current detergent amount injected by the washing pipeline through the washing flow meter; when the current water inflow reaches a preset water inflow value, the control circuit board closes the water inflow electromagnetic valve; when the current detergent amount reaches a detergent amount preset value, the control circuit board closes the washing electromagnetic valve; the automatic control of the injected water inflow and the automatic control of the injected detergent amount are realized. Here, the preset water inflow value and the preset detergent amount value may be fixedly designed by a manufacturer when the dishwasher is built, or may be values which are automatically input by a user using an input device such as a button or a keyboard according to the user's own needs and in combination with specific situations.

S1-5, when the current water inflow and the current detergent amount reach preset values, the control circuit board controls the circulation solenoid valve, the water pump 25 and the washing water heater 23 to be started; the circulation electromagnetic valve is opened to conduct the spray water circulation pipeline, and the dish washing water in the dish washing barrel 11 gradually enters the spray water circulation pipeline, the water suction pump 25, the washing water heater 23 and the rotary spray arm 21 under the action of gravity and the water suction pump 25 and then flows out along the water outlet hole of the rotary spray arm 21, so that dirty bowls, dishes and other tableware in the dish washing basket 12 are washed; realizing the repeated recycling of the dish washing water in the dish washing barrel 11.

S1-6, the user manually closes the washing water heater 23, the water pump 25 and the circulating electromagnetic valve in sequence, stops the water in the dish washing barrel 11 from being washed for multiple times in a circulating manner, opens the first door body 2, and takes out the dishes from the dish washing basket 12.

S1-7, the drain solenoid valve is opened, so that the drain pipe 28 is conducted, and the dish washing water in the dish washing barrel 11 is drained from the drain pipe 28.

(2) The user only uses the ultrasonic wave to wash the boiler chamber 31 and does not use the dish washing barrel 11

S2-1, the user checks whether the first door body 2 and the second door body 3 can be normally opened and closed, and whether the water inlet electromagnetic valve, the washing electromagnetic valve, the circulating electromagnetic valve, the water outlet electromagnetic valve and the pot washing electromagnetic valve work well.

S2-2, the user opens the second door body 3, exposes the opening of the pot washing groove in the air, puts the pot body into the ultrasonic pot washing chamber 31, and closes the second door body 3.

S2-3, the sensing module senses the current water level information in the ultrasonic wave boiler washing chamber 31 through the water level sensor and senses the closing state of the additional water door 34 through the third pressure sensor; when the additional water door 34 is closed and the current water level information is 0, the control circuit board controls the drainage electromagnetic valve to be closed, so that the ultrasonic wave boiler washing chamber 31 can store water conveniently.

S2-4, opening a washing pot electromagnetic valve, communicating the dish washing barrel 11 with the ultrasonic washing pot chamber 31 through the washing pot water inlet pipe 32, and enabling the residual dish washing water in the dish washing barrel 11 to enter the ultrasonic washing pot chamber 31 along the washing pot water inlet pipe 32 to fill the ultrasonic washing pot chamber 31; if the ultrasonic wave washing chamber 31 is not filled, the user can open the external water adding door 34, and external water is introduced into the ultrasonic wave washing chamber 31 through the external water adding pipe, so that the ultrasonic wave washing chamber 31 is filled. The water injected by the external water pipe can be tap water, or rice washing water and other vegetable washing water.

S2-5, when the current water level information reaches the highest value and the extra water door 34 is closed, the control circuit board controls the ultrasonic vibrator 4 in the ultrasonic washing boiler chamber 31 to start and the timing module to start; the timing module is used for timing the working time of the ultrasonic vibrator 4 in the ultrasonic boiler washing chamber 31 to obtain current timing information; when the current timing information reaches the preset timing information, the control circuit board controls the ultrasonic vibrator 4 in the ultrasonic washing boiler chamber 31 to be closed and the water discharge electromagnetic valve to be opened. The opening of the water discharge electromagnetic valve can be controlled by manual operation, so that a user can select automatic water discharge or manual water discharge conveniently.

