CN218451366U

CN218451366U - Fruit and vegetable cleaner

Info

Publication number: CN218451366U
Application number: CN202222228314.XU
Authority: CN
Inventors: 黄智勇; 黄正辉
Original assignee: Cixi Bosheng Plastic Co Ltd
Current assignee: Cixi Bosheng Plastic Co Ltd
Priority date: 2022-08-24
Filing date: 2022-08-24
Publication date: 2023-02-07
Anticipated expiration: 2032-08-24

Abstract

A fruit and vegetable cleaner comprises an outer barrel, an inner barrel positioned in the outer barrel and used for containing fruits and vegetables, a water retaining cover covering the outer barrel and a manual driving mechanism, wherein a scrubber is arranged in the inner barrel and comprises a scrubbing rotating shaft and an inner scrubbing part arranged on the scrubbing rotating shaft, and an outer scrubbing part is arranged on the inner wall of the inner barrel; the manual driving mechanism comprises a rocking handle and a driving shaft which is vertically arranged and connected with the rocking handle, the driving shaft is connected with the brushing rotating shaft in a driving way, and the rocking handle rotates by taking the driving shaft as a shaft, so that the manual driving mechanism can drive the brushing rotating shaft to drive the inner brushing part to rotate; the rocking handle is provided with a hand-held grab handle which is rotatably arranged at the upper side of the rocking handle; the brushing rotating shaft is connected with the inner barrel through a transmission mechanism, so that the brushing device can drive the inner barrel to rotate through the transmission mechanism when rotating.

Description

Fruit and vegetable cleaner

Technical Field

The utility model relates to a fruit vegetables purger.

Background

CN209219203U discloses a household fruit cleaning device, which comprises a cleaning box for containing fruits, wherein a rotating shaft is transversely arranged in the cleaning box, and a brush strip is arranged on the rotating shaft. 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.

CN104287650A discloses a fruit washs basket, including holding the vanning and disturbance belt cleaning device, disturbance belt cleaning device includes handle, U-shaped connecting rod and cleaning roller, and when using, will hold the vanning and pack into clear water, will wait that abluent fruit is put into and hold the vanning, rotates the handle, and the cleaning roller can be constantly disturbance and wait to wash fruit, and the brush hair on cleaning roller upper portion can wash spot and residual pesticide on the fruit surface simultaneously.

The fruit and vegetable cleaning device in the prior art has the basic structure that a rotating brushing device is arranged in a container, fruits and vegetables are brushed by the brushing device, the whole mechanism only rotates by the brushing device, and the cleaning effect is still to be improved.

Disclosure of Invention

In order to overcome the above-mentioned not enough of current fruit vegetables purger, the utility model provides a better fruit vegetables purger of cleaning performance.

The technical proposal of the utility model for solving the technical problem is that: a fruit and vegetable cleaner comprises an outer barrel, an inner barrel positioned in the outer barrel and used for containing fruits and vegetables, a water retaining cover covering the outer barrel and a manual driving mechanism, wherein a scrubber is arranged in the inner barrel and comprises a scrubbing rotating shaft and an inner scrubbing part arranged on the scrubbing rotating shaft, and an outer scrubbing part is arranged on the inner wall of the inner barrel;

the manual driving mechanism comprises a rocking handle and a driving shaft which is vertically arranged and connected with the rocking handle, the driving shaft is connected with the brushing rotating shaft in a driving way, and the rocking handle rotates by taking the driving shaft as a shaft, so that the manual driving mechanism can drive the brushing rotating shaft to drive the inner brushing part to rotate;

the rocking handle is provided with a hand-held grab handle which is rotatably arranged at the upper side of the rocking handle;

the brushing rotating shaft is connected with the inner barrel through a transmission mechanism, so that the brushing device can drive the inner barrel to rotate through the transmission mechanism when rotating.

Further, the grab handle on be equipped with the grab handle pivot, the grab handle pivot penetrate the rocking handle in, the grab handle use the grab handle pivot rotate as the axle.

