CN218451363U

CN218451363U - Fruit and vegetable cleaning device

Info

Publication number: CN218451363U
Application number: CN202121548822.5U
Authority: CN
Inventors: 黄智勇
Original assignee: Cixi Bosheng Plastic Co Ltd
Current assignee: Cixi Bosheng Plastic Co Ltd
Priority date: 2021-07-08
Filing date: 2021-07-08
Publication date: 2023-02-07
Anticipated expiration: 2031-07-08

Abstract

A fruit and vegetable cleaning device comprises a container, a scrubber, a baffle part and a circulating driving mechanism, wherein a circulating channel is formed in the container, the circulating channel comprises a fruit and vegetable flowing temporary storage area and a scrubbing area which are communicated, and the circulating channel can provide a cleaning solution and a fruit and vegetable circulating flowing passage when the fruit and vegetable are cleaned; the brushing device is arranged in the brushing area and can brush the passing fruits and vegetables when the fruits and vegetables are washed; the baffle is arranged in the container, the circulating channel surrounds the baffle, and the minimum height of the baffle is 1/5 of the height of the container; the circulating driving mechanism is used for providing driving force so as to drive the cleaning liquid and the fruits and the vegetables to circularly flow in the circulating channel when the fruits and the vegetables are cleaned, the fruits and the vegetables sequentially pass through the brushing area to be brushed, and the cleaning effect of the fruits and the vegetables is better.

Description

Fruit and vegetable cleaning device

Technical Field

The utility model relates to a fruit vegetables belt cleaning device for rinsing fruit vegetables.

Background

CN209219203U all discloses a domestic fruit belt cleaning device, and the device is including the washing case that is used for holding fruit, has violently put the pivot in wasing the case, is equipped with the brush strip in the pivot. When the fruit washing device is used, fruits to be washed and cleaning water are put into the washing box, the rotating handle is manually rotated to drive the rotating shaft to rotate, the bristles of the brush strips are used for rotating, the fruits roll in the water, and the bristles are used for washing the surfaces of the fruits. It has the disadvantages that: in the cleaning box, when the brush rotates, due to the action of centrifugal force, fruits approach the wall surface of the cleaning box along with the rotation of water flow and the brush, the fruits with high density (relative to water) can sink to the edge of the bottom of the cleaning box, the fruits with low density (relative to water) can float to the edge of the water surface in the cleaning box, most of the fruits are thrown away from the brush, and only a small part of the fruits can be contacted with the brush to be scrubbed, so that the household fruit cleaning device cannot uniformly clean the fruits, particularly when the quantity of the fruits is small, no fruits can be contacted with the rotating brush, no fruits are cleaned by the brush, and the cleaning effect is poor; in addition, the amount of fruit that can be washed by such a household fruit washing device is limited, and if a larger amount of fruit is to be washed, the volume of the washing tank needs to be increased correspondingly, and the size of the brush also needs to be increased.

CN104287650A discloses a fruit cleaning basket, including holding the case and disturbance belt cleaning device, disturbance belt cleaning device includes handle, U-shaped connecting rod and cleaning roller, when using, packs into clear water in holding the case, puts the fruit of waiting to wash into holding the case, rotates the handle, and the cleaning roller can be constantly disturbance the fruit of waiting to wash, and the brush hair on cleaning roller upper portion can wash spot and residual pesticide on the fruit surface simultaneously. It has the disadvantages that: in disturbance belt cleaning device, horizontal cleaning roller can only follow circular arc path disturbance/stir its fruit on the route of passing through, fruit can concentrate to disturbance belt cleaning device's corner, be chaotic unordered to the washing of fruit, to density big (for water) and bulky fruit, the cleaning roller disturbance leads to fruit to collide with easily, to density big (for water) and the less fruit of volume, the fruit of disturbance belt cleaning device bottom can not disturbed mostly, the cleaning performance is poor. Also, the disturbance cleaning device may contain a limited amount of fruit, and if a larger amount of fruit is to be cleaned, the volume of the disturbance cleaning device is increased accordingly, as well as the size of the cleaning roller.

CN204104777U discloses a vegetables and fruits decontamination bucket, including wash bucket and gyration belt cleaning device, the middle part of washing bucket upwards is provided with sunken along the central line direction of washing bucket, and gyration belt cleaning device includes handheld pole, U-shaped connecting rod and the decontamination roller of vertical setting, and handheld pole is located the bung top and fixes the one end at the connecting rod, and the decontamination roller is fixed at the other end of connecting rod, and the decontamination roller includes roller bearing and round brush. When the fruit cleaning device is used, clear water is filled in the cleaning barrel, fruits to be cleaned are placed in the cleaning barrel, the rotary cleaning device is disturbed, the cleaning roller can continuously disturb the fruits to be cleaned, and meanwhile the brush bristles on the upper portion of the cleaning roller can clean stains and residual pesticides on the surfaces of the fruits. Compared with the fruit cleaning basket of CN104287650A, the fruit cleaning basket only solves the defect that fruits can be concentrated to the corners of the disturbance cleaning device, the problem that the fruits are washed chaotically and disorderly still exists, the risk of fruit collision is increased due to the arrangement of the recess, and when the fruits with large volume are cleaned, the decontamination roller is blocked by the fruits more easily.

CN105795492A, CN107280525A, CN108576866A, CN108813658a discloses a fruit cleaning device, which comprises a container for holding fruits, and a brush is vertically arranged in the container. When the fruit cleaning device is used, fruits are placed in the container, water is injected into the container, the brush rotates automatically or rotates along the circumferential direction of the container (CN 108813658A), so that spiral water flow is generated in the container, the fruits rotate spirally in the container along with the water flow, and the brush cleans the fruits which move relatively. It has the disadvantages that: because the brush rotation or along circumferential direction and produce spiral rivers, the fruit in the spiral rivers is the same basically with brush pivoted angular velocity, consequently, the relative motion between brush and the fruit is very little, and the cleaning performance of brush to fruit is extremely limited, that is to say, brush, water and fruit can be in step rotation in the container, and the brush can not play the cleaning action to fruit basically. Moreover, due to the action of centrifugal force, most fruits in the spiral water flow are thrown away from the side wall of the container, only a small number of fruits can be in contact with the hairbrush to be scrubbed, and the cleaning effect is poor. Also, the containers have a limited amount of fruit that can be contained, and if a larger amount of fruit is to be washed, the container volume needs to be correspondingly increased, as well as the size of the brush.

CN209058078U discloses a cleaning equipment of fruit products, compared with CN108813658A, a stirring shaft provided with a brush rotates, and can brush fruits in relative motion, but the structure is complex, the fruit cleaning equipment can only be driven by electricity and cannot be operated manually, and the cleaning of the fruits is still chaotic and disordered.

Therefore, the fruit cleaning equipment in the prior art has the following defects:

(1) The fruit is washed unevenly, chaotic and disordered, and the fruit cannot be brushed evenly;

(2) The capacity of the fruit cleaning container is limited, if the cleaning amount of the fruits is increased, the volume of the fruit cleaning container needs to be increased integrally, and the size of a brush or a cleaning roller needs to be increased;

(3) The brush or the cleaning roller is wholly immersed in water in the circumferential direction, the rotation resistance is large, large rotating force is needed for rotation, and manual operation is laborious.

Disclosure of Invention

In order to overcome the above-mentioned not enough of current fruit vegetables belt cleaning device, the utility model provides a can hold more fruit vegetables, cleaning performance better, difficult damage fruit vegetables's fruit vegetables belt cleaning device.

The technical proposal of the utility model for solving the technical problem is that: a fruit and vegetable cleaning device comprises a container, a scrubber, a baffle part and a circulating driving mechanism,

the container is provided with a circulating channel, the circulating channel comprises a temporary storage area and a brushing area which are communicated, and the circulating channel can provide a passage for the cleaning liquid and the fruit and vegetable to flow circularly when the fruit and vegetable are cleaned;

the brushing device is arranged in the brushing area and can brush the passing fruits and vegetables when the fruits and vegetables are washed;

the baffle is arranged in the container, the circulating channel surrounds the baffle, and the minimum height of the baffle is 1/5 of the height of the container;

the circular driving mechanism is used for providing driving force so as to drive the cleaning liquid and the fruits and the vegetables to circularly flow in the circular channel when the fruits and the vegetables are cleaned, and the fruits and the vegetables sequentially pass through the brushing area to be brushed.

Furthermore, the scrubber comprises a rotating shaft and a scrubbing part arranged on the rotating shaft, the scrubbing part extends in the direction far away from the rotating shaft, and fruits and vegetables can pass through the scrubbing part and the bottom surface of the container when circularly flowing in the container.

Furthermore, the scrubber is arranged on the container in a mode that the rotating shaft is transversely arranged.

Furthermore, the rotating shaft comprises a main shaft and a shaft sleeve arranged on the main shaft, and the brushing part is arranged on the shaft sleeve.

Furthermore, the scrubber forms the circulating driving mechanism;

when the fruit and vegetable are cleaned, the brushing device can be rotated to provide power for driving the cleaning liquid and the fruit and vegetable to circularly flow in the communicated brushing area and the fruit and vegetable flowing temporary storage area.

Alternatively, the cyclical drive mechanism may comprise a rotating impeller.

The other structure mode of the scrubber comprises a back plate and the scrubbers arranged on the first surface of the back plate.

Further, the brushing objects are arranged towards the bottom surface of the container.

Another structure mode of the scrubber is that the scrubber comprises cleaning objects arranged on the side surface and/or the bottom surface of the container.

Further, the available volume of the fruits and vegetables in the brushing area is smaller than that of the temporary storage area for the fruit and vegetable flow; and/or the maximum cross-sectional area of the brushing area is smaller than or equal to the minimum cross-sectional area of the fruit and vegetable flow temporary storage area.

Further, the axial direction of the rotating shaft is basically vertical to the flowing direction of the cleaning liquid in the container.

Further, the brushing part comprises a plurality of rows of first flexible cleaning objects distributed along the axial direction of the rotating shaft, the first flexible cleaning objects can be bent in a touching mode, the first ends of the first flexible cleaning objects are arranged on the rotating shaft, and the second ends of the first flexible cleaning objects are free ends.

Further, each column of the first flexible cleaning object comprises a plurality of rows of rods.

Further, in a radial cross section of the scrubber, the distance between two adjacent rows of the first flexible cleaning objects is basically equal.

Further, each row of the first flexible cleaning objects is arranged along the axial direction of the rotating shaft or spirally arranged relative to the axial direction of the rotating shaft.

Furthermore, the bottom of the container is provided with a wiping component which is positioned in front of and/or behind and/or below the scrubber in the flowing direction of the cleaning liquid.

Further, the wiping member is located at a rear position below the scrubber in the flow direction of the cleaning liquid.

Further, the wiping part is a flexible cleaning object, a convex strip or a convex point.

Further, the end of the first flexible cleaning object is in contact with the wiping part so that the wiping part can be cleaned by the first flexible cleaning object.