S2-6, the water discharge electromagnetic valve is opened to enable the water discharge pipe 28 to be communicated with the outside, and the washing water in the ultrasonic wave washing chamber 31 can be discharged out of the ultrasonic wave washing chamber 31 through the water discharge pipe 28.

S2-7, the user opens the second door body 3, takes out the pan body from the ultrasonic wave washing chamber 31, and then closes the second door body 3.

(3) The user uses the tub 11 and the ultrasonic washing chamber 31.

S3-1, the user checks whether the first door body 2, the second door body 3 and the external water door 34 can be normally opened and closed, and whether the water inlet electromagnetic valve, the washing electromagnetic valve, the circulating electromagnetic valve, the water outlet electromagnetic valve and the pot washing electromagnetic valve work well.

S3-2, the user opens the first door body 2, exposes the opening of the bowl washing groove in the air, puts a vegetable washing basket into the bowl washing barrel 11, puts dirty bowls and dishes into the vegetable washing basket, and closes the first door body 2.

S3-3, the first pressure sensor in the sensing module senses that the first door body 2 is closed, the second pressure sensor senses that the second door body 3 is closed, the control circuit board controls the water inlet electromagnetic valve and the washing electromagnetic valve to be opened, the water inlet pipe and the washing pipeline are both in a conduction state, the outside can inject tap water into the dish washing barrel 11 through the water inlet pipe, and detergent in the storage cavity enters the dish washing barrel 11 through the washing pipeline.

S3-4, the sensing module senses the current water inflow injected by the water inlet pipe through the water inlet flow meter and senses the current detergent amount injected by the washing pipeline through the washing flow meter; when the current water inflow reaches a preset water inflow value, the control circuit board closes the water inflow electromagnetic valve; when the current detergent amount reaches a detergent amount preset value, the control circuit board closes the washing electromagnetic valve; the automatic control of the injected water inflow and the automatic control of the injected detergent amount are realized. Here, the preset water inflow value and the preset detergent amount value may be fixedly designed by a manufacturer when the dishwasher is built, or may be values which are automatically input by a user using an input device such as a button or a keyboard according to the user's own needs and in combination with specific situations.

S3-5, when the current water inflow and the current detergent amount reach preset values, the control circuit board controls the circulation solenoid valve, the water pump 25 and the washing water heater 23 to be started; the circulation electromagnetic valve is opened to conduct the spray water circulation pipeline, and the dish washing water in the dish washing barrel 11 gradually enters the spray water circulation pipeline, the water suction pump 25, the washing water heater 23 and the rotary spray arm 21 under the action of gravity and the water suction pump 25 and then flows out along the water outlet hole of the rotary spray arm 21, so that dirty bowls, dishes and other tableware in the dish washing basket 12 are washed; realizing the repeated recycling of the dish washing water in the dish washing barrel 11.

S3-6, the user manually closes the washing water heater 23, the water pump 25 and the circulating electromagnetic valve in sequence, stops the water in the dish washing barrel 11 from being washed for multiple times in a circulating manner, opens the first door body 2, and takes out the dishes from the dish washing basket 12.

S3-7, the user opens the second door body 3, exposes the opening of the pot washing groove in the air, puts the pot body into the ultrasonic pot washing chamber 31, and closes the second door body 3.

S3-8, the sensing module senses the current water level information in the ultrasonic wave boiler washing chamber 31 through the water level sensor and senses the closing state of the additional water door 34 through the third pressure sensor; when the additional water door 34 is closed and the current water level information is 0, the control circuit board controls the drainage electromagnetic valve to be closed, so that the ultrasonic wave boiler washing chamber 31 can store water conveniently.

S3-9, opening a washing pot electromagnetic valve, communicating the dish washing barrel 11 with the ultrasonic washing pot chamber 31 through the washing pot water inlet pipe 32, and enabling the residual dish washing water in the dish washing barrel 11 to enter the ultrasonic washing pot chamber 31 along the washing pot water inlet pipe 32 to fill the ultrasonic washing pot chamber 31; if the ultrasonic wave washing chamber 31 is not filled, the user can open the external water adding door 34, and external water is introduced into the ultrasonic wave washing chamber 31 through the external water adding pipe, so that the ultrasonic wave washing chamber 31 is filled. The water injected by the external water pipe can be tap water, or rice washing water and other vegetable washing water.