Furthermore, the handle rotating shaft is parallel to the driving shaft and is arranged on the rocking handle at intervals.

Furthermore, the handle rotating shaft is fixed with the rocking handle, and the handle rotating shaft and the handle can rotate relatively.

Furthermore, a ball is arranged between the upper end of the handle rotating shaft and the handle.

Furthermore, the handle rotating shaft is axially positioned on the handle.

Or: the grab handle rotating shaft and the grab handle are fixed, and the grab handle rotating shaft and the rocking handle can rotate relatively.

Furthermore, a ball body is arranged between the lower end of the handle rotating shaft and the rocking handle.

Furthermore, the handle rotating shaft is axially positioned on the rocking handle.

Further, the inner barrel rotates in a direction opposite to the direction of rotation of the scrubber.

The beneficial effects of the utility model reside in that: when the fruits and vegetables are cleaned, the inner barrel and the scrubber can rotate, so that the cleaning effect can be enhanced.

Drawings

Fig. 1 is a sectional view of a case where an electric drive mechanism is used as a drive mechanism.

Fig. 2 is a sectional view of the present invention in one form of construction.

FIG. 3 is a schematic view of the drive head and scrubber of FIG. 2.

Fig. 4 is a cross-sectional view of another form of the present invention.

Fig. 5 is a schematic view of the support shaft and sun gear of fig. 4.

Fig. 6 is a schematic view of another angle of the support shaft and the sun gear of fig. 4.

Fig. 7 is a cross-sectional view of another form of the present invention.

Fig. 8 is a schematic view of the support shaft and sun gear of fig. 7.

Fig. 9 is a schematic view of another angle of the support shaft and the sun gear of fig. 7.

Fig. 10 is a cross-sectional view of another form of the invention.

Fig. 11 is a cross-sectional view of another form of the present invention.

Fig. 12 is a perspective view of the present invention shown in fig. 11 with the water blocking cover removed.

FIG. 13 is an assembled view of the outer brush member.

Fig. 14 is a schematic view of the inner barrel having an elliptical cylindrical shape.

FIG. 15 is an exploded view of the inner barrel and the scrubber rotating in the same direction.

FIG. 16 is an exploded view of the inner barrel and the scrubber rotating in the same direction at another angle.

Fig. 17 is a sectional view of the present invention when the inner tub and the scrubber rotate in the same direction.

Fig. 18 is a sectional view of the present invention when the inner tub is inclined.

Fig. 19 is an assembled view of the handle.

Fig. 20 is another assembled view of the handle.

FIG. 21 is an exploded view of the garden stuff cleaner when the handle assembly of FIG. 20 is used.

Fig. 22 is an assembled view of the handle.

Fig. 23 is an assembled view of the handle.

FIG. 24 is an exploded view of the fruit and vegetable washer using the handle assembly of FIG. 23.

Fig. 25 is an assembled view of the handle.

FIG. 26 is an exploded view of the fruit and vegetable washer using the handle assembly of FIG. 25.

Detailed Description

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

Referring to fig. 1 to 26, the fruit and vegetable washing device includes an outer tub 1 and an inner tub 2 for containing fruits and vegetables, the inner tub 2 is vertically disposed in the outer tub 1 with a rotating shaft, a washing device 3 is disposed in the inner tub 2, an outer washing member 4 is disposed on an inner side wall of the inner tub 2, and the outer washing member 4 is generally flexible, and may be bristles or a flexible sheet (e.g., a soft sheet), and is preferably bristles. A more convenient mounting of the outer scrubbing member 4 is: as shown in fig. 13, the outer washing member 4 is provided on the brush plate 5, and the inner tub 2 is provided with a slot 6 on the inner sidewall thereof, and the brush plate 5 is slid into the slot 6.