Further, on the bottom surface of the brushing area or on the bottom surface of the container on the outlet side of the brushing area, a transition surface gradually rising in the flow direction of the cleaning liquid is formed to enhance the cleaning effect.

Furthermore, the transition surface is in an inclined plane shape or an inwards concave arc surface shape.

Further, a wiping member is provided on the transition surface.

Further, the wiping member is disposed on a downstream side of the transition surface in a flow direction of the cleaning liquid.

Furthermore, the brushing part also comprises a plurality of rows of second flexible cleaning objects, the second flexible cleaning objects are arranged between two adjacent rows of first flexible cleaning objects, and the height of the second flexible cleaning objects is lower than that of the first flexible cleaning objects.

Furthermore, the second flexible cleaning objects arranged between two adjacent rows of the first flexible cleaning objects are one row or multiple rows.

Further, the second flexible cleaning objects arranged between two adjacent rows of the first flexible cleaning objects are in one row;

the distance between two adjacent rows of the first flexible cleaning objects is equal, and the distance between two adjacent rows of the second flexible cleaning objects is equal.

Furthermore, one end of the rotating shaft is supported on the container, and the other end of the rotating shaft is supported on the baffle part.

Further, the baffle part is a baffle plate.

Further, the blocking part and the container are formed in a separated mode.

Furthermore, the blocking part and the container are fixed through a buckle or a screw or a rail.

Furthermore, the container and the blocking part are both made of plastics, and the blocking part and the container are integrally formed.

Furthermore, the junction of the blocking part and the bottom surface of the container is provided with an inclined plane which is inclined outwards from top to bottom by the blocking part.

Furthermore, in the flowing direction of the cleaning liquid, the downstream end of the baffle part is provided with an inward-contracted guide surface so as to form a wider fruit and vegetable guide opening between the guide surface and the side wall of the container.

Furthermore, the blocking part is provided with an arc surface which is convexly arranged towards the temporary storage area for the fruit and vegetable flow.

Furthermore, the upper cover of the brushing area is provided with a splash-proof cover.

Further, the minimum distance between the splash guard cover and the outer rim of the scrubber is 2mm.

Further, the splash guard cover comprises a raised portion corresponding to the scrubber and a connecting portion connected to the container.

Furthermore, a water retaining mechanism is arranged between the splash-proof cover and the container to prevent water thrown out by the brushing part.

Furthermore, the water retaining mechanism comprises a splash-proof groove arranged on the upper end surface of the container and splash-proof ribs arranged on the splash-proof blocking cover, and the splash-proof ribs can be inserted into the splash-proof groove when the splash-proof blocking cover is arranged on the brushing area;

or, the splashproof rib on locating the container up end and locating the splashproof groove that the splashproof kept off and covers of manger plate mechanism, the splashproof keeps off and covers and establishes when brushing the district on the splashproof rib can insert in the splashproof groove.

Further, the water retaining mechanism comprises a sealing ring arranged between the splash-proof cover and the container.

Furthermore, the splash-proof cover is detachably connected with the container.

Furthermore, be equipped with the baffle on the splashproof keeps off and covers, the splashproof keeps off and covers to establish when going up in the brushing district, the baffle can stretch into in the container, makes circulation channel encircles the baffle.

Further, the scrubber is a plurality of, a plurality of scrubber sets up side by side.

Furthermore, the scrubber comprises a first scrubber and a second scrubber which are oppositely arranged.

Furthermore, the first scrubber and the second scrubber are connected through a reversing mechanism so that the rotating directions of the first scrubber and the second scrubber are opposite.

Furthermore, the rotating shaft is connected with a driving mechanism for driving the rotating shaft to rotate.

Furthermore, the driving mechanism is an electric driving mechanism or a manual driving mechanism.

Furthermore, a speed regulating mechanism is arranged between the driving mechanism and the rotating shaft.

Further, the driving mechanism is detachably connected to the container.

Furthermore, the scrubber is detachably arranged on the container.

Further, the driving mechanism is a manual driving mechanism which is a rocking handle, and the distance between the rocking handle and the bottom surface of the container at the lowest position is 1.5cm-8cm.

Furthermore, the corners of the container are all arc chamfers.

Furthermore, the bottom surface of the fruit and vegetable flowing temporary storage area is provided with a slope, and when the fruits and vegetables flow into the fruit and vegetable flowing temporary storage area after flowing out of the brushing area, the fruits and vegetables flow from the high position of the slope to the low position of the slope so as to accelerate the flow of the fruits and vegetables.

Furthermore, the rotating shaft can be arranged on the container in a bidirectional rotating manner.

Furthermore, the first flexible cleaning object is a plastic flexible cleaning object, or a soft rubber flexible cleaning object, or a cloth strip flexible cleaning object.

Furthermore, a water filtering opening is formed in the side wall of the container.

Further, a draining basket is arranged in the container.

Further, the bottom surface of the draining basket and the bottom surface of the container can be substantially conformed.

Furthermore, a notch is formed in the draining basket, and the scrubber is located in the notch.

Furthermore, after the scrubber is installed, the scrubbing part is higher than the container.

Further, after the scrubber is installed, the distance between the scrubbing part and the bottom surface of the container is 0.5mm-5cm.

Further, after the scrubber is installed, the scrubber part is in contact with the bottom surface of the container.

Further, the brushing parts are substantially distributed in the transverse width direction of the brushing area.

Furthermore, the container space corresponding to the orthographic projection area of the rotating outer contour of the scrubber at the bottom of the container is the scrubbing area.

Furthermore, the number of the brushing devices is one or more, and the brushing area is arranged corresponding to the brushing devices.

Furthermore, the number of the brushing devices is multiple, the brushing areas correspond to the brushing devices one by one, and the brushing areas are continuously arranged or arranged at intervals.

Further, the number of the brushing areas is one or more, and each brushing area is provided with one or more scrubbers.

Further, the maximum height of the barrier is equal to the height of the container.

The utility model discloses when using, the input of fruit vegetables is gone on with taking out at the mobile temporary storage area of fruit vegetables usually. Putting fruits and vegetables into a container, injecting water into the container, enabling a cleaning solution to drive the fruits and vegetables to flow from a fruit and vegetable flow temporary storage area to a scrubbing area and then flow from the scrubbing area to the fruit and vegetable flow temporary storage area to reciprocate so as to form a circular flow path of the fruit and vegetable flow temporary storage area, the scrubbing area, the fruit and vegetable flow temporary storage area and the scrubbing area, enabling the circular flow of the cleaning solution to drive the fruits and vegetables to circularly flow, and enabling a scrubber to scrub the fruits and vegetables passing through the scrubbing area for multiple times; when the fruits and vegetables are in the cleaning solution, the cleaning solution can soak the fruits and vegetables, so that dirt on the surfaces of the fruits and vegetables can be cleaned; when the flow rates of the fruits and the vegetables and the cleaning liquid are different, the cleaning liquid can wash the surfaces of the fruits and the vegetables. It should be noted that, because the washing to the fruit vegetables is gone on according to the order of sequence in the scrubbing area, if the washing volume of fruit, the embodiment of the utility model provides a only need increase the volume of the mobile temporary storage area of fruit vegetables, make it can hold and soak more and wait to wash fruit, and need not to change the structure of scrubbing area and scrubbing area.

The beneficial effects of the utility model reside in that:

1. because under the effect of circulation actuating mechanism, fruit vegetables can be in the circulating line who includes brushing district and fruit vegetables flow temporary storage area circulation flow, the fruit vegetables follow fruit vegetables flow temporary storage area in proper order (for example one by one or partly) and get into the brushing district to the scrubber can carry out the washing many times to whole fruit vegetables in the circulating line, and the washing is orderly, the effect is even, can not miss the fruit vegetables, also can not appear the uneven condition of fruit vegetables cleanliness.

2. When fruits and vegetables are cleaned in a container, the process is as follows: the fruit vegetables flow the buffer zone from the fruit vegetables and get into the buffer zone and scrub, flow into fruit vegetables and flow the buffer zone afterwards, and at the entry and the export of fruit vegetables flow the buffer zone, there is the difference in speed in the velocity of flow of washing liquid and the velocity of flow of fruit vegetables, and the washing liquid can be washed the fruit vegetables, and the fruit vegetables get into the cycle that the buffer zone scrubbed once more afterwards to so relapse. In the process, brushing and washing are alternately carried out, the fruits and vegetables can be brushed and washed by the cleaning liquid, and garbage remained on the fruits and vegetables after washing is easier to be brushed and removed in the brushing area.

3. The volume of the fruit and vegetable flowing temporary storage area determines the maximum fruit and vegetable amount of the single cleaning of the fruit and vegetable cleaning device, so that the fruit and vegetable cleaning device can adapt to the cleaning of different amounts of fruits and vegetables by adjusting the volume of the fruit and vegetable flowing temporary storage area of the fruit and vegetable cleaning device, and the size and the structure of the brushing area do not need to be adjusted. Moreover, the fruit is put into and taken out from the fruit and vegetable cleaning device, and the fruit and vegetable is usually put into and taken out from the temporary storage area for the fruit and vegetable to flow.

4. Fruit vegetables belt cleaning device is when carrying out fruit cleaning, and the fruit vegetables flow in proper order along with the washing liquid in the circulation passage, and the collision between the fruit vegetables and between fruit vegetables and the container is less, can reduce the damage to the fruit vegetables in the cleaning process.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural view of the scrubber of the present invention with a C-structure.

Fig. 3 is a schematic structural view of the present invention when the scrubber of the structure a is adopted.

Fig. 4 is a schematic view of the scrubber according to another aspect of the present invention.

Fig. 5 is a schematic structural view of the present invention when the scrubber with the structure B is adopted.

Fig. 6 is a schematic view of the scrubber according to another aspect of the present invention.

Fig. 7 is a schematic structural view of the present invention when plural rows of scrubber are provided.

FIG. 8 is a schematic illustration of the transmission between the rows of scrubbers of FIG. 7.

Fig. 9 is a schematic structural view of the present invention when two brushes are oppositely disposed.

Fig. 10 is a schematic structural view of the present invention when the rotating shaft is tilted.

Fig. 11 is a schematic view of a driving of the rotary shaft when the rotary shaft is tilted.

Fig. 12 is another driving diagram of the rotation shaft when the rotation shaft is tilted.

Fig. 13 is a schematic view of the installation of a spindle.

FIG. 14 is a schematic view of the scrubber of FIG. 13 shown removed.

Figure 15 is an exploded view of a releasable connection between the manual drive mechanism and the spindle.

Fig. 16 is a schematic view of the structure of the gear of fig. 15.

Fig. 17 is a schematic view of another detachable connection between the manual drive mechanism and the spindle.

Fig. 18 is an exploded view of fig. 17.

Fig. 19 is an exploded view from another angle of fig. 17.

Fig. 20 is a schematic view of another detachable connection between the manual driving mechanism and the rotating shaft.