S3-10, when the current water level information reaches the highest value and the extra water door 34 is closed, the control circuit board controls the ultrasonic vibrator 4 in the ultrasonic washing boiler chamber 31 to start and the timing module to start; the timing module is used for timing the working time of the ultrasonic vibrator 4 in the ultrasonic boiler washing chamber 31 to obtain current timing information; when the current timing information reaches the preset timing information, the control circuit board controls the ultrasonic vibrator 4 in the ultrasonic washing boiler chamber 31 to be closed and the water discharge electromagnetic valve to be opened. The opening of the water discharge electromagnetic valve can be controlled by manual operation, so that a user can select automatic water discharge or manual water discharge conveniently.

S3-11, the water discharge solenoid valve is opened to communicate the water discharge pipe 28 with the outside, and the washing water in the ultrasonic wave washing chamber 31 can be discharged out of the ultrasonic wave washing chamber 31 through the water discharge pipe 28.

S3-12, the user opens the second door body 3, takes out the pan body from the ultrasonic wave washing chamber 31, and then closes the second door body 3.

Example two:

the scheme is different from the scheme corresponding to the first embodiment in that: in the scheme, the water circulation mechanism comprises a spraying water circulation pipeline, a water suction pump 25, a washing water heater 23 and a rotary spraying arm 21; the shower water circulation pipes include a water storage tank 29, a downcomer 26, a center water pipe 24, and an upper water pipe 22. As shown in figure 5, the water storage tank 29 is communicated with the bottom of the dish washing barrel 11 through a water storage pipe, the left end of the downcomer 26 is communicated with the right end of the water storage tank 29, the right end of the downcomer 26 is communicated with the water inlet of the water suction pump 25, the left end of the intermediate water pipe 24 is connected with the water outlet of the water suction pump 25, the right end of the intermediate water pipe 24 is communicated with the feeding port of the washing water heater 23, the lower end of the upper water pipe 22 is communicated with the discharge port of the washing water heater 23, and the upper end of the upper water pipe 22. As shown in fig. 5, the outlet pipe 27 communicates with the bottom of the reservoir 29; the water inlet pipe 32 of the washing pot is communicated with the lower part of the left end of the water storage tank 29. In this scheme, the water storage tank 29 is provided with an electromagnetic four-way valve for controlling the connection of the water storage pipe, the water outlet pipe 27, the boiler washing water inlet pipe 32 and the sewer pipe 26.

Embodiment one-to-one correspondence scheme is compared to this scheme, and the hole of the 11 bottoms of wash-basin bucket reduces, and suspected water leakage point between wash-basin bucket 11 and the pipeline reduces, and is more practical convenient. Moreover, the sundries filter screen is arranged in the water storage tank 29, so that a user can clean sundries on the filter screen regularly, and the situation that the water storage pipe, the water outlet pipe 27, the boiler washing water inlet pipe 32 and the sewer pipe 26 are blocked by sundries such as fruit peel when dishes or vegetables and fruits are washed is avoided.

Example three:

the difference between the scheme and the scheme corresponding to the second embodiment is as follows: in this embodiment, the number of the ultrasonic transducers 4 is two. As shown in fig. 6, the ultrasonic vibrator 4 includes a first ultrasonic vibrator 41 located in the ultrasonic washing chamber and a second ultrasonic vibrator 42 located at the bottom of the dish washing compartment.

The first ultrasonic vibrator 41 is controlled by the control circuit board, and the way of controlling the first ultrasonic vibrator 41 by the control circuit board is the same as the process of controlling the ultrasonic vibrator 4 by the control circuit board in the first embodiment. The control of the second ultrasonic transducer 42 is controlled by the user. Therefore, the process of the second embodiment can be completed, and ultrasonic vegetable washing can be performed by using the dish washing barrel.

(4) Ultrasonic washing of fruits and vegetables in bowl

S4-1, opening the first door body 2, putting the fruits and vegetables into the bowl washing basket 12, and closing the first door body 2.