In the present invention, "the inner barrel is vertically disposed in the outer barrel with the rotating shaft", it is not strictly required that the rotating shaft of the inner barrel is completely vertical, and when the inner barrel 2 is inclined but still is disposed in the outer barrel 1 in a substantially vertical manner, it still belongs to the situation that "the inner barrel is vertically disposed in the outer barrel with the rotating shaft", for example, as shown in fig. 18.

The fruit and vegetable cleaner further comprises a driving mechanism, at least part of the scrubber 3 is rotatably arranged in the inner barrel 2, and the driving mechanism drives the scrubber 3 and the inner barrel 2 to rotate. The inner tub 2 is generally vertically disposed cylindrical, and the inner tub 2 rotates about its central axis. Of course, the inner barrel 2 may have other shapes, for example, in fig. 14, the inner barrel 2 is in the shape of an oval cylinder vertically arranged and has an oval cross section, the inner barrel 2 rotates around its central axis, and a circulation flow channel for fruits and vegetables is formed in the inner barrel 2, so that fruits and vegetables can basically pass through the space between the outer brushing component 4 and the brushing device 3, and a better cleaning effect can be achieved.

The rotating direction of the inner barrel 2 and the rotating direction of the scrubber 3 can be opposite, when the rotating direction of the inner barrel 2 and the rotating direction of the scrubber 3 are opposite, the scrubbing direction of the scrubber 3 on fruits and vegetables is opposite to the scrubbing direction of the outer scrubbing component 4 of the inner barrel 2 on fruits and vegetables, and at the moment, an effect similar to scrubbing can be generated, so that a better cleaning effect can be achieved.

The rotating direction of the inner barrel 2 and the rotating direction of the scrubber 3 can be the same, when the rotating direction of the inner barrel 2 and the rotating direction of the scrubber 3 are the same, the scrubbing direction of the scrubber 3 to the fruits and vegetables and the scrubbing direction of the outer scrubbing component 4 of the inner barrel 2 to the fruits and vegetables are the same, the fruits and vegetables can run in the inner barrel 2 favorably, and a better cleaning effect can be achieved.

The body of the inner barrel 2 may be opened with an opening 26 through which the cleaning solution can flow, or may not be opened. When the opening 26 is formed on the body of the inner barrel 2, the cleaning solution is contained in the outer barrel 1, and the inner barrel 2 is immersed in the cleaning solution to facilitate the rotation of the inner barrel 2. Preferably, the opening 26 is opened at the bottom of the inner tub 2 to reduce the resistance of water when the inner tub rotates. Of course, the inner barrel 2 may not have openings, for example, as shown in fig. 7, the cleaning solution is contained in the inner barrel 2, which can relatively save the cleaning solution.

The driving mechanism may drive the scrubber 3 and the inner tub 2 to rotate: 1. the driving mechanism respectively drives the scrubber 3 and the inner barrel 2 to rotate; 2. the driving mechanism drives the scrubber 3 to rotate, and the driving mechanism drives the inner barrel 2 to rotate indirectly through the scrubber 3, and the specific mode can be as follows: a lower transmission mechanism is arranged between the lower part of the scrubber 3 and the inner barrel 2, the driving mechanism drives the scrubber 3 to rotate, and the driving mechanism drives the inner barrel 2 to rotate through the scrubber 3 and the lower transmission mechanism.

In this embodiment, the specific structural form of the scrubber 3 is as follows: the scrubber 3 comprises a scrubbing rotating shaft 7 and an inner scrubbing part 8 arranged on the scrubbing rotating shaft 7. The inner brushing member 8 is typically flexible and may be a bristle or a flexible sheet (e.g., a soft sheet, etc.), most preferably a bristle.

The length of inner brushing members 8 is preferably greater than the length of outer brushing members 4 so that scrubber 3 generates sufficient force to move the fruit and vegetable while rotating.