Fig. 21 is a schematic view of the connection between the manual drive mechanism and the spindle of fig. 20.

FIG. 22 is a schematic diagram of a scrubber mechanism.

FIG. 23 is a schematic diagram of a scrubber in another mechanical form.

FIG. 24 is a schematic view of a scrubber in another mechanical form.

FIG. 25 is a schematic diagram of a scrubber in another mechanical form.

FIG. 26 is a schematic diagram of another mechanical scrubber.

FIG. 27 is a schematic view of a wiping member.

Figure 28 is a profile view of an alternative wiping member.

FIG. 29 is a profile view of an alternative wiping member.

FIG. 30 is a distribution diagram of another wiping member.

Figure 31 is a profile view of an alternative wiping member.

Figure 32 is a profile view of an alternative wiping member.

FIG. 33 is a profile view of another wiping member.

FIG. 34 is a profile view of an alternative wiping member.

Figure 35 is a profile view of an alternative wiping member.

Figure 36 is a profile view of an alternative wiping member.

Figure 37 is a profile view of an alternative wiping member.

FIG. 38 is a schematic view of another wiping member.

Fig. 39 is a cross-sectional view of the container.

Figure 40 is a schematic view of one manner of connection of the barrier and the container.

Fig. 41 is a schematic view of the barrier of fig. 40.

Figure 42 is a schematic view of another barrier and container connection.

Figure 43 is an exploded view of one manner of connection of the barrier and container.

Fig. 44 is a bottom view of fig. 43.

Fig. 45 is a schematic view of the structure of the blocking portion on the splatter shield.

FIG. 46 is a schematic view of the structure of the rotating shaft when one end of the rotating shaft is not connected to the blocking portion.

Fig. 47 is a schematic view of the upper end of the container closed by the splash cover.

FIG. 48 is a cross-sectional view of the container with the splash shield cover in place.

Fig. 49 is a schematic view of a seal between the splash guard and the upper end of the container.

FIG. 50 is a schematic view showing a structure of a case where a water filtration port is provided in a container.

Fig. 51 is a schematic structural diagram of the present invention when the draining basket is provided.

FIG. 52 is a schematic view of an installation of the handle and scrubber.

Fig. 53 is a schematic view of the bushing of fig. 52 with the bushing removed.

Fig. 54 is an exploded view of fig. 53.

Fig. 55 is an exploded view from another perspective of fig. 53.

FIG. 56 is a cross-sectional view of the rocker and scrubber portion of FIG. 53.

FIG. 57 is a perspective view of the crank and scrubber portion of FIG. 53.

FIG. 58 is a perspective view of the crank and scrubber section when another driven gear is used.

Fig. 59 is a cross-sectional view of fig. 58.

Fig. 60 is a schematic view of the construction of the bushing.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

As used herein, the term "include" and its various variants are to be understood as open-ended terms, which mean "including, but not limited to. The term "one embodiment" and the like may be understood as "at least one embodiment". The terms "first", "second", etc. are used merely to distinguish different features and have no essential meaning. The terms "upper", "lower" and the like are used only to indicate a positional relationship between relative objects.

The embodiment of the utility model provides a fruit vegetables belt cleaning device, can refer to fig. 1-51 and show, fruit vegetables belt cleaning device includes container 1, circulation actuating mechanism and scrubber 2.

The container 1 is formed with a circulation channel, the circulation channel comprises a fruit and vegetable flow temporary storage area 3 and a brushing area 4, and the circulation channel can provide a path for the cleaning liquid and the fruit and vegetable to circularly flow between the fruit and vegetable flow temporary storage area 3 and the brushing area 4 when the fruit and vegetable are cleaned.

The scrubber 2 is arranged in the scrubbing area 4, and the scrubber 2 can scrub passing fruits and vegetables when the fruits and vegetables are cleaned. In one embodiment, referring to the example given in fig. 2, when scrubber 2 is disposed on container 1 with its rotation axis being horizontal, the container space corresponding to the forward projection area of the rotation outer contour of scrubber 2 at the bottom of container 1 is brushing area 4, that is, the space area formed by the upward and downward projection of the rotation outer contour of scrubber 2 relative to container 1 is brushing area 4 of container 1. In another embodiment, which can be seen with reference to the examples given in fig. 3 and 4 or the examples given in fig. 5 and 6, when the scrubber 2 is structured with the cleaning object 9 provided on the side and/or bottom of the container 1, the spatial area of the cleaning object 9 corresponds to the brushing zone 4. Those skilled in the art can understand that the structure of the scrubber 2 in the embodiment of the present invention is not limited to the examples shown in fig. 2 to 6, as long as the passing fruits and vegetables can be scrubbed. From the foregoing description, those skilled in the art will understand the meaning of the brushing zones described in the embodiments of the present invention.

The circular driving mechanism is used for providing driving force so as to drive the cleaning liquid and the fruits and the vegetables to circularly flow in the circular channel when the fruits and the vegetables are cleaned, and the fruits and the vegetables sequentially pass through the brushing area to be brushed. In one embodiment, the sequential passing mode may be that each fruit and vegetable passes one by one, or that a plurality of fruit and vegetables pass together. The skilled person can understand that the mode of actually presenting the fruits and vegetables in sequence when the fruits and vegetables are cleaned is influenced by the factors such as the size and the number of the fruits and vegetables, and when the overall dimensions of the fruits and vegetables are larger, the fruits and vegetables may generally present that the fruits and vegetables pass one by one; when the overall dimensions of the fruits and vegetables are small, a plurality of fruits and vegetables may pass through the fruits and vegetables together, and certainly, the fruits and vegetables may pass through the fruits and vegetables one by one.

In one embodiment, the circulation driving mechanism may adopt a structure of a rotating impeller 5, and the cleaning liquid is driven to circularly flow by the rotation of the rotating impeller 5, so as to drive the fruits and vegetables to circularly flow. Of course, other mechanisms known to those skilled in the art may be adopted as long as the cleaning liquid and the fruits and vegetables can be driven to circularly flow in the circulating channel. The circulation driving structure can be arranged on the side wall of the container 1, can be arranged on one side wall, and can also be arranged on a plurality of side walls so as to enable the cleaning liquid to flow more smoothly and favorably. Further, the positioning structure can be arranged on two adjacent or opposite side walls, and can also be arranged on any three side walls, even on each side wall; also, the number of the rotating impellers 5 provided for each side wall may be one or more. It will be appreciated by those skilled in the art that the direction of the driving force provided by each rotating impeller 5 is uniform. Of course, in some embodiments, it is also possible that the direction of the driving force of an individual rotating impeller 5 does not coincide with the direction of the driving force of the other rotating impellers 5. In the example given in fig. 3 and 4, or in the example given in fig. 5 and 6, the cyclical drive mechanism is in the form of a rotating impeller 5. In order to enable a smoother, more advantageous flow of the washing liquid, rotating impellers 5 may be provided on any of at least two side walls of the container 1. In one embodiment, as shown in fig. 3 and 4, or also as shown in fig. 5 and 6, the rotating impellers 5 may be respectively disposed on two opposite side walls of the container, and the rotating direction of the rotating impeller 5 disposed on one side wall is opposite to the rotating direction of the rotating impeller 5 disposed on the other side wall, so that the driving force provided by the rotating impellers 5 disposed on the side walls is the same. Meanwhile, in order to protect fruits and vegetables and avoid being hit by the rotating impeller 5, a protective shell 6 needs to be arranged outside the rotating impeller 5.

In one embodiment, when the fruit and vegetable washing device is provided with the barrier 10, the circulating driving mechanism can also be arranged on the barrier 10.

The embodiment of the utility model provides a fruit vegetables belt cleaning device is when using, put into container 1 with fruit or vegetables (to the vegetables of the great shape or irregular shape, need put into container 1 after changing it into to diminish, for example, cut with the hand small with the fingers and thumb or with the mode such as cutter cut minify, to vegetables or the comparatively regular vegetables of shape that take the form of vegetables such as hot pepper, green pepper, tomato, can put into container 1 entirely, generally speaking, because the scrubber 2 that the scrubbing zone 4 was placed can occupy the holding space of scrubbing zone 4, so when preparing to wash, fruit vegetables generally can put into fruit vegetables mobile temporary storage area 3 earlier, splendid attire the washing liquid in container 1 (the washing liquid can be water, also can be other liquid, or also can be the mixture of other materials and water), under the effect of circulation drive mechanism, the washing liquid can drive fruit vegetables and move from mobile temporary storage area 3 to scrubbing zone 4, from scrubbing zone 4 flows to fruit vegetables mobile temporary storage area 3 again, thereby form the mobile temporary storage area 3-the circulation route of scrubbing fruit vegetables-fruit vegetables mobile temporary storage area 3 in fruit vegetables circulation passageway. When the fruits and the vegetables flow through the brushing area 4 along with the cleaning fluid, the brushing device 2 rubs the fruits and the vegetables, so that the fruits and the vegetables are brushed; when the fruits and vegetables are positioned in the cleaning solution, the cleaning solution can soak the fruits and vegetables, so that dirt on the surfaces of the fruits and vegetables can be cleaned; when the flow rates of the fruits and the vegetables and the cleaning liquid are different, the cleaning liquid can wash the surfaces of the fruits and the vegetables. When the fruits and vegetables enter the brushing area 4 from the fruit and vegetable flowing temporary storage area 3, one or a part (namely in sequence) of the fruits and vegetables can enter the brushing area, and the brushing device 2 cleans the fruits and vegetables in sequence, so that the cleaning is uniform and orderly, and the effect is good. When the fruits and vegetables are cleaned in the container 1, the fruits and vegetables go into the brushing area 4 to be brushed, flow into the fruit and vegetable flowing temporary storage area 3 to be washed, and then flow into the brushing area 4 to be brushed to perform reciprocating circulation, brushing and washing are performed intermittently during cleaning, the fruits and vegetables can be brushed and also can be washed by the cleaning liquid, and garbage remained on the fruits and vegetables after soaking and washing can be more easily brushed away in the brushing area 4 by the brushing area 2, the beneficial effects are that the container 1 is provided with the fruit and vegetable flowing temporary storage area 3 and the brushing area 4 which are communicated, the brushing area 4 is provided with the brushing device 2, and the circulating driving mechanism provides the beneficial effect generated under the synergistic effect of the driving of the cleaning liquid and the fruit and vegetable circulating flow in the circulating channel.