S4-2, first pressure sensor senses that first door body 2 is closed in the response module, and second pressure sensor senses that second door body 3 is closed, and control circuit board control water inlet solenoid valve and washing solenoid valve are opened, and inlet tube and washing pipeline all are in the on-state, and the external world can inject the running water into tub 11 through the inlet tube in to tub 11 that washes the dishes, deposits the detergent of intracavity and gets into tub 11 that washes the dishes through the washing pipeline.

S4-3, the sensing module senses the current water inflow injected by the water inlet pipe through the water inlet flowmeter and senses the current detergent amount injected by the washing pipeline through the washing flowmeter; when the current water inflow reaches a preset water inflow value, the control circuit board closes the water inflow electromagnetic valve; when the current detergent amount reaches a detergent amount preset value, the control circuit board closes the washing electromagnetic valve; the automatic control of the injected water inflow and the automatic control of the injected detergent amount are realized. Here, the preset water inflow value and the preset detergent amount value may be fixedly designed by a manufacturer when the dishwasher is built, or may be values which are automatically input by a user using an input device such as a button or a keyboard according to the user's own needs and in combination with specific situations. If the fruits and vegetables do not need detergent during cleaning, the user sets the preset detergent value to be 0.

S4-4, when the current water inflow and the current detergent amount reach preset values, the control circuit board controls the circulation solenoid valve, the water pump 25 and the washing water heater 23 to be started; the circulation electromagnetic valve is opened to conduct the spray water circulation pipeline, and the dish washing water in the dish washing barrel 11 gradually enters the spray water circulation pipeline, the water suction pump 25, the washing water heater 23 and the rotary spray arm 21 under the action of gravity and the water suction pump 25 and then flows out along the water outlet hole of the rotary spray arm 21, so that the fruits and vegetables in the dish washing basket 12 are washed; the water in the dish washing barrel 11 can be recycled for a plurality of times.

If the fruits and vegetables do not need to be washed with hot water, the user can turn off the washing water heater 23; if the fruit and vegetable is cleaned and the requirement for water quality is high, the user can close the water circulation pipeline and the water pump 25.

S4-5, the drain solenoid valve is opened, so that the drain pipe 28 is conducted, and the dish washing water in the dish washing barrel 11 is drained from the drain pipe 28.

Example four:

the difference between the scheme and the second embodiment is that: the right end of the ultrasonic boiler washing chamber 31 is provided with a fixed vibrator table, and the ultrasonic vibrator 4 is detachably connected with the fixed vibrator table; as shown in fig. 7, an ultrasonic table is also provided at the right end of the first door body 2, and the ultrasonic transducer 4 is detachably connected to the ultrasonic table.

In this scheme, the user wants to wash the dishes at tub 11 that washes the dishes, when the ultrasonic wave washes the boiler chamber 31 and washs fruit vegetables, can carry out following operation:

s5-1, the second door 3 is opened, and the ultrasonic vibrator 4 is screwed out from the fixed vibrator table of the ultrasonic wave washing chamber 31, and the ultrasonic vibrator 4 is attached to the ultrasonic wave table.

S5-2, opening the first door body 2, putting bowls and dishes into the bowl washing basket 12, and closing the first door body 2; the preset value of the water inflow is set as the full value of the dish washing barrel 11.

S5-3, executing S3-3-S3-6;

s5-4, opening the second door body 3 by a user, exposing an opening of the pot washing groove in air, putting fruits and vegetables into the ultrasonic pot washing chamber 31, and closing the second door body 3;

s5-5, executing S3-8-S3-11;

s5-6, the user opens the second door body 3, the cleaned fruits and vegetables are taken out from the ultrasonic wave washing boiler chamber 31, and then the second door body 3 is closed.

Example five:

the difference between the scheme and the fourth embodiment is that: as shown in fig. 8, an ultrasonic table is disposed on the right wall of the dishwashing tub 11, and the ultrasonic transducer 4 is detachably connected to the ultrasonic table. The first door body 2 is not provided with an ultrasonic table.