In this embodiment, the driving mechanism has a driving shaft 9, and generally, the driving shaft 9 is arranged coaxially with the brushing rotary shaft 7, that is, the driving shaft 9 is coaxially connected with the brushing rotary shaft 7, or the driving shaft 9 is coaxially connected with the brushing rotary shaft 7 integrally. Of course, the driving shaft 9 and the brushing rotation shaft 7 may be different shafts, for example, the driving shaft 9 and the brushing rotation shaft 7 are different shafts in fig. 11 and 12, the driving shaft 9 is located at one side of the brushing rotation shaft 7, the driving shaft 9 and the brushing rotation shaft 7 are connected through an upper transmission mechanism, in fig. 11 and 12, the upper transmission mechanism may adopt a gear transmission mechanism 10, and of course, a transmission mechanism in other mechanism forms, for example, a belt transmission mechanism, may also be adopted.

The driving mechanism may be located above the outer tub 1, or below the outer tub 1. In fig. 1, the driving mechanism is located below the outer tub, and at this time, the driving mechanism is generally an electric driving mechanism 11, an output shaft of the electric driving mechanism 11 is a driving shaft 9, and the driving shaft 9 extends into the brushing rotation shaft 7 to be tightly matched therewith, so as to drive the brushing device to rotate. Of course, the driving shaft 9 may be connected to the brushing rotation shaft 7 in other ways as long as the driving shaft 7 is driven to rotate, which is beneficial to screw connection, interference connection, snap connection, welding, etc.

When the driving mechanism is located above the outer barrel 1, a limiting frame is usually arranged on the opening side of the outer barrel 1, a shaft hole is formed in the limiting frame, and the driving shaft 9 penetrates through the shaft hole of the limiting frame. When the driving shaft 9 and the brushing rotary shaft 7 are integrated, the brushing rotary shaft 7 can be said to be inserted into the shaft hole of the limiting frame. In this embodiment, the upper portion of the inner barrel 2 is opened, and the limiting frame is a water blocking cover 12 covering the upper end of the outer barrel 1, which also plays a role of preventing water from splashing outside the outer barrel when cleaning fruits and vegetables.

When the driving mechanism is arranged above the outer barrel 1, the driving mechanism can be a motor, and a driving shaft of the motor is connected with the brushing rotating shaft 7. The driving mechanism can also be a manual driving mechanism, the manual driving mechanism comprises a rocking handle 13 and a driving shaft 9 which is vertically arranged and connected with the rocking handle 13, the driving shaft 9 of the manual driving mechanism is connected with the brushing rotating shaft 7, the rocking handle 13 rotates by taking the driving shaft 9 as an axis, and the rocking handle 13 rotates during driving, namely, the brushing device 3 can be driven to rotate. The connection between the driving shaft 9 and the brushing rotary shaft 7 may be: as shown in fig. 2, 3, 4 and 5, a driving head 14 is disposed at the lower end of the driving shaft 9, a driving groove 15 is disposed at the upper end of the brushing rotating shaft 7, and the driving head 14 extends into the driving groove 15; the side wall of the driving groove 15 is provided with a driven rib 16, the side wall of the driving head 14 is provided with a driving rib 17, and the driving rib 17 abuts against the driven rib 16 after the driving shaft 9 rotates, so that the driving shaft 9 can drive the brushing rotating shaft 7 to rotate, namely, the brushing device 3 is driven to rotate. Of course, the driving shaft 9 and the brushing rotation shaft 7 may be connected in other manners, such as interference connection, adhesion, welding, and snap connection, as long as the driving shaft 9 drives the brushing rotation shaft 7 to rotate.

In order to stabilize the scrubber 3 during rotation, a supporting mechanism for supporting the scrubber 3 to rotate is disposed on the bottom surface of the outer tub 1 to support the scrubber 3, so as to minimize shaking of the scrubber 3 during rotation.