And simultaneously, because the utility model discloses a container has scrubbing area 4 and the fruit vegetables mobile temporary storage area 3 of intercommunication, and the fruit vegetables are scrubbed by scrubber 2 in scrubbing area 4, flow along with the washing liquid at fruit vegetables mobile temporary storage area 3 during the washing, and whole in-process is all not stirred by the intensity, and the collision between the fruit vegetables and between fruit vegetables and the container is less. Because the fruits and vegetables can circularly flow in the container 1 when being cleaned, a proper amount of fruits and vegetables can be put in the container 1 according to the volume of the fruit and vegetable flow temporary storage area 3 as long as the cleaning of the fruits and vegetables is not influenced. The embodiment of the utility model provides an in, putting into of fruit vegetables among the fruit vegetables belt cleaning device, flow the buffers 3 at fruit vegetables usually, the explanation has been explained for the example with putting into fruit vegetables earlier in fruit vegetables washing buffers 3 when preparing to wash for aforementioned explanation, certainly, do not exclude also that partial fruit vegetables or whole fruit vegetables can put into the situation in scrubbing regions 4 earlier when preparing to wash, the working method of this kind of situation can be known to the technical staff in the art according to aforementioned explanation, for example the embodiment shown in fig. 5 and fig. 6, the fruit vegetables of putting into scrubbing regions 4 are under the drive of washing liquid, flow buffers 3 to fruit vegetables from scrubbing regions 4, flow buffers 3 to scrubbing regions 4 from fruit vegetables again, thereby form the circulation flow path of scrubbing regions 4-fruit vegetables flow buffers 3-scrubbing regions 4 in circulation channel, other relevant content can refer to aforementioned explanation, no longer describe herein. The embodiment of the utility model provides an in, taking out of fruit vegetables is usually gone on at fruit vegetables mobile temporary storage area 3 to avoid brushing the blockking of the scrubber 2 of placing in the district 4, certainly the embodiment of the utility model provides a also not get rid of the situation of taking out from brushing the district 4.

In one embodiment, one form of scrubber is a (hereinafter referred to as a form a scrubber): as shown in fig. 3 and 4, the scrubber includes a back plate 7 and a washing object 8 disposed on a first surface of the back plate 7, the washing object 8 is preferably disposed toward the bottom of the container 1, and the washing object 8 may be a plastic flexible washing object, a soft glue flexible washing object, a cloth strip flexible washing object, or other flexible scrubbing components. To enhance the brushing effect, the container may also be provided with a brushing object 8 on the bottom surface of the brushing zone 4. Wherein the washings 8 on the first surface of the back plate 7 are in contact with or have a gap with the washings 8 on the bottom surface of the brushing area 4.

In yet another embodiment, the scrubber has a structure (hereinafter referred to as type B scrubber): as shown in fig. 5 and 6, the scrubber is a cleaning object 9 disposed on the side and/or bottom of the container 1, and the cleaning object 9 may be a plastic flexible cleaning object, a soft glue flexible cleaning object, a cloth strip flexible cleaning object, or other flexible scrubbing components. In the container, a barrier 10 is provided, and the barrier 10 may be provided with the cleaning material 9.

In yet another embodiment, the scrubbing implement is configured as a (hereinafter referred to as a "type C" scrubber): referring to fig. 2, the scrubber includes a rotating shaft 11 and a scrubber 12 disposed on the rotating shaft 11, the scrubber 12 extends away from the rotating shaft 11, and the fruit and vegetable can pass through between the scrubber 2 and the bottom surface of the container 1 to be scrubbed while circulating in the circulation channel. At this moment, the scrubber 2 is disposed in the container 1 in a manner that the rotating shaft 11 is horizontal, the "horizontal rotating shaft" means that the rotating shaft 11 is substantially horizontal, that is, the axis of the rotating shaft 11 is substantially parallel to the horizontal plane, and even if the axis of the rotating shaft 11 forms a certain included angle with the horizontal plane, the embodiment of the present invention also belongs to the meaning range of the "horizontal rotating shaft". In the scrubber having such a configuration, since scrubber 2 has rotating shaft 11 and can rotate around rotating shaft 11, scrubber 2 may constitute the circulating driving mechanism, and when cleaning fruits and vegetables, scrubber 2 may be rotated to provide a driving force for driving the cleaning liquid and the fruits and vegetables to flow in a circulating path in a circulating manner.

When the C-shaped scrubber is adopted, the form of the rotating shaft may be various, for example, a single shaft body is adopted, or the rotating shaft includes a main shaft 45 and a shaft sleeve 46 arranged on the main shaft 45, the scrubbing unit 12 is arranged on the shaft sleeve 46, the connection between the main shaft 45 and the shaft sleeve 46 may be a snap connection, a threaded connection, an interference socket connection, or the like, the main shaft 45 is usually made of metal, the shaft sleeve 46 is usually made of plastic, and at this time, the connection between the main shaft 45 and the shaft sleeve 46 may also be: thereby the tip of main shaft 45 is equipped with thread 47 and forms coarse portion, and axle sleeve 46 overlaps on main shaft 45, closely cooperates between the coarse portion of main shaft 45 and the axle sleeve 46 and makes axle sleeve 46 and the coarse portion of main shaft 45 correspond the part and take place deformation of certain degree to zonulae occludens forms the pivot wholly between main shaft 45 and the axle sleeve 46.

When the C-shaped scrubber is adopted, only one scrubber 2 can be arranged, or a plurality of scrubbers can be arranged side by side, and the scrubbing area 4 is arranged corresponding to the scrubber 2. As shown in fig. 7 and 8, the plurality of scrubbers 2 may be linked to each other so that the plurality of scrubbers 2 may be rotated in synchronization, the linkage mechanism between the plurality of scrubbers may be a gear transmission mechanism, a chain transmission mechanism, a belt transmission mechanism, or the like, the linkage mechanism shown in fig. 7 and 8 is a gear transmission mechanism, two scrubbers 2 are shown in fig. 7 and 8, driven gears 13 are provided on the rotating shafts of the two scrubbers 3, a transition gear 14 is provided between the two driven gears 13, the rotating shafts 11 of the two scrubbers are rotated in synchronization by the action of the transition gear 14, the transition gear 14 rotates when the two scrubbers 2 need to rotate, thereby driving the two rotating shafts 11 to rotate in synchronization, and the transition gear 14 may be driven later by the driving mechanism. When a plurality of brushing devices are arranged, the brushing areas correspond to the brushing devices one by one, and the brushing areas are continuously arranged or arranged at intervals. Or, the number of the brushing areas is one or more, and each brushing area is provided with one or more scrubbers.

When a C-shaped scrubber is adopted, the scrubber can be further provided with: as shown in fig. 9, scrubber 2 includes a first scrubber 2-1 and a second scrubber 2-2 disposed opposite to each other, thereby forming two opposite scrubbing areas 4 and improving cleaning efficiency. The first scrubber 2-1 and the second scrubber 2-2 are preferably connected by a reversing mechanism to reverse the rotation direction of the first scrubber 2-1 and the second scrubber 2-2, so that the cleaning liquid forms a smooth circulation flow in the circulation channel. The reversing mechanism can adopt a common reversing mechanism form, for example, a first duplicate gear is arranged on a rotating shaft of the first scrubber 2-1, a second duplicate gear is arranged on a rotating shaft of the second scrubber 2-2, and the first duplicate gear is meshed with the second duplicate gear.

Scrubber 2 is preferably removably mounted to container 1 to facilitate replacement of scrubber 2 or removal of scrubber 2 for cleaning. When the C-shaped scrubber is adopted, the detachable connection mode between the scrubber 2 and the container 1 can be as follows: as shown in fig. 13 and 14, a stopper 15 is provided on the upper edge of the container 1, the rotating shaft 11 of the scrubber is placed between the stopper 15 and the upper edge of the container 1, and the stopper 15 and the container 1 are fixed by screws, and the screws are removed when the scrubber is removed. Or as shown in fig. 2, the rotating shaft 11 of the scrubber is directly erected at the upper end of the container, and only needs to be taken down when needing to be disassembled. When the blocking part 10 is provided in the container 1 as described later, the end of the rotating shaft 11 of the scrubber may be connected to the blocking part 10, and in order to achieve detachability, the end of the rotating shaft 11 may be directly placed on the blocking part 10, or a second stopper 16 may be provided on the upper edge of the blocking part 10, the rotating shaft 11 of the scrubber may be placed between the second stopper 16 and the upper edge of the blocking part 10, and the second stopper 16 and the blocking part 10 may be fixed by a screw, and the screw may be unscrewed when detaching. Of course, other detachable connection methods can be adopted between the scrubber and the container, such as setting a positioning block on the rotating shaft, and connecting the positioning block and the container through a snap fit or a screw.

The corners of the container 1 are preferably designed as curved chamfers. If the corners of the container 1 are designed to be sharp, dirt accumulated at the corners of the container 1 is not easily washed. Meanwhile, the corners of the container 1 are designed to be arc chamfers, so that the fruits and vegetables are not easily damaged when flowing along with the cleaning liquid. And the circularly flowing cleaning liquid flows along the arc-shaped surface at the corner of the arc-shaped chamfer, so that the kinetic energy lost at the corner of the container 1 is less.

As a preferable design, the bottom surface of the fruit and vegetable flow temporary storage area 3 is provided with a slope 17, and when the fruits and vegetables flow out of the brushing area 4 and enter the fruit and vegetable flow temporary storage area 3, the fruits and vegetables flow from the high position of the slope 17 to the low position of the slope 17 to accelerate the flow of the fruits and vegetables, so that the jam of the fruits and vegetables in the fruit and vegetable flow temporary storage area 3 can be avoided.

In the case of the C-type scrubber, the scrubber area may be rotated by holding the shaft with a hand or by rotating the scrubber so that the scrubber can be rotated, but it is preferable that the shaft 1 is connected to a driving mechanism for driving the shaft to rotate, and the shaft 11 is driven to rotate by the driving mechanism so that the scrubber 2 is rotated. The driving mechanism can be an electric driving mechanism or a manual driving mechanism, and is generally positioned outside the container, so that the operation is convenient. The electric driving mechanism adopts a motor, for example, and the output end of the motor is connected with the rotating shaft. The manual driving mechanism is, for example, a rocking handle 18, the end of the rocking handle 18 is connected to the rotary shaft 11, and the distance between the bottom of the container 1 and the bottom of the rocking handle 18 is preferably controlled to be 1.5cm-8cm when the rocking handle 18 is at the lowest position, so that a space for accommodating a hand is formed between the bottom of the container and a table top, and the hand holding the rocking handle 18 does not touch the table top when the rocking handle 18 is shaken.

The connection between the rocking handle 18 and the rotating shaft 11 can be direct or through a connecting structure, such as a gear transmission mechanism.

The driving mechanism is preferably detachably connected to the container 1, so that the driving mechanism and the scrubber 2 can be detached together for packaging during packaging, and the packaging space is saved.

When the driving mechanism is an electric driving mechanism, the detachable connection mode between the electric driving mechanism and the container can adopt a buckling connection mode, a screw connection mode and the like, and a sliding groove is arranged on the container, a sliding sheet is arranged on the driving mechanism, and the sliding sheet is inserted into the sliding groove and the like.

When the driving mechanism is a manual driving mechanism, the detachable structure between the driving mechanism and the container can be in a buckling connection mode, a screw connection mode or the like, and a sliding groove is formed in the container, a sliding sheet is arranged on the driving mechanism, and the sliding sheet is inserted into the sliding groove.