Example six:

compared with the embodiment, the scheme is different from the embodiment in that: as shown in fig. 9 and 10, the first door body 2 of the present solution is a side-opening door, the lower end of the first door body 2 is connected to the middle of the left end of the housing of the machine body 1, the connection mode is a hinge, the upper end of the first door body 2 is a free end, and the first door body 2 can swing. The opening of the bowl washing groove is leftward, the opening of the bowl washing barrel 11 is leftward, the rotary spraying arm 21 is arranged on the upper wall of the bowl washing barrel 11, and the water outlet hole of the rotary spraying arm 21 faces downward

Example seven:

compared with the sixth embodiment, the scheme is different in that: in the scheme, a fixed oscillator table is arranged at the right end of the ultrasonic boiler washing chamber 31, and the ultrasonic oscillator 4 is detachably connected with the fixed oscillator table; as shown in fig. 7, an ultrasonic table is also provided at the right end of the dishwashing tub 11, and the ultrasonic transducer 4 is detachably connected to the ultrasonic table.

S6-1, the second door 3 is opened, and the ultrasonic vibrator 4 is screwed out from the fixed vibrator table of the ultrasonic wave washing chamber 31, and the ultrasonic vibrator 4 is attached to the ultrasonic wave table.

S6-2, opening the first door body 2, putting bowls and dishes into the bowl washing basket 12, and closing the first door body 2; the preset value of the water inflow is set as the full value of the dish washing barrel 11.

S6-3, executing S3-3-S3-6;

s6-4, opening the second door body 3 by a user, exposing an opening of the pot washing groove in air, putting fruits and vegetables into the ultrasonic pot washing chamber 31, and closing the second door body 3;

s6-5, executing S3-8-S3-11;

s6-6, the user opens the second door body 3, the cleaned fruits and vegetables are taken out from the ultrasonic wave washing boiler chamber 31, and then the second door body 3 is closed.

When the user only needs to wash dishes, the user only needs to execute the steps of S6-1, S6-2 and S6-3, and then the water outlet electromagnetic valve is opened to discharge the water in the dish washing barrel. When the user only needs to wash the fruits and vegetables in the ultrasonic wave washing boiler, only the steps of S6-4, S6-5 and S6-6 are needed.

Example eight:

the difference between the scheme and the first embodiment is as follows: the shape of the body 1 is shown in fig. 12. The upper part of the machine body 1 is provided with a pot washing groove with an upward opening, and the side wall of the lower part of the machine body is provided with a bowl washing groove with a leftward opening. The first door body 2 is a side opening door, the lower end of the first door body 2 is connected with the left lower end of the shell of the machine body 1, the connection mode is hinged or connected through a hinge, and the first door body 2 can open and close the bowl washing groove along with the counterclockwise rotation of the first door body 2. The second door body 3 is a top opening door, the lower end of the second door body is connected with the upper right end of the machine body shell, the connection mode is hinged or connected through lotus leaves, and the second door body 3 can open and close the pot washing groove along with the counterclockwise rotation of the second door body 3 in the vertical direction.

The water circulation mechanism comprises a spray water circulation pipeline, a water suction pump 25 and a washing water heater 23, wherein the spray water circulation pipeline comprises a sewer pipe 26, a reclaimed water pipe 24 and an upper water pipe 22. As shown in figure 12, a rotary spray arm 21 is arranged at the top of the bowl washing tank, a water inlet pipe passes through the machine body and is communicated with the rotary spray arm 21, and a water inlet electromagnetic valve (not shown) is arranged on the water inlet pipe. The sewer pipe 26 comprises a sewer main pipe and two sewer auxiliary pipes, the left end of the sewer main pipe is communicated with the two sewer auxiliary pipes through an adapter, the upper ends of the two sewer auxiliary pipes are respectively communicated with the left end and the right end of the bottom wall of the bowl washing groove, the right end of the sewer main pipe is communicated with a water inlet of the water suction pump 25, the left end of the water supply pipe 24 is connected with a water outlet of the water suction pump 25, the right end of the water supply pipe 24 is communicated with a feeding port of the washing water heater 23, the lower end of the water supply pipe 22 is communicated with a discharge port of the washing water heater 23, and the upper end.