The structural form of a supporting mechanism is as follows: as shown in fig. 2, the supporting mechanism includes a supporting shaft 18 fixed to the bottom surface of the outer tub 1, the supporting shaft 18 penetrates the brush rotating shaft 7 upward, the brush rotating shaft 7 is rotatable with respect to the supporting shaft 18, and the brush 3 is supported by the supporting shaft 18, while the brush 3 is detachable from the supporting shaft 18, so that the inner tub 2, the outer tub 1, and the brush 3 can be easily cleaned. In order to make the rotation of the scrubber 3 smoother, the balls 19 may be provided between the tip end of the support shaft 18 and the scrubber rotating shaft 7, and the balls 19 and the support shaft 18 and the balls 19 and the scrubber rotating shaft 7 may be in point contact with each other, so that the friction is extremely small, and the rotation of the scrubber 3 is facilitated. Meanwhile, in order to axially position the brushing rotating shaft 7 relative to the supporting shaft 18 (i.e. the brushing rotating shaft 7 cannot axially move) while enabling the brushing rotating shaft 7 to rotate, an axial positioning mechanism is disposed between the supporting shaft 18 and the brushing rotating shaft 7, and the axial positioning mechanism axially positions the brushing rotating shaft 7 and enables the brushing rotating shaft 7 to rotate, and a common specific embodiment of the axial positioning mechanism is as follows: the supporting shaft 18 is provided with a positioning groove, the brushing rotating shaft 7 is provided with a positioning convex part, and the positioning convex part is embedded into the positioning groove; or the supporting shaft 18 is provided with a positioning convex part, the brushing rotating shaft 7 is provided with a positioning groove, and the positioning convex part is embedded into the positioning groove. Of course, the axial positioning mechanism may also adopt other structural modes, such as axial positioning realized by a snap spring.

The structural form of a supporting mechanism is as follows: as shown in fig. 4, 5 and 6, the supporting mechanism includes a rotatable supporting shaft 18, a lower portion of the supporting shaft 18 penetrates into and rotatably abuts against a bottom surface of the outer tub 1, and an upper portion of the supporting shaft 18 is axially connected to the brushing rotary shaft 7, so that the supporting shaft 18 can rotate together with the brushing rotary shaft 7. In order to make the rotation of the scrubber 3 smoother, the balls 19 may be provided between the lower end of the support shaft 18 and the bottom surface of the outer tub 1, and the balls 19 and the support shaft 18, and the balls 19 and the outer tub 1 may be in point contact with each other, so that the friction is very small, which is advantageous for the rotation of the scrubber 2. Meanwhile, in order to make the supporting shaft 18 rotate and not move axially, an axial positioning mechanism is arranged between the supporting shaft 18 and the bottom surface of the outer tub 1, and the axial positioning mechanism axially positions the supporting shaft 18, and the common specific embodiment of the axial positioning mechanism is as follows: the supporting shaft 18 is provided with a positioning groove, the outer barrel 1 is provided with a positioning convex part, and the positioning convex part is embedded into the positioning groove; or the supporting shaft 18 is provided with a positioning convex part, the outer barrel 1 is provided with a positioning groove, and the positioning convex part is embedded into the positioning groove. Of course, the axial positioning mechanism may also adopt other structural modes, such as axial positioning by a snap spring. In fig. 4, the connection between the support shaft 18 and the brushing rotary shaft 7 is as follows: the upper portion of back shaft 18 penetrate wash behind the pivot 7 with wash pivot 7 and can dismantle the connection, a comparatively reasonable dismantlement connected mode who optimizes does: the lower end of the brushing rotating shaft 7 is provided with a driving groove, the upper part of the supporting shaft 18 is provided with a driving cap 20, and the driving cap 20 extends into the driving groove; the lateral wall of drive groove is equipped with the drive muscle, the lateral wall of drive cap 20 is equipped with passive muscle, wash the pivot 7 rotatory back the drive muscle with passive muscle offsets, thereby wash pivot 7 and can drive the back shaft 18 is rotatory. Of course, the detachable connection between the support shaft 18 and the brushing rotary shaft 7 may also be: the upper part of the supporting shaft 18 is coaxially in threaded connection with the brushing rotating shaft 7; or, the upper part of the supporting shaft 18 is connected with the brushing rotating shaft 7 in a snap-fit manner; or, a key connection between the upper portion of the support shaft 18 and the brush rotating shaft 7, and the like. In fig. 7, the connection between the support shaft 18 and the brush rotating shaft 7 is as follows: the supporting shaft 18 is directly inserted into the brushing rotation shaft 7 and fixedly connected thereto, and in fig. 7, the supporting shaft 18 is tightly connected therewith, so that the supporting shaft 18 can be driven to rotate when the brushing rotation shaft 7 rotates, and the supporting shaft 18 and the brushing rotation shaft 7 can be in threaded connection, snap connection, welding, and the like.