Another way to achieve a detachable connection of the drive mechanism and the container is: since the driving mechanism is connected to the rotating shaft 11, the rotating shaft 11 can be detachably connected to the container 1 in the manner as described above.

The drive mechanism can also be detachably connected with the rotating shaft 11, so that the drive mechanism can be detached independently, and the simplest mode of the detachable connection between the drive mechanism and the rotating shaft 11 is as follows: the cross section at the tail end of the rotating shaft 11 is polygonal, the output end of the driving mechanism is provided with a shaft sleeve, the shaft sleeve is a sleeve matched with the shape of the tail end of the rotating shaft 11, the tail end of the rotating shaft 11 is inserted into the shaft sleeve, the rotating shaft and the driving mechanism can be detachably connected, and the driving mechanism can smoothly drive the rotating shaft to rotate.

Other detachable connection mechanisms can be adopted between the driving mechanism and the rotating shaft 11, for example, as shown in fig. 15-21, a driven gear 28 is arranged on the rotating shaft 11, a driving gear 19 is arranged at the output end of the rocking handle 18, the driving gear 19 is meshed with the driven gear 28 on the rotating shaft 11, a gear cavity 20 is arranged at the upper end of the container 1, the driving gear 19 and the driven gear 28 on the rotating shaft 11 are arranged in (all or part of) the gear cavity 20, and the driving gear 19 and the rocking handle 18 are detachably connected. In fig. 15 and 16, the detachable connection between the driving gear 19 and the rocking handle 18 is that the driving gear 19 has a detachable cavity 21, a blocking rib 23 is arranged in the detachable cavity 21, a protruding rib 22 is arranged at the tail end of the rocking handle 18, the tail end of the rocking handle 18 is inserted into the detachable cavity 21, the rocking handle 18 is rotated to enable the protruding rib 22 to be in contact with the blocking rib 23, the driving gear 19 can be driven to rotate through the rocking handle 18, and only the gear cavity 20 needs to be pulled out when the rocking handle 18 is detached. In fig. 17, 18 and 19, the detachable connection between the driving gear 19 and the rocking handle 18 is that the driving gear 19 has a cavity 24, a screw 25 is arranged in the cavity 24, the screw 25 is inserted into the rocking handle 18, and a locking rod 26 also penetrates into the cavities of the rocking handle 18 and the driving gear 19, the locking rod 26 has a threaded cavity 27, the screw 25 is screwed into the threaded cavity 27, the end of the locking rod 26 is locked on the rocking handle 18, so that the connection between the rocking handle 18 and the driving gear 19 can be realized, and the rocking handle 18 can be detached by unscrewing the locking rod 26 when detachment is needed.

Other detachable connection mechanisms can be adopted between the driving mechanism and the rotating shaft 11, for example, as shown in fig. 52-60, as mentioned above, the rotating shaft 11 includes the main shaft 45 and the shaft sleeve 46 provided on the main shaft 45, the main shaft 45 of the rotating shaft 11 is provided with the driven gear 28, the driven gear 28 is located at the outer end of the main shaft 45, and the thread 47 on the main shaft 45 is located at the inner end of the main shaft 45. One end of the rocking handle 18 as a driving mechanism is provided with a driving shaft 48, the driving shaft 48 is provided with a driving gear 19, the driving shaft 48 is arranged on a driving fixing block 49 in a penetrating way, so that the driving shaft 48 can rotate, the driving gear 19 is meshed with the driven gear 28, the driven gear 28 can be driven by the driving gear 19 when the rocking handle 18 is rotated, and the rotating shaft 11 is further driven to rotate. As shown in fig. 58 and 59, the driven gear 28 may be a common gear with only one circle of tooth surface, and the driving gear 19 drives the driven gear 28 to further drive the main shaft of the rotating shaft 11 to rotate, so that the rotating shaft 11 can rotate as a whole, and meanwhile, the inner side of the shaft sleeve 46 may be further provided with a gear ring 50, a part of the driven gear 28 is meshed with the driving gear 19, and a part of the driven gear 28 is also meshed with the gear ring 50 of the shaft sleeve 46; as shown in fig. 53-59, the driven gear 28 may also be a dual gear, the first-stage teeth of the dual gear are engaged with the driving gear 19, the inner side of the shaft sleeve 46 is provided with a gear ring 50, the second-stage teeth of the dual gear are engaged with the gear ring 50, when the above-mentioned mechanism is adopted, one end of the shaft sleeve 46 is tightly fitted with the main shaft 45 through the effect of the thread 47, and the other end of the shaft sleeve 46 is engaged with the driven gear 28, that is, both ends of the shaft sleeve 46 are positioned, so that the shaft sleeve 46 is more stable in rotation. Establish gear chamber 20 on container 1 lateral wall upper end, drive gear 19 and driven gear 28 all are located gear chamber 20 (driven gear 28 can be whole or part is located gear chamber 20), drive fixed block 49 then detachable install in gear chamber 20, drive fixed block 49, drive gear 19, drive shaft 48 form an assembly, then this assembly is whole to be dismantled, only need when needing to dismantle drive fixed block 49 can, it is also very convenient during the installation, only need with drive fixed block 49 install in gear chamber 20 can. The detachable connection mode of the driving fixing block 49 may take various forms, such as setting a positioning rib 51 in the gear cavity 20, setting a positioning groove 52 on the driving fixing block 49, and inserting the positioning rib 51 into the positioning groove 52 to position the driving fixing block 49; or the driving fixing block 49 is connected with the side wall of the container through a screw, and the screw preferably penetrates through the upper end of the driving fixing block 49; or the drive fixing block is in snap connection with the cavity wall of the gear cavity 20, and the like.

The main shaft 45 of the rotating shaft 11 can penetrate into the side wall of the container and can be positioned in the following way: a lower spindle groove 53 is formed in the bottom surface of the gear cavity 20, one end of the spindle 45 is supported in the lower spindle groove 53, an upper spindle groove 54 is formed in the lower end of the driving fixing block 49, when the driving fixing block 49 is installed in the gear cavity 20, the upper spindle groove 54 presses the spindle 45, and at this time, the upper spindle groove 54 and the lower spindle groove 53 enclose a shaft hole to surround the spindle 45. The other end of the main shaft 45 can be suspended in the air, when the later-described blocking part 10 is arranged in the container, a lower main shaft auxiliary groove 55 can be arranged on the upper end surface of the blocking part 10, the other end of the main shaft 45 is erected in the lower main shaft auxiliary groove 55, a second stop block 16 can be arranged at the upper end of the blocking part 10, an upper main shaft auxiliary groove is arranged on the second stop block 16, and similarly, after the second stop block 16 is arranged on the blocking part 10, a shaft hole is defined between the lower main shaft auxiliary groove and the upper main shaft auxiliary groove to surround the main shaft 45. After the installation mode is adopted, the driving shaft 48 penetrates through the driving fixing block 49, and the spindle 45 of the rotating shaft is pressed between the driving fixing block 49 and the gear cavity 20, so that the part of the side wall of the container 1 corresponding to the spindle 45 is not provided with a hole, the liquid capacity of the container 1 is improved, and the liquid leakage risk caused by direct hole opening of the side wall corresponding to the spindle 45 is eliminated. Meanwhile, the driving shaft 49 is generally positioned above the main shaft 45 of the rotating shaft 11, so that the rocking handle 18 connected with the driving shaft 49 is positioned at a higher position, the rocking handle 18 is convenient to rotate, and a hand holding the rocking handle 18 is prevented from hitting a table top when the rocking handle 18 is rotated due to the fact that the position of the rocking handle 18 is lower.

In addition, a wear-resistant mechanism can be sleeved on the driving shaft 48, the wear-resistant mechanism can adopt a driving shaft protecting sleeve 56 (usually a rubber sleeve), and the driving shaft protecting sleeve 56 is positioned between the driving shaft 48 and the driving fixing block 49 and used for reducing the friction between the driving shaft 48 and the driving fixing block 49 during rotation; the wear-resistant mechanisms can be sleeved at two ends of the main shaft 45 of the rotating shaft, the wear-resistant mechanisms at the positions can adopt rotating shaft protecting sleeves 57 (usually rubber sleeves), and the rotating shaft protecting sleeves 57 are located in the shaft holes and used for reducing friction between the main shaft 45 of the rotating shaft and the shaft holes when the main shaft rotates.

Of course, the detachable connection mode between the rotating shaft and the driving mechanism can also be as follows: the rotating shaft is in threaded connection with the output end of the driving mechanism, in screw connection with the output end of the driving mechanism, in meshed connection through gears and the like.

A speed regulating mechanism may be disposed between the driving mechanism and the rotating shaft 11, and when the speed regulating mechanism is a speed increasing mechanism (for example, a gear train speed increasing mechanism, as shown in fig. 20 and 21), the speed of the rotating shaft may be increased, so as to achieve more efficient brushing;

the speed regulating mechanism can be a speed reducing mechanism (such as a gear train speed reducing mechanism), and when the speed regulating mechanism is the speed reducing mechanism, the rotating speed of the rotating shaft can be reduced, and at the moment, the rotation of the brushing device can be easier;

the speed regulating mechanism can be a gearbox (namely, a gear shifting gearbox which has the same principle with a manual-gear automobile gearbox and outputs different gears by changing gears so as to achieve the purpose of speed regulation), and when the speed regulating mechanism is the gearbox, the speed increasing or the speed reducing of the rotation of the rotating shaft can be realized according to the actual use condition.

The size relationship between the brushing area 4 and the temporary fruit and vegetable flowing area 3 can be as follows: (1) The available volume of the fruit vegetables in brushing district 4 is less than the available volume of the fruit vegetables of the mobile temporary storage area 3 of fruit vegetables can place more fruits in the mobile temporary storage area 3 of fruit vegetables like this, and the fruit vegetables in the brushing district 4 are guaranteed to be smooth through brushing district 4 through the steerable in certain extent simultaneously, prevent that too much fruit vegetables from producing when passing through brushing district 4 and blocking up. The "fruit and vegetable available volume in the brushing area" as used herein refers to the volume that can accommodate fruit in the brushing area 4 under normal cleaning conditions, i.e., the volume remaining in the brushing area 4 after the volume occupied by the scrubber 2 is removed. (2) The maximum cross-sectional area of the brushing area 4 is smaller than or equal to the minimum cross-sectional area of the fruit and vegetable flowing temporary storage area 3, in this case, the shapes of the brushing area 4 and the fruit and vegetable flowing temporary storage area 3 can be irregular. And (3) the two situations exist simultaneously.