An ultrasonic wave boiler washing chamber 31 with an upward opening is arranged in the boiler washing groove, the bottom of the ultrasonic wave boiler washing chamber 31 is communicated with a drain pipe 28 and a boiler washing inlet pipe 32, a boiler washing electromagnetic valve is arranged on the boiler washing inlet pipe 32, a drain electromagnetic valve is arranged on the drain pipe 28, a water through hole is formed in the side wall of the upper water pipe 22, and the boiler washing inlet pipe 32 is communicated with the upper water pipe 22 through the water through hole; the bottom of the ultrasonic wave boiler washing chamber 31 is provided with an ultrasonic wave vibrator 4.

In this scheme, the user need wash the dishes or when washing the dish, can open first door body 2, put into bowl or dish and wash bowl basket 12, open the solenoid valve of intaking, use external water resource to spray through rotatory spray arm 21 to the basket 12 that washes the dishes in, realize washing of bowl dish. When a user needs to wash the pot, the pot is placed in the pot washing chamber, water in the dish washing groove is extracted by the water pump 25, passes through the washing water heater 23 and enters the pot washing water inlet pipe 32 through the water feeding pipe 22, and therefore water is supplied to the pot washing chamber for washing the pot.

Example nine

A dishwasher with ultrasonic cleaning vibrators for washing a boiler independently comprises a machine body 1, wherein the shape of the machine body 1 is shown in figure 13. The upper part of the machine body 1 is provided with a comprehensive groove with an upward opening, the middle part of the side wall of the comprehensive groove is oppositely provided with a pair of baffle plates, the left end of the left baffle plate is connected with the left wall of the comprehensive groove through a hinge, the right end of the right baffle plate is connected with the right wall of the comprehensive groove through a hinge, the left wall of the comprehensive groove is welded with a left fixed block below the left baffle plate, and the right wall of the comprehensive groove is welded with a right fixed block below the right baffle plate; relative rotation left side baffle and right side baffle, left side baffle can be supported by left fixed block, and right side baffle can be supported by right fixed block. Two feet at the lower end of the bowl washing basket can be simultaneously and respectively positioned on the left side baffle and the right side baffle; thus rotating the baffle allows the baffle to support the dishwashing basket.

The bottom wall of the comprehensive groove is provided with a protrusion, the protrusion is provided with an ultrasonic oscillator, the left side wall of the comprehensive groove is provided with an ultrasonic oscillator below the left baffle, and the right side wall of the comprehensive groove is provided with an ultrasonic oscillator below the right baffle. The first door body is a top-opening door, the right end of the first door body is connected with the right end of the machine body shell in a hinged mode or a hinge mode; along with the rotation of the first door body, the first door body can open and close the integrated groove.

As shown in fig. 13, a rotary spray arm 21 is installed on the left inner wall of the first door body, the water inlet pipe passes through the machine body 1 and is communicated with the rotary spray arm 21, and a water inlet electromagnetic valve (not shown) is installed on the water inlet pipe. The water circulation mechanism comprises a spray water circulation pipeline, a water suction pump 25 and a washing water heater 23, wherein the spray water circulation pipeline comprises a sewer pipe 26, a reclaimed water pipe 24 and an upper water pipe 22. The sewer pipe 26 comprises a main sewer pipe and two auxiliary sewer pipes, the left end of the main sewer pipe is communicated with the two auxiliary sewer pipes through an adapter, the upper ends of the two auxiliary sewer pipes are respectively communicated with the left end and the right end of the bottom wall of the comprehensive groove, the right end of the main sewer pipe is communicated with a water inlet of the water suction pump 25, the left end of the middle water pipe 24 is connected with a water outlet of the water suction pump 25, the right end of the middle water pipe 24 is communicated with a feeding port of the washing water heater 23, the lower end of the upper water pipe 22 is communicated with a discharge port of the washing water heater 23, and the upper end of. The bottom of the comprehensive tank is also provided with a drain pipe, and a drain electromagnetic valve is arranged on the drain pipe.

When a user only needs to wash dishes, the user rotates the left baffle rightwards and the right baffle leftwards, the dish washing basket 12 is placed on the left baffle and the right baffle, the water inlet electromagnetic valve is opened, and the externally-connected water reaches the rotary spraying arm 21 through the water inlet pipeline, so that the dishes and the vegetables in the dish washing basket 12 in the comprehensive trough are cleaned; the cleaned water passes through the sewer pipe 26, the water pump 25, the middle water pipe 24, the washing water heater 23 and the upper water pipe 22 heater, and then passes through the rotary spray arm 21 again to wash bowls and dishes.

