CN210383825U - Intelligent cleaning machine - Google Patents

Abstract

The utility model relates to an intelligent cleaning machine, including the cell body that has the washing chamber, set up the control circuit board outside the cell body, the bottom of cell body is provided with the outlet, be connected with the drain pipe on the outlet, be provided with the drain valve of being connected with the control circuit board electricity on the drain pipe, the matching is installed in the drain pipe and is gathered the sediment basket, be provided with the first turbidity sensor that is used for detecting the interior turbidity condition of washing intracavity in the cell body, be provided with the second turbidity sensor that is used for detecting the sediment condition of gathering in the sediment basket corresponding to the outlet position in the cell body, first turbidity sensor and second turbidity sensor are connected with the control circuit board electricity respectively. The utility model provides an intelligence cleaning machine detects the turbidity condition of wasing water through first turbidity sensor for the cleaning process uses intelligence more, convenience. The second turbidity sensor is used for controlling the discharge of the residues, so that the re-pollution of the residues to cleaning is avoided, the cleaning efficiency is improved, and more water and electricity are saved.

Description

Intelligent cleaning machine

Technical Field

The utility model relates to a cleaning machine technical field, concretely relates to intelligence cleaning machine.

Background

Washing machines for use in kitchens, which can also be referred to as dishwashers, are capable of automatically cleaning dishes, chopsticks, dishes, knives, forks and the like. When the existing dish washing machine is used, the cleaning degree of the to-be-washed objects is usually required to be manually set, so that the working time of the dish washing machine, the water inflow, the action parameters of the drain valve and other data are controlled, the data are set in advance, and the adaptability can not be adjusted in the working process. In the course of operating the dishwasher in this manner, there is no judgment as to whether the dishes are washed clean, and thus the following situation occurs: firstly, dishes are cleaned in the cleaning process, but the dish washing machine can still work by water inflow, so that water, electricity and user time are wasted to a great extent, and the service life of the dish washing machine is also reduced; secondly, the dishes are not cleaned, but the set program running time is finished, and the customers can find that the tableware is not cleaned after opening the dishwasher, so that the customer experience is influenced.

Chinese utility model patent publication No. CN108968861A (application No. 201811007858.5) 'a dish washing method and dish washing machine for dish washing machine', wherein the dish washing method for dish washing machine disclosed therein comprises a washing step, a rinsing step, a drying step, by setting a pre-washing step before the washing step: adding water with the capacity of C1 into a water tank and heating the water to a temperature of T1, pausing for a time of T2 after a washing pump works for a time of T1, obtaining the turbidity of the water by a turbidity sensor, determining a dish washing mode according to the turbidity of the water obtained by the turbidity sensor by a dish washing machine, adding the water with a certain capacity, heating the water to a certain temperature, washing for a period of time, pausing for a period of time, detecting the turbidity of the water by the turbidity sensor finally, determining the dish washing mode, namely adding a quick, accurate and efficient pre-washing program, and detecting the mode of determining the dish washing mode by the turbidity sensor. And between two different dish washing modes, the water draining work is carried out before the previous dish washing mode is stopped. The washing time of each mode of washing dishes of this in-process is fixed to the time of drainage is also definite, has set up turbidity sensor and has been used for detecting the turbidity condition of wasing water quality, has reduced abluent time to a certain extent, but this in-process can not carry out real-time adjustment according to the real-time turbidity condition of washing water, and the corresponding waste that can cause water yield, electric quantity. In addition, during the cleaning process, dirt and slag are difficultly accumulated at the slag collecting basket, but the residues cannot be removed in time, and the residues can enter the cleaning area again along with the water flow and further adhere to the tableware, so that repeated cleaning is still needed, and the cleaning efficiency is greatly reduced.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that an intelligence cleaning machine that can in time discharge the residue improves the cleaning efficiency is provided to above-mentioned prior art.

The utility model provides a technical scheme that above-mentioned problem adopted does: an intelligent cleaning machine comprises

The cleaning device comprises a tank body, a cleaning cavity and a water outlet, wherein the tank body is internally provided with the cleaning cavity;

the control circuit board is arranged outside the groove body;

the water discharge pipe is connected to the water discharge port;

the drain valve is arranged on the drain pipe and is electrically connected with the control circuit board;

the slag collecting basket is arranged in the water drainage port in a matching manner, and the bottom of the slag collecting basket is provided with a hole;

the method is characterized in that: also comprises

The first turbidity sensor is arranged in the groove body, is electrically connected with the control circuit board and is used for detecting the turbidity condition in the cleaning cavity;

and the second turbidity sensor is arranged in the groove body corresponding to the position of the water outlet and is electrically connected with the control circuit board, and is used for detecting the slag collecting condition in the slag collecting basket.