In the case of the C-type scrubber, when the scrubber 2 rotates to circulate the cleaning liquid, the cleaning liquid preferably flows along the sidewall of the container 1, so that the flowing cleaning liquid does not impact the sidewall of the container 1 obliquely and thus loses the forward power, and therefore, the axial direction of the rotating shaft 11 and the flow direction of the cleaning liquid in the container 1 are preferably substantially perpendicular, where the perpendicular is a basic engineering perpendicular and belongs to a perpendicular category within a reasonable angle, and is not required to be absolutely perpendicular in a geometric sense. As shown in fig. 10, 11 and 12, the rotating shaft 11 is not absolutely perpendicular to the flowing direction of the cleaning liquid, but the inclined rotating shaft 11 can still drive the cleaning liquid in the container 1 to flow in the circulating channel when rotating, and the flowing direction of the cleaning liquid also substantially flows along the side wall of the container. The connection between the rotating shaft and the rocking handle 11 in fig. 10, 11 and 12 can adopt two ways, one way is that as shown in fig. 10 and 11, the output end of the rocking handle 18 is provided with bevel teeth 45, the rotating shaft 11 is provided with a driven gear 28, the bevel teeth 45 are meshed with the driven gear 28, the scrubber 2 is driven to rotate by the rotation of the rocking handle 18, at this time, the rotating shaft of the output end of the rocking handle 18 is still parallel to the horizontal plane, and the operation is more comfortable when the rocking handle 18 is rocked; the other is that as shown in fig. 12, the rocking handle 18 is directly connected to the rotating shaft 11, and at this time, the rotating shaft at the output end of the rocking handle 18 is in the state of the rotating shaft 11, so that the installation is simple, but the operation is slightly inconvenient.

When the C-shaped scrubber is adopted, the scrubbing part 12 includes a plurality of rows of first flexible cleaning objects 29 distributed along the axial direction of the rotating shaft 11, and the first flexible cleaning objects 29 are plastic flexible cleaning objects, soft rubber flexible cleaning objects or cloth strip flexible cleaning objects. The above-mentioned "axially distributed along the rotating shaft" refers to the situation that the first flexible cleaning object 29 is distributed along the axial direction of the rotating shaft, and may be vertically arranged or spirally arranged along the rotating shaft, and the like, which all belong to the above-mentioned "axially distributed along the rotating shaft", and this more regular arrangement mode can obtain better cleaning effect, and of course, the first flexible cleaning object 29 may also be arranged in other irregular or regular distribution modes. The spacing between adjacent rows of first flexible wash load 29 is preferably substantially equal in a radial cross-section of scrubber 2.

The first flexible cleaning object 29 can be bent in a touching mode, the first end of the first flexible cleaning object 29 is arranged on the rotating shaft 11, and the second end of the first flexible cleaning object 29 is a free end. When the fruits and vegetables pass through the brushing area 4, the fruits and vegetables touch the first flexible cleaning object 29, so that the first flexible cleaning object 29 is bent, and the fruits and vegetables are brushed by the first flexible cleaning object 29.

The first flexible cleaning object 29 can be formed in the following specific manner: as shown in fig. 24, each row of the first flexible cleaning object 29 may be a complete row of flexible cleaning objects, such as a complete plastic strip (e.g., nylon strip, TPR strip, etc.), a complete soft rubber strip (e.g., silicone strip, etc.), a complete cloth strip, etc.

Each column of first flexible cleaning objects 29 can also be formed in the following way: as shown in fig. 22, 23, 25, and 26, a plurality of rows of rods (cross section may be circular or directional or other shapes) are included, for example, a plurality of plastic rods (e.g., nylon rods, TPR rods, etc.) are arranged to form a row of first flexible cleaning objects 29, a plurality of soft rubber rods (e.g., silicone rods, etc.) are arranged to form a row of first flexible cleaning objects 29, a plurality of plastic wires (e.g., nylon wires, TPR wires, etc.) form a brush, a plurality of brushes are arranged to form a row of first flexible cleaning objects 29, a plurality of soft rubber wires (e.g., silicone wires, etc.) form a soft brush, and a plurality of soft brushes are arranged to form a row of first flexible cleaning objects 29. Fig. 22 shows the case where the plurality of rows of rods are 6 rows, fig. 23 shows the case where the plurality of rows of rods are 10 rows, and fig. 25 and 26 show the case where the plurality of rows of rods are 7 rows. The shaft itself may be in the form of a strip or other shape, such as the strip shown in fig. 23, 25 and 26, or the helix in fig. 22.

When the C-type scrubber is adopted, after the scrubber 2 is mounted on the container 1, the distance between the scrubber part 12 and the bottom surface of the container 1 is preferably 0.5mm-5cm, and at this time, the scrubber part 12 is not in contact with the bottom surface of the container 1, so that the scrubber 2 is easy to rotate. Another option is to: after the scrubber 2 is installed, the scrubbing part 12 contacts with the bottom surface of the container 1, and at this time, the garbage deposited on the bottom surface of the container 1 can be cleaned, so that the bottom surface of the container 1 can be automatically cleaned. After the selection, on one hand, the brushing part 12 extends into the brushing area 3, so that when the fruits and vegetables pass through the brushing area 4, the fruits and vegetables are rubbed with the brushing part more fully, more fruits and vegetables can be rubbed with the brushing part 12, and the cleaning effect is better. On the other hand, the brushing part 12 extends into the brushing area 4, and has stronger driving action on the cleaning liquid, so that the quick flowing circulating water flow is more favorably formed, the quick flowing circulating water flow is favorable for driving the fruits and vegetables to quickly and circularly move, and the cleaning effect is better.

In the form of a C-brush, the brush section 12 is preferably located higher than the container 1 after the brush 2 has been installed, and this arrangement allows only a portion of the brush section 12 to be immersed in the cleaning liquid during rotation of the brush 2, so that the resistance to the cleaning liquid during rotation of the brush 2 is relatively low and the brush 2 is not subjected to any significant force during rotation.

In the case of the C-type scrubber 2, the distribution of the scrubber unit 12 is preferably: the brushing parts 12 are basically distributed on the transverse width direction of the brushing area 4, so that the fruits and vegetables passing through the brushing area 4 can be basically brushed by the brushing parts 12 in a friction mode, and the cleaning effect is better.

When the C-shaped scrubber is adopted, as a more optimized setting, the bottom of the container 1 is provided with the wiping part 30, and the wiping part 30 can be flexible cleaning objects (such as plastic bristles, plastic brush columns, soft rubber strips, soft rubber bristles, flexible cloth strips and the like), raised lines or convex points or other forms. In the flow direction of the cleaning liquid, the wiping member 30 may be located in front of the scrubber 2, behind the scrubber 2, below the scrubber 2, or may be provided with wipes in front of, behind, and below the scrubber 2. The significance of the provision of the wipe features is: if the wiping component 30 is arranged in front of the scrubber 2, the fruits and vegetables are firstly wiped by the wiping component 30 when entering the scrubbing area 4; if the wiping component 30 is arranged behind the scrubber 2, the fruits and vegetables are wiped by the wiping component 30 when flowing out of the scrubbing area 4; if the wiper member 30 is provided below the scrubber 2, the fruits and vegetables are simultaneously subjected to the rubbing cleaning by the scrubber unit 12 and the wiper member 30 when passing through the scrubbing area 4. Therefore, after the wiping component 30 is arranged, the fruits and vegetables can be brushed by the brushing part 12, and friction can be generated between the fruits and vegetables and the wiping component 30, so that a better cleaning effect can be achieved. Of course, the wiping member 30 may be provided at two or three positions in front of, behind, below, or in front of the scrubber 2. In fig. 27, 28, and 29, wiper members 30 are provided in front of, behind, and below scrubber 2, wiper members 30 are provided in front of scrubber 2 in fig. 30, 31, and 32, wiper members 30 are provided behind scrubber 2 in fig. 33, 34, and 35, and wiper members 30 are provided below scrubber 2 in fig. 36, 37, and 38. In fig. 27, 30, 33, and 36, the wiping member is a bump, in fig. 28, 31, 34, and 37, the wiping member is a soft strip, and in fig. 29, 32, 35, and 38, the wiping member is a short bristle.

Among them, the optimum arrangement of the wiping member 30 is: the wiping member is located at a rear position below the scrubber 2 in the flow direction of the cleaning liquid. Since the wiping member 30 is disposed at a rear position below the scrubber 2, the fruits and vegetables can smoothly enter the scrubbing area 4 without being subjected to additional resistance when entering the scrubbing area 4. In addition, the wiping member 20 is disposed at a rear position below the scrubber 2, so that no extra resistance is generated in the scrubbing section 4 to the fruits and vegetables, and the fruits and vegetables are prevented from losing the forward power in the scrubbing section 4 and being retained in the scrubbing section 4. In addition, the wiping component 30 is arranged at the rear position below the brushing device 2, so that when the fruits and vegetables are quickly separated from the brushing part 12 after the brushing area 4 passes through the brushing part 12, the fruits and vegetables obtain the power pushed forward by the brushing part 12, and at the moment, friction is generated between the fruits and vegetables and the wiping component 30, and the cleaning effect is better.

The utility model discloses a fruit vegetables belt cleaning device is after using a period, and the foul that washs down can deposit in the bottom of container, and cleans part 30 and locate the bottom of container, and the very easy adhesion of foul is on cleaning part 30, consequently the best position relation between first flexible washing thing 29 and the cleaning part 30 is: the end of the first flexible wash load 29 is in contact with the wiper member 30 to enable the first flexible wash load 29 to brush against the wiper member 30, thereby cleaning the wiper member.

In order to enhance the cleaning effect, a transition surface 31 gradually rising along the flowing direction of the cleaning liquid may be formed on the bottom surface of the brushing area 4 or the bottom surface of the container on the outlet side of the brushing area, and when the fruits and vegetables are brushed in the brushing area 4, the fruits and vegetables climb along the transition surface 31, so that the friction between the brushing part 12 and the fruits and vegetables is enhanced, thereby enhancing the cleaning effect. The transition surface 31 is preferably in an inclined plane shape or an inward concave arc surface shape, preferably an inward concave arc surface shape, fruits and vegetables fluctuate in the inward concave arc surface shape, and the cleaning effect is better. Alternatively, the transition surface may be formed on the bottom surface of the container on the outlet side of the brushing area 4 along the liquid flowing direction, so that the retention time of the fruits and vegetables in the brushing area 4 is increased due to the fruits and vegetables needing to climb on the outlet side of the brushing area, and the cleaning effect is improved. Furthermore, the wiping component 30 may be disposed on the transition surface 21 to further enhance the cleaning effect, and it is recommended that the wiping component is disposed on the downstream side of the transition surface 31 in the flowing direction of the cleaning liquid, that is, the wiping component 30 is located at the high point of the transition surface 31, where the distance between the brushing part 12 and the wiping component 30 is minimum or crossed, so that the fruits and vegetables obtain more friction to obtain better cleaning effect.