When a user needs to wash the pot, the left side baffle and the right side baffle are reset (attached to the side wall of the comprehensive groove), the pot is reversely buckled as shown in fig. 13 and is placed into the comprehensive groove, the water inlet electromagnetic valve is opened to inject water into the comprehensive groove, the ultrasonic vibrator 4 is opened after the pot body is submerged, the pot body is cleaned, the water discharge electromagnetic valve is opened, and water in the comprehensive groove is discharged.

The above description is only for the embodiments of the present invention, and the common general knowledge of the known specific structures and characteristics in the schemes is not described herein too much, and those skilled in the art will know all the common technical knowledge in the technical field of the present invention before the application date or the priority date, can know all the prior art in this field, and have the ability to apply the conventional experimental means before this date, and those skilled in the art can combine their own ability to perfect and implement the schemes, and some typical known structures or known methods should not become obstacles for those skilled in the art to implement the present application. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several modifications and improvements can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims (10)

1. Take independent dish washer of washing boiler room of ultrasonic cleaning oscillator, its characterized in that: the machine body is formed by modifying a spray type dish washing machine, a pot washing groove is formed in the machine body, an ultrasonic pot washing chamber is arranged in the pot washing groove, and an ultrasonic device for washing a pot is arranged in the ultrasonic pot washing chamber.

2. The dishwasher with an ultrasonic cleaning vibrator for washing a boiler independently as claimed in claim 1, wherein: the upper part of the machine body is provided with a bowl washing groove, and the boiler washing groove is arranged on the side wall of the lower part of the machine body; the machine body also comprises a water injection mechanism, a washing mechanism, a water circulation mechanism, an induction module and a control circuit board;

a dish washing barrel is arranged in the dish washing groove, a dish washing basket used for placing dishes is further arranged at the upper part of the dish washing barrel, and the machine body further comprises a first door body used for closing the dish washing groove; the water injection mechanism comprises a water inlet pipe for injecting tap water into the dish washing barrel and a water inlet electromagnetic valve arranged on the water inlet pipe; the washing mechanism comprises a storage cavity, a washing pipeline and a washing electromagnetic valve, wherein the storage cavity is arranged on the first door body and used for storing detergent, the two ends of the washing pipeline are respectively communicated with the bottom of the storage cavity and the dish washing barrel, and the washing electromagnetic valve is arranged on the washing pipeline; the water circulation mechanism comprises a water suction pump, a washing water heater, a rotary spray arm arranged above the inner wall of the dish washing barrel and a spray water circulation pipeline provided with a circulation solenoid valve, the spray water circulation pipeline comprises a downcomer, a middle water pipe and an upper water pipe, one end of the downcomer is communicated with the bottom of the dish washing barrel, the other end of the downcomer is communicated with the water suction pump, one end of the middle water pipe is connected with a water outlet of the water suction pump, the other end of the middle water pipe is communicated with a feed inlet of the washing water heater, one section of the upper water pipe is communicated with a discharge outlet of the washing water heater, the other end of the upper water pipe is communicated with the rotary spray arm;

the machine body also comprises a second door body used for closing the boiler washing groove; the bottom of the dish washing barrel is communicated with the ultrasonic wave washing chamber through a washing pot water inlet pipe, and a washing pot electromagnetic valve is arranged on the washing pot water inlet pipe; the ultrasonic wave washing boiler chamber is also communicated with an external water pipeline, and is provided with an external water door for opening and closing the external water pipeline;