Optionally, the slag collecting basket is fixedly arranged in the water drainage port, and the second turbidity sensor is fixedly arranged on the slag collecting basket and located in a slag collecting area of the slag collecting basket.

Optionally, the slag collecting basket is detachably arranged in the water drainage port, the second turbidity sensor is fixedly arranged in the water drainage port and located below the slag collecting basket, and the detection end of the second turbidity sensor extends upwards from the slag collecting basket to a slag collecting area of the slag collecting basket.

Preferably, the second turbidity sensor comprises a light emitting piece and a light receiving piece, and the light emitting piece and the light receiving piece are oppositely arranged at two sides of the slag collecting area of the slag collecting basket.

In order to better collect residues in the cleaning process and reduce the recontamination of the residues in the cleaning process as much as possible, the bottom plate of the tank body is provided with a concave area which is concave downwards, and a draining plate with draining holes is covered on the concave area in a matching manner;

the water outlet is positioned in the depressed area, and the draining plate is provided with a mounting hole for matching and mounting the upper end of the slag collecting basket.

In order to guide the residue in the cleaning process to the residue collecting basket as fast as possible, the draining plate is arranged from the periphery to the mounting hole in a gradually downward inclined mode.

In order to more accurately reflect the turbidity of the washing water in the current washing process, the first turbidity sensor is arranged in the concave area.

Compared with the prior art, the utility model has the advantages of: the utility model provides an intelligence cleaning machine is carrying out the cleaning process, can detect the turbidity condition of wasing water through first turbidity sensor, detects the collection sediment condition in the sediment basket through second turbidity sensor, then can control in time to carry out the drainage when detecting the more condition of the sediment that appears gathering, and then with the residue discharge, avoids the residue to abluent recontamination, so can improve the cleaning efficiency, economizes on water more and economizes on electricity. Whether the washing process can be automatically controlled to stop or not according to the turbidity data detected by the first turbidity sensor, a washing mode is not required to be specially selected by a user, and the washing machine is more intelligent and convenient to use.

Drawings

Fig. 1 is a perspective view of the intelligent cleaning machine in the embodiment of the present invention.

Fig. 2 is a top view of the embodiment of the present invention.

Fig. 3 is the embodiment of the utility model provides an in the embodiment of the top view that intelligent cleaning machine removed the waterlogging caused by excessive rainfall board.

Fig. 4 is the embodiment of the utility model provides an in the embodiment of the cross-sectional view of intelligent cleaning machine.

Detailed Description

The present invention will be described in further detail with reference to the following embodiments.

As shown in fig. 1 to 4, the intelligent washing machine in the present embodiment may be used to wash dishes, vegetables, fruits, and the like.

This intelligence cleaning machine includes cell body 1, apron, washing structure 8, inlet structure 9, control circuit board 2, drainage structures, collection sediment basket 5, first turbidity sensor 6, second turbidity sensor 7.

Wherein the trough body 1 can be domestic ordinary basin, and the inside of this trough body 1 has the washing chamber, and the opening in 1 upper portion of trough body, apron (not shown in the figure) then can the pivoted connect in one side of trough body 1, and then can cover and open the opening in 1 upper portion of trough body, when the apron is closed, then the washing chamber then constitutes confined washing space to hold foretell bowl dish, vegetables, fruit etc. wash it.

The control circuit board 2 can be arranged at any position outside the tank body 1, and is specifically determined according to the specific installation position of the tank body 1, and the control circuit board 2 in the embodiment is installed below the tank body 1.

The bottom plate of the tank body 1 is at least recessed in the central part to form a recessed area 12, a draining plate 13 which is the same as the recessed area 12 in shape is covered above the recessed area 12 of the bottom plate, a plurality of draining holes for draining are formed in the draining plate 13, a draining area is formed in the space between the draining plate 13 and the recessed area 12 of the bottom plate at intervals, and the draining plate 13 is flush with other parts of the bottom plate of the tank body 1. Alternatively, the depression 12 may be formed such that a portion of the floor is missing, a box is provided below the missing portion, the draining board 13 is laid over the box and flush with the rest of the floor, and the space between the box and the draining board 13 forms a draining area. Alternatively, the draining board 13 may be the same shape and size as the bottom board and be located entirely above the bottom board and spaced therefrom, with the space between the draining board 13 and the bottom board forming the draining area. The first turbidity sensor 6 is fixedly arranged in a draining area at the bottom of the tank body 1, and the first turbidity sensor 6 can effectively detect the turbidity data of cleaning water in the cleaning process. This first turbidity sensor 6 is connected with control circuit board 2 electricity, and the turbidity data that first turbidity sensor 6 detected to acquire send control circuit board 2 in real time, and then control circuit board 2 washs structure 8, structure 9, the drainage structures and carries out the cooperation work according to the turbidity data control that detects. The first turbidity sensor 6 can adopt any turbidity sensor in the prior art, and the first turbidity sensor 6 in the embodiment adopts a light sensor, and the first turbidity sensor 6 comprises a light emitting piece and a light receiving piece which are oppositely arranged.