When the C-shaped scrubber is adopted, due to the fact that the distance is reserved between the two adjacent rows of the first flexible cleaning objects 29, the small fruits and vegetables can easily drill between the two adjacent rows of the first flexible cleaning objects 29, and the following effects are caused: because the fruits and vegetables are located between two adjacent columns of the first flexible cleaning objects 29, the fruits and vegetables are clamped between two adjacent columns of the first flexible cleaning objects 29 when the scrubber 2 rotates, and only rotate along with the rotation of the scrubber 2, so that the first flexible cleaning objects 29 cannot be broken through, and the fruits and vegetables cannot be scrubbed by the first flexible cleaning objects 29. Therefore, the brushing part can also comprise a plurality of rows of second flexible cleaning objects 32, the second flexible cleaning objects 32 are arranged between two adjacent rows of first flexible cleaning objects 29, the height of the second flexible cleaning objects 32 is lower than that of the first flexible cleaning objects 29, so that small fruits and vegetables can not penetrate deeply into the space between two adjacent rows of first flexible cleaning objects 29 (blocked by the second flexible cleaning objects 32), and can be brushed by the second flexible cleaning objects 32 and/or the first flexible cleaning objects 29 with different force or contact size. The material, distribution and structure of the second flexible cleaning object 32 can refer to the material, distribution and structure of the first flexible cleaning object 29.

One or more rows of the second flexible cleaning objects 32 can be arranged between two adjacent rows of the first flexible cleaning objects 29. If a row of the second flexible cleaning objects 32 is arranged between two adjacent rows of the first flexible cleaning objects 29, it is recommended that the distance between two adjacent rows of the first flexible cleaning objects 29 is equal, the distance between two adjacent rows of the second flexible cleaning objects 32 is equal, and the regular arrangement is favorable for enhancing the cleaning effect on the radial cross section of the scrubber 2.

When the circulation driving mechanism circulates the cleaning liquid, the circulation flow of the cleaning liquid mainly circulates along the wall surface of the container 1, so that a dead water region (where the cleaning liquid is substantially stationary) exists between the brushing region 4 and the fruit and vegetable flow temporary storage region 3 which are arranged in parallel, and once the fruit and vegetable are in the dead water region, the fruit and vegetable cannot circulate with the cleaning liquid which circulates, and thus cannot be brushed by the brushing device 2. In order to solve this problem, a baffle 10 may be provided in the container 1, the circulation channel surrounding the baffle 10, and the dead water zone is substantially eliminated by the baffle 10, and the range of the dead water zone can be greatly reduced, if not completely eliminated. It is recommended that the blocking part 10 is provided with an arc surface protruding towards the temporary storage area for fruit and vegetable flow, so that the area of a dead water area can be further reduced, and the flowing fruit and vegetable can be ejected outwards to prevent the fruit and vegetable from being detained.

After the baffle part 10 is arranged, one end of the rotating shaft 11 can be supported on the container 1, the other end of the rotating shaft 11 is supported on the baffle part 10 or penetrates into the baffle part 10, and the rotating shaft 11 is not only simple to install, but also is stable after installation. As mentioned above, the other end of the shaft 11 is preferably detachably connected to the blocking portion 10 to facilitate the removal of the scrubber 2.

The barrier 10 may be generally configured as a partition having a length that facilitates the formation of a circulation channel. Of course, the barrier 10 may also take the form of a pillar or the like.

The barrier portion 10 may be formed separately from the container 1, or may be formed integrally with the container 1. When the barrier 10 is formed separately from the container 1, the barrier 10 and the container 1 may be fixed by a snap, or may be fixed by a screw, or may be a rail on the container, and the barrier is fixed by inserting the rail. In fig. 40 and 41, the bottom surface of the barrier portion 10 is provided with a slide rail groove 33, the bottom surface of the container 1 is provided with a slide rail 34, and the installation of the barrier portion 10 can be realized by sliding the slide rail 34 into the slide rail groove 33; in fig. 42, the lower portion of the blocking portion is provided with a locking protrusion 35, the bottom surface of the container 1 is provided with an insertion groove, a locking groove 36 is provided in the insertion groove, and the blocking portion 10 can be installed by locking the locking protrusion 3 into the locking groove 36; in fig. 43 and 44, the barrier 10 and the container 1 are connected by a screw, the screw penetrates the barrier 10 from the container 1, and a penetration rod 37 for penetrating the screw may be provided in the barrier 10. When the barrier 10 and the container 1 are integrally formed, the preferred forming method is as follows: a hollow projection is formed on the bottom surface of the container 1, and the projection forms the barrier 10.

As described above, although the presence of the barrier 10 can eliminate the dead water zone to some extent, the influence of the dead water zone cannot be completely eliminated, or the flow rate of the cleaning liquid near the barrier 10 is lower than the flow rate of the cleaning liquid at the periphery of the container, and the fruits and vegetables near the barrier 10 may be retained near the barrier 10, so that the inclined surface 38 may be provided at the boundary between the barrier 10 and the bottom surface of the container 1, and the inclined surface 38 is inclined outward from the top to the bottom of the barrier 10, so that the fruits and vegetables at the boundary between the barrier 10 and the container 1 flow outward along the inclined surface 38, and the fruits and vegetables at the boundary between the barrier 10 and the container 1 enter the cleaning liquid at a high flow rate again.

After the baffle 10 is arranged, a fruit and vegetable inlet is formed between the downstream end of the baffle 10 and the side wall of the container 1 in the flowing direction of the cleaning liquid. In order to prevent the fruits and vegetables from being jammed at the fruit and vegetable inlet, a retracted guide surface is provided at the downstream end of the barrier part 10 to form a wide fruit and vegetable guide opening between the guide surface and the side wall of the container.

Another measure for preventing fruit and vegetable congestion is as follows: the rotating shaft 11 can be arranged on the container in a bidirectional rotating mode, namely the rotating shaft 11 can rotate clockwise or anticlockwise, the simplest method for achieving the effect is to penetrate or erect the rotating shaft 11 on the container 1, and a one-way mechanism is not arranged between the rotating shaft 11 and the container 1. After the rotating shaft 11 is designed to rotate in two directions, once the fruits and vegetables are jammed in the container 1, the rotating shaft can rotate in the opposite direction, so that the scrubber 2 rotates in the opposite direction, and the cleaning liquid flows in the opposite direction, so that the jammed fruits and vegetables can be scattered, and the jam of the fruits and vegetables can be solved.

In the case of the C-type scrubber, since the scrubber 2 is disposed in the container so that the rotation shaft 11 is horizontal, the scrubber 2 is rotated to throw off the cleaning liquid in the container 1, thereby causing the cleaning liquid to splash. Therefore, a splash-proof cover 39 can be covered on the brushing area 2 to prevent the cleaning liquid from being thrown out, and the most common structure of the splash-proof cover 39 is that the splash-proof cover 39 includes a raised part corresponding to the scrubber 2 and a connecting part connected with the container. Typically, splash guard 39 is a plastic, preferably transparent, piece of plastic so that the cleaning conditions in the brushing zone 4 can be observed. The splash cover 39 may cover only the brushing area 4 or, as shown in fig. 47, may cover the area outside the brushing area 4 so as to close the upper opening of the container for better water-blocking.

After splash-proof cover 39 is provided, water thrown out by scrubber 2 during rotation will be sprayed onto splash-proof cover 39, and water blocked by splash-proof cover 39 will be flushed back onto scrubber 2, forming resistance to the rotation of scrubber 2. To minimize this resistance, the minimum separation between splash cover 39 and the outer edge of scrubber 2 is 2mm, so that the ram pressure of water that is blocked by splash cover 39 is kept to a small extent.

In order to further reduce the splashing of the cleaning liquid, a water blocking mechanism may be provided between the splash guard 39 and the container 1 to block the water thrown out by the brush unit 12 and prevent the water thrown out by the brush unit 12 from leaking out of the container. The concrete structural style of the water retaining mechanism can be as follows: the water retaining mechanism comprises a splash-proof groove 40 arranged on the upper end surface of the container and splash-proof ribs 41 arranged on the splash-proof blocking cover, and the splash-proof ribs 41 can be inserted into the splash-proof groove 40 when the splash-proof blocking cover 39 covers the brushing area; or the water retaining mechanism comprises splash-proof ribs arranged on the upper end face of the container and splash grooves arranged on the splash-proof blocking cover, wherein the splash-proof blocking cover covers the upper end face of the container, and the splash-proof ribs can be inserted into the splash grooves when the flushing area is up. The splashproof rib can keep off the washing liquid, and the splashproof groove can hold the washing liquid that is kept off down.

Another concrete structural form of the water retaining mechanism can be as follows: the water retaining mechanism comprises a sealing ring 42 arranged between the splash-proof cover 39 and the container 1, and the sealing ring 42 realizes water sealing and basically stops the outward splashing of the cleaning liquid.

Generally, the splash guard 39 is detachably connected to the container 1, and the splash guard 39 is removed to facilitate cleaning of the brushing area 4 and replacement of brushes. The splash guard 39 is usually only mounted on the container 1, but for further stability, detachable connections such as snap connections, screw connections, etc. may of course be used between the splash guard 39 and the container 1.

After the splash guard cover 39 is arranged, the splash guard part 10 can be arranged on the splash guard cover 39, namely, the splash guard cover 39 is provided with a clapboard, the splash guard cover 39 covers the brushing area, the clapboard can stretch into the container 1, so that the circulating channel surrounds the clapboard.

As a preferable structure, a water filtering port 43 may be opened on a side wall of the container 1, and the height of the cleaning liquid in the container 1 does not exceed the position of the water filtering port. After the fruits and vegetables are cleaned, the cleaning liquid can be poured out through the water filtering port 43, and the fruits and vegetables are intercepted in the container 1 and cannot be poured out from the water filtering port.

As a preferable structure, the container 1 is provided with a draining basket 44, fruits and vegetables are contained in the draining basket 44 during cleaning, and the draining basket 44 is lifted after cleaning. The bottom of the draining basket 44 preferably substantially conforms to the bottom of the container 1 to avoid loss of space in the container 1, and by "substantially conforming" is meant that the bottom of the draining basket 44 may substantially conform to the bottom of the container 1, or that there may be a small distance therebetween. In order to take out the draining basket 44 conveniently, the draining basket 44 is provided with a notch, and the brushing device 2 is positioned in the notch and can basically and completely take out the fruits and vegetables in the container 1.

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

The embodiments of the present invention have been described above. However, the present invention is not limited to the above embodiment. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. A fruit and vegetable cleaning device is characterized by comprising a container, a scrubber, a baffle part and a circulating driving mechanism,

the circular driving mechanism is used for providing driving force so as to drive the cleaning liquid and the fruits and the vegetables to circularly flow in the circular channel when the fruits and the vegetables are cleaned, and the fruits and the vegetables are sequentially brushed by the brushing area.

2. The fruit and vegetable cleaning device according to claim 1, characterized in that: the circulating driving mechanism comprises a rotating impeller.