the induction module is used for sensing whether the first door body and the second door body both close the dish washing tank and the pot washing tank, and the control circuit board controls the starting of the water inlet electromagnetic valve in the water injection mechanism and the starting of the washing electromagnetic valve in the washing mechanism according to the conditions sensed by the induction module; the induction module is also used for sensing the current water inflow injected by the water inlet pipe after the water inlet electromagnetic valve is opened, and the control circuit board controls the water inlet electromagnetic valve to be closed according to the current water inflow; the induction module is also used for sensing the current detergent amount injected into the washing pipeline after the washing electromagnetic valve is opened, and the control circuit board controls the washing electromagnetic valve to be closed according to the current detergent amount; the control circuit board is also used for controlling the on-off of the circulating electromagnetic valve and the water pump according to the current water inflow and the current detergent amount;

the induction module is also used for inducing the current water level information in the ultrasonic wave boiler washing chamber and the closing condition of the additional water door; when the water level in the ultrasonic wave boiler washing chamber reaches the highest level and the additional water door is closed, the control circuit board controls the ultrasonic vibrator to start.

3. The dishwasher with an ultrasonic cleaning vibrator for washing a boiler independently as claimed in claim 1, wherein: the machine body also comprises a timing module, and the control circuit board also controls the timing module to start for timing when the control circuit board controls the ultrasonic vibrator to start; the control circuit board also controls the ultrasonic vibrator to be closed according to the current timing information of the timing module.

4. The dishwasher with an ultrasonic cleaning vibrator for washing a boiler independently as claimed in claim 1, wherein: a drain pipe is further arranged in the ultrasonic wave boiler washing chamber, a drain electromagnetic valve is arranged in the drain pipe, and when the control circuit board controls the ultrasonic wave vibrator to be closed, the control circuit board also controls the drain electromagnetic valve to be started; when the current water level information reaches 0, the control circuit board controls the drainage electromagnetic valve to be closed.

5. The dishwasher with an ultrasonic cleaning vibrator for washing a boiler independently as claimed in claim 2, wherein: the ultrasonic vibrator in the ultrasonic washing boiler chamber is detachable, the ultrasonic table is installed on the dish washing barrel, and the ultrasonic table is used for installing the detachable ultrasonic vibrator.

6. The dishwasher with an ultrasonic cleaning vibrator for washing a boiler independently as claimed in claim 2, wherein: the first door body is a top opening door, the top of the dish washing barrel is opened, and the top opening door can completely shield the dish washing barrel.

7. The dishwasher with an ultrasonic cleaning vibrator for washing a boiler independently as claimed in claim 2, wherein: the first door body is a side opening door, the side part of the dish washing barrel is opened, and the side opening door can completely shield the dish washing barrel.

8. The dishwasher with an ultrasonic cleaning vibrator for washing a boiler independently as claimed in claim 2, wherein: the bottom of the dish washing barrel is provided with a water outlet pipe, and a water outlet electromagnetic valve is arranged on the water outlet pipe.

9. The dishwasher with an ultrasonic cleaning vibrator for washing a boiler independently as claimed in claim 2, wherein: the dishwashing basket can be removed from the dishwashing tub.

10. The dishwasher with ultrasonic cleaning vibrator for washing a boiler independently according to any one of claims 1 to 8, characterized in that: the induction module comprises a first pressure sensor which is arranged on the machine body and used for sensing whether the first door body is closed or not, a first magnet is arranged on the first door body, and a first iron sheet is arranged at the position, corresponding to the first door body, of the machine body; the induction module comprises a second pressure sensor which is arranged on the induction module and used for inducing a second door body, a second magnet is arranged on the second door body, and a second iron sheet is arranged on the machine body corresponding to the second door body; the induction module comprises a water inlet flow meter arranged on the water inlet pipe, and the water inlet flow meter is used for sensing the current water inflow flowing through the water inlet pipe after the water inlet electromagnetic valve is opened; the induction module comprises a washing flowmeter arranged on the washing pipeline, and the washing flowmeter is used for sensing the current detergent amount circulating in the washing pipeline after the washing electromagnetic valve is opened; the induction module also comprises a water level sensor arranged at the top of the ultrasonic wave boiler washing chamber, and the water level sensor is used for inducing the current water level information in the ultrasonic wave boiler washing chamber; the induction module further comprises a third pressure sensor arranged at the position, corresponding to the outer water gate, of the machine body, a third magnet is arranged on the outer water gate, and a third iron sheet is arranged at the position, corresponding to the outer water gate, of the machine body.

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