The cleaning structure 8 in this embodiment may adopt various cleaning structures 8 in the prior art, the water inlet structure 9 may adopt various water inlet structures 9 in the prior art, for example, the cleaning structure 8 and the water inlet structure 9 disclosed in the chinese patent of "a water tank type cleaning machine" with patent number 201310750968.1, or the cleaning structure 8 and the water inlet structure 9 in the chinese patent of "a cleaning machine" with application number 201710712915.9, etc., may be adopted, and the cleaning structure 8 and the water inlet structure 9 are electrically connected to the control circuit board 2, respectively, so as to operate under the control of the control circuit board 2. When the washing machine works, under the control of the control circuit board 2, the water pump in the draining area in the washing structure 8 pumps water out of the draining area to the spraying arm above the draining plate 13 in the washing structure 8, and washing objects such as dishes, vegetables, fruits and the like are washed through the spraying arm. And the residue filth can fall back along with the shower water on the cleaning object, under the effect of waterlogging caused by excessive rainfall board 13, filters the residue of wasing out, avoids the residue to enter into the waterlogging caused by excessive rainfall region, and then has avoided the influence to the water pump.

This intelligent cleaning machine's drainage structures as follows: the bottom of the tank body 1 is provided with a water outlet 11, in the embodiment, the water outlet 11 is arranged on a bottom plate sunken area 12, the water outlet 11 is connected with a drain pipe 3, the drain pipe 3 extends downwards from the water outlet 11 and is connected to a household drainage system, the drain pipe 3 is provided with a drain valve 4, the drain valve 4 is electrically connected with the control circuit board 2, and the drain valve 4 is opened or closed under the control of the control circuit board 2 to correspondingly control the on-off of the drain pipe 3. A water amount sensor electrically connected to the control circuit board 2 may be further provided on the drain pipe 3 for detecting the amount of water drained.

The slag collecting basket 5 is arranged in the water draining area, the middle part of the slag collecting basket 5 is provided with a cavity forming a slag collecting area, the upper part of the slag collecting basket 5 is opened, the bottom of the slag collecting basket 5 is provided with a hole 51, and a residue inlet can be arranged on the side wall of the slag collecting basket 5 as required. The bottom of the slag collecting basket 5 is fixedly or detachably arranged in the water outlet 11. The draining plate 13 is provided with a mounting hole for matching and mounting the upper end of the slag collecting basket 5, the upper end of the slag collecting basket 5 is clamped in the mounting hole, and the upper end of the slag collecting basket 5 is lower than or flush with the draining plate 13. The upper end of the slag collection basket 5 may also be slightly above the draining plate 13, but it is desirable to have the upper end of the slag inlet of the slag collection basket 5 below or flush with the draining plate 13. For containing the cleaned residue. Draining board 13 sets up from periphery to mounting hole position downward sloping gradually, so can make things convenient for the filterable residue on draining board 13 to concentrate fast to in the sediment collection basket 5. The second turbidity sensor 7 is arranged in the tank body 1 corresponding to the position of the water outlet 11 and is electrically connected with the control circuit board 2 for detecting the slag collecting condition in the slag collecting basket 5. The second turbidity sensor 7 comprises a light emitting piece and a light receiving piece, and the light emitting piece and the light receiving piece are arranged on two sides of the slag collecting area of the slag collecting basket 5 relatively.

The specific installation manner of the second turbidity sensor 7 can be adjusted according to actual conditions, and two installation manners of the second turbidity sensor 7 are given in this embodiment: the slag collecting basket 5 is fixedly arranged in the water outlet 11, and the second turbidity sensor 7 is fixedly arranged on the slag collecting basket 5 and is positioned in a slag collecting area of the slag collecting basket 5; the setting that collection sediment basket 5 can be dismantled is in outlet 11, and the fixed setting of second turbidity sensor 7 is in outlet 11 and is located the below of collection sediment basket 5, and the light emitting piece and the light receiving piece that second turbidity sensor 7 was held as the detection end pass upwards to stretch out to the collection sediment district of collection sediment basket 5 in collection sediment basket 5.

The working process of the intelligent cleaning machine is as follows: the structure 9 of intaking is controlled to control circuit board 2, and the simultaneous control closes drain valve 4, and after the intaking reached the required water yield, control circuit board 2 control washs structure 8 and carries out work, and then washs the article of intracavity, and along with abluent the going on, the turbidity of the regional interior water of waterlogging caused by excessive rainfall increases gradually, and the top of waterlogging caused by excessive rainfall board 13 also can constantly filter the residue simultaneously, and then concentrates on in the collection sediment district to collection sediment basket 5 again.