3. The fruit and vegetable cleaning device according to claim 1, characterized in that: the brushing device comprises a rotating shaft and a brushing part arranged on the rotating shaft, the brushing part extends in the direction far away from the rotating shaft, and fruits and vegetables can pass through the brushing device and the bottom surface of the container when circularly flowing in the container.

4. The fruit and vegetable cleaning device according to claim 3, characterized in that: the brushing device is arranged on the container in a mode that the rotating shaft is transversely arranged.

5. The fruit and vegetable cleaning device according to claim 3, characterized in that: the brushing device forms the circulating driving mechanism;

6. The fruit and vegetable cleaning device according to claim 1, characterized in that: the scrubber comprises a back plate and a scrubbing object arranged on the first surface of the back plate.

7. The fruit and vegetable cleaning device according to claim 6, characterized in that: the brushing objects are arranged towards the bottom surface of the container.

8. The fruit and vegetable cleaning device according to claim 1, characterized in that: the scrubber comprises cleaning objects arranged on the side surface and/or the bottom surface of the container.

9. The fruit and vegetable washing device as claimed in claim 1, wherein the usable fruit and vegetable volume of the washing zone is smaller than the usable fruit and vegetable volume of the temporary fruit and vegetable flow area; and/or the maximum cross-sectional area of the brushing area is smaller than or equal to the minimum cross-sectional area of the fruit and vegetable flow temporary storage area.

10. The fruit and vegetable washing device as claimed in claim 4, wherein the axis of the rotating shaft is substantially perpendicular to the flow direction of the washing liquid in the container.

11. The fruit and vegetable cleaning device according to claim 3, wherein the brushing part comprises a plurality of rows of first flexible cleaning objects distributed along the axial direction of the rotating shaft, the first flexible cleaning objects can be bent by touching, a first end of the first flexible cleaning objects is arranged on the rotating shaft, and a second end of the first flexible cleaning objects is a free end.

12. The fruit and vegetable washing apparatus of claim 11 wherein each row of the first flexible cleaning object includes a plurality of rows of rods.

13. The fruit and vegetable cleaning device of claim 12, wherein the spacing between adjacent rows of the first flexible cleaning object is substantially equal in a radial cross-section of the scrubber.

14. The fruit and vegetable washing device as claimed in claim 12, wherein each row of the first flexible washings is arranged along the axial direction of the rotating shaft or spirally arranged relative to the axial direction of the rotating shaft.

15. The fruit and vegetable washing device as claimed in claim 4, characterized in that the bottom of the container is provided with a wiping part which is located in front of and/or behind and/or below the scrubber in the flow direction of the washing liquid.

16. The fruit and vegetable washing device as claimed in claim 15, wherein the wiper member is located at a rear position below the scrubber in a flow direction of the washing liquid.

17. The fruit and vegetable cleaning device of claim 15, wherein the wiping member is a flexible cleaning object, a rib or a bump.

18. The fruit and vegetable washing device as claimed in claim 15, wherein the brush unit has an end portion contacting the wiper member to enable the brush unit to clean the wiper member.

19. The fruit and vegetable washing device as claimed in claim 4, characterized in that a transition surface gradually rising in the flow direction of the washing liquid is formed on the bottom surface of the washing zone or on the bottom surface of the container on the outlet side of the washing zone to enhance the washing effect.

20. The fruit and vegetable cleaning device of claim 19, wherein the transition surface is in the shape of an inclined plane or an inward concave arc.

21. The fruit and vegetable cleaning device of claim 19, wherein a wiping member is disposed on the transition surface.

22. The fruit and vegetable washing device of claim 21 wherein the wiper member is disposed on a downstream side of the transition surface in a flow direction of the washing liquid.

23. The fruit and vegetable cleaning device according to claim 4, wherein the brushing part further comprises a plurality of rows of second flexible cleaning objects, the second flexible cleaning objects are arranged between two adjacent rows of the first flexible cleaning objects, and the height of the second flexible cleaning objects is lower than that of the first flexible cleaning objects.

24. The fruit and vegetable washing device as claimed in claim 23, wherein the second flexible washings disposed between two adjacent rows of the first flexible washings are in one or more rows.

25. The fruit and vegetable washing device of claim 24, wherein the second flexible wash load disposed between two adjacent rows of the first flexible wash load is in one row;

26. The fruit and vegetable washing device as claimed in claim 1, wherein the scrubber includes a rotating shaft and a scrubber portion provided on the rotating shaft, the scrubber portion extends in a direction away from the rotating shaft, the fruit and vegetable can pass between the scrubber portion and the bottom surface of the container when circulating in the container, one end of the rotating shaft is supported on the container, and the other end of the rotating shaft is supported on the barrier portion.

27. The fruit and vegetable cleaning device of claim 1, wherein the partition is a partition.

28. The fruit and vegetable washing device as claimed in claim 1, wherein the barrier is formed separately from the container.

29. The fruit and vegetable washing device as claimed in claim 28, wherein the partition is fixed to the container by a snap or a screw or a rail.

30. The fruit and vegetable washing device as claimed in claim 1, wherein the container and the barrier are both plastic, and the barrier is integrally formed with the container.

31. The fruit and vegetable cleaning device as claimed in claim 1, wherein the junction between the partition and the bottom of the container is provided with an inclined surface, and the inclined surface is inclined outwards from top to bottom from the partition.

32. The fruit and vegetable washing device as claimed in claim 1, wherein the downstream end of the partition is provided with a guide surface which is inwardly tapered in the flow direction of the washing liquid to form a wide fruit and vegetable guide opening between the guide surface and the side wall of the container.

33. The fruit and vegetable washing device as claimed in claim 1, wherein the baffle has a curved surface protruding toward the fruit and vegetable flow buffer.

34. The fruit and vegetable washing device of claim 5 wherein the brushing area is covered with a splash guard.

35. The fruit and vegetable washing device of claim 34, wherein the minimum distance between the splash guard and the outer rim of the scrubber is 2mm.

36. The fruit and vegetable washing device of claim 34, wherein the splash guard includes a raised portion corresponding to the scrubber and a connection portion for connection to the container.

37. The fruit and vegetable washing device of claim 34, wherein a water blocking mechanism is provided between the splash guard and the container to block water thrown by the brushing unit.

38. The fruit and vegetable washing device of claim 37, wherein the water retaining mechanism comprises a splash groove formed in the upper end surface of the container and splash ribs formed on a splash cover, the splash ribs being insertable into the splash groove when the splash cover is placed on the washing area;

39. The fruit and vegetable washing device of claim 37, wherein the retaining mechanism includes a gasket disposed between the splash cover and the container.

40. The fruit and vegetable washing device of claim 34, wherein the splash guard is removably attachable to the container.

41. The fruit and vegetable washing device of claim 34, wherein the splash cover includes a baffle that extends into the container when the splash cover is positioned over the washing area such that the recirculation path surrounds the baffle.

42. The fruit and vegetable washing device as claimed in claim 1, wherein the number of the brushes is plural, and the plural brushes are arranged side by side.

43. The fruit and vegetable washing device as claimed in claim 3, wherein the scrubber comprises a first scrubber and a second scrubber arranged oppositely.

44. The fruit and vegetable washing device of claim 43, wherein the first scrubber and the second scrubber are connected by a reversing mechanism to reverse the rotation direction of the first scrubber and the second scrubber.

45. The fruit and vegetable washing device as claimed in claim 5, wherein the shaft is connected to a driving mechanism for driving the rotation of the shaft.

46. The fruit and vegetable washing device as claimed in claim 45, wherein the driving mechanism is an electric driving mechanism or a manual driving mechanism.

47. The fruit and vegetable washing device as claimed in claim 45, wherein a speed adjusting mechanism is provided between the driving mechanism and the shaft.

48. The fruit and vegetable washing apparatus of claim 45 wherein said drive mechanism is removably connected to said container.

49. The fruit and vegetable washing device as claimed in claim 3, wherein the scrubber is detachably mounted on the container.

50. The fruit and vegetable washing device of claim 46, wherein the drive mechanism is a manual drive mechanism which is a rocking handle, and the distance between the rocking handle and the bottom surface of the container when the rocking handle is at the lowest position is 1.5cm-8cm.

51. The fruit and vegetable cleaning device of claim 1, wherein the corners of the container are both rounded.

52. The fruit and vegetable washing device as claimed in any one of claims 1 to 51, wherein the bottom of the fruit and vegetable flow buffer is provided with a slope, and the fruit and vegetable flows from the high position of the slope to the low position of the slope to accelerate the flow of the fruit and vegetable when flowing out of the washing area and entering the fruit and vegetable flow buffer.

53. The fruit and vegetable cleaning device according to claim 4, wherein the rotating shaft is arranged on the container in a bidirectional rotating manner.

54. The fruit and vegetable cleaning device according to claim 11, wherein the first flexible cleaning object is a plastic flexible cleaning object, a soft plastic flexible cleaning object, or a cloth strip flexible cleaning object.

55. The fruit and vegetable washing device of any one of claims 1-51, wherein the side wall of the container is provided with a water filtering port.

56. The fruit and vegetable washing apparatus of any one of claims 1-51, wherein a drain basket is provided in the vessel.

57. The fruit and vegetable washing apparatus of claim 56, wherein the bottom surface of the drip basket is substantially conformable to the bottom surface of the container.

58. The fruit and vegetable cleaning device of claim 56, wherein the draining basket is provided with a notch, and the brushing device is positioned in the notch.

59. The fruit and vegetable washing device as claimed in claim 4, wherein the brushing part is higher than the container after the brushing device is installed.

60. The fruit and vegetable washing device of claim 59, wherein the distance between the brushing portion and the bottom surface of the container is 0.5mm-5cm after the brushing device is installed.

61. The fruit and vegetable washing device of claim 59, wherein the scrubber section contacts the bottom surface of the container after the scrubber section is installed.

62. The fruit and vegetable washing device as claimed in claim 4, wherein the brushing portions are distributed substantially equally across the width of the washing zone.

63. The fruit and vegetable cleaning device according to claim 3 or 4, characterized in that: and the container space corresponding to the orthographic projection area of the rotating outer contour of the scrubber at the bottom of the container is the scrubbing area.

64. The fruit and vegetable cleaning device according to claim 1, characterized in that: the number of the brushing devices is one or more, and the brushing area is arranged corresponding to the brushing devices.

65. The fruit and vegetable cleaning device of claim 64, wherein: the brushing devices are multiple, the brushing areas correspond to the brushing devices one by one, and the brushing areas are continuously arranged or arranged at intervals.

66. The fruit and vegetable cleaning device of claim 65, wherein: the number of the brushing areas is one or more, and each brushing area is provided with one or more brushing devices.

67. The fruit and vegetable washing device of any one of claims 1-51, wherein the maximum height of the barrier is equal to the height of the container.

68. The fruit and vegetable cleaning device according to claim 3 or 4, wherein the rotating shaft comprises a main shaft and a shaft sleeve arranged on the main shaft, and the brushing part is arranged on the shaft sleeve.