The main flow of cleaning is as follows: in the washing process at every turn, after washing a period of time, if the turbidity data change that first turbidity sensor 6 detected changes in less within range, then control circuit board 2 controls current cleaning efficiency to descend, and then control opens drain valve 4, carries out the drainage.

And after the drainage is finished, the water inlet is controlled again, and then the cleaning work is carried out according to the main flow of cleaning. After rinsing a period, the turbidity data that first turbidity sensor 6 detected change little and all satisfy the turbidity data scope that clean state corresponds, then control circuit board 2 judges to accomplish the washing, and then control is opened drain valve 4, carries out the drainage, so accomplishes the cleaning work.

Through first turbidity sensor 6, can automatic control treat the washing number of times and the washing intensity of wasing the thing, need not user artificial setting washing mode again, it is more intelligent convenient to use.

And in the main cleaning process, if the turbidity data of the slag collecting area of the slag collecting basket 5 detected by the second turbidity sensor 7 meets the excessive data range of the residues, the control circuit board 2 controls the cleaning structure 8 to stop working, and then controls the opening of the drain valve 4, and further drains water. Since the washer is used by customers who are required to dispose of large food residues, the particles of the residues collected in the residue collecting area of the residue collecting basket 5 are small, and the residues can be discharged from the water outlet 11 along with the water flow. Under the circumstances that the residue was discharged, turbidity sensor 7 was then the turbidity data in the sediment district of real-time detection collection sediment basket 5, and then conveniently judges the discharge conditions of residue, when control circuit board 2 judged according to the turbidity data of second turbidity sensor 7 conveying that the residue in the sediment district of collection sediment basket 5 discharged totally basically, then control closed drain valve 4, stopped the drainage. And then the control circuit board 2 controls the water inlet structure 9 to enter the corresponding water quantity according to the water displacement data detected and obtained by the water quantity sensor to restart the cleaning process. After the residues are discharged, the residues can be prevented from being attached to the object to be cleaned again under the action of the spray arm and being repeatedly washed, so that the cleaning efficiency is improved, and water and electricity are saved.

Claims (7)

1. An intelligent cleaning machine comprises

The cleaning device comprises a tank body (1), a cleaning cavity is arranged in the tank body (1), and a water outlet (11) is formed in the bottom of the tank body (1);

the control circuit board (2) is arranged outside the tank body (1);

a drain pipe (3) connected to the drain port (11);

the drain valve (4) is arranged on the drain pipe (3) and is electrically connected with the control circuit board (2);

the slag collecting basket (5) is arranged in the water outlet (11) in a matching mode, and a hole (51) is formed in the bottom of the slag collecting basket (5);

the method is characterized in that: also comprises

The first turbidity sensor (6) is arranged in the tank body (1), is electrically connected with the control circuit board (2) and is used for detecting the turbidity condition in the cleaning cavity;

and the second turbidity sensor (7) is arranged in the tank body (1) corresponding to the position of the water outlet (11) and is electrically connected with the control circuit board (2) and used for detecting the slag collecting condition in the slag collecting basket (5).

2. The intelligent cleaning machine according to claim 1, wherein: the slag collecting basket (5) is fixedly arranged in the water outlet (11), and the second turbidity sensor (7) is fixedly arranged on the slag collecting basket (5) and is located in a slag collecting area of the slag collecting basket (5).

3. The intelligent cleaning machine according to claim 1, wherein: the removable slag collecting basket (5) is arranged in the water outlet (11), the second turbidity sensor (7) is fixedly arranged in the water outlet (11) and positioned below the slag collecting basket (5), and the detection end of the second turbidity sensor (7) upwards extends out of the slag collecting basket (5) from the slag collecting basket (5) to a slag collecting area of the slag collecting basket (5).

4. The intelligent cleaning machine according to claim 2 or 3, characterized in that: the second turbidity sensor (7) comprises a light emitting piece and a light receiving piece, and the light emitting piece and the light receiving piece are arranged on two sides of the slag collecting area of the slag collecting basket (5) relatively.

5. The intelligent cleaning machine according to claim 1, wherein: a bottom plate of the tank body (1) is provided with a sunken area (12) which is arranged in a sunken way, and a draining plate (13) with draining holes is arranged on the sunken area (12) in a matched and covered way;

the water outlet (11) is positioned in the depressed area (12), and the draining plate (13) is provided with a mounting hole for matching and mounting the upper end of the slag collecting basket (5).

6. The intelligent cleaning machine according to claim 5, wherein: the draining plate (13) is gradually and downwards inclined from the periphery to the position of the mounting hole.

7. The intelligent cleaning machine according to claim 5, wherein: the first turbidity sensor (6) is arranged in the recess (12).

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