When the rotation directions of the scrubber 2 and the inner barrel 2 are opposite, the structure form of the lower transmission mechanism can be as follows: the transmission mechanism is a cycloidal pin gear transmission mechanism; or, as shown in fig. 2, the transmission mechanism is a planetary gear transmission mechanism, the planetary gear transmission mechanism includes a gear ring 21, a sun gear 22, and one or more planetary gears 23, the gear ring 21 is fixed on the bottom surface of the inner tub 2, the sun gear 22 is coaxially disposed on the brushing rotation shaft 7, the planetary gears 23 are rotatably fixed on the bottom surface of the outer tub 1, a gear rotation shaft can be disposed on the bottom surface of the outer tub 1, the planetary gears 23 are sleeved on the gear rotation shaft to realize that the planetary gears 23 are fixed on the bottom surface of the outer tub 1 and can rotate at the same time, and the planetary gears 23 are disposed between the sun gear 22 and the gear ring 21 and are respectively engaged with the sun gear 22 and the gear ring 21; in fig. 2, the ring gear 21 is disposed outside the bottom surface of the inner tub 2, a gear cavity is formed between the ring gear 21 and the bottom surface of the outer tub 1, and the sun gear 22 and the planetary gears 23 are located in the gear cavity. Or, in fig. 4 to 9, the transmission mechanism is a planetary gear transmission mechanism, the planetary gear transmission mechanism includes a gear ring 21, a sun gear 22, and one or more planetary gears 23, the gear ring 21 is fixed on the bottom surface of the inner tub 2, the sun gear 33 is coaxially disposed on the brushing rotation shaft or the support shaft 18, the planetary gear 23 is rotatably fixed on the bottom surface of the outer tub 1, a gear rotation shaft can be disposed on the bottom surface of the outer tub 1, the planetary gear 23 is sleeved on the gear rotation shaft to realize that the planetary gear 23 is fixed on the bottom surface of the outer tub 1 and can rotate at the same time, the planetary gear 23 is located between the sun gear 22 and the gear ring 21 and is respectively meshed with the sun gear 22 and the gear ring 21; specifically, in fig. 4 to 9, the ring gear 21 is disposed outside the bottom surface of the inner tub 2, a gear cavity is formed between the ring gear 21 and the bottom surface of the outer tub 1, the sun gear 22 and the planetary gears 23 are both located in the gear cavity, the sun gear 22 is disposed on the support shaft 18, and the support shaft 18 and the sun gear 22 are preferably detachably connected, so that the support shaft 18 can be detached to facilitate thorough cleaning of the inner tub 2 when necessary, and the detachable connection between the support shaft 18 and the sun gear 22 may be: as shown in fig. 5, 6, 8 and 9, the supporting shaft 18 has a supporting shaft plane portion 24, the sun gear 22 has a supporting shaft hole for the supporting shaft 18 to penetrate through, and the supporting shaft hole has a shaft hole plane 25 corresponding to the supporting shaft plane portion 24, so that after the supporting shaft 18 penetrates through the supporting shaft hole, the supporting shaft 18 and the sun gear 22 are circumferentially positioned but axially detachable, the rotation of the supporting shaft 19 can drive the rotation of the sun gear 22, and the supporting shaft 18 needs to be pulled out of the supporting shaft hole when being detached.

When the rotation directions of the scrubber 3 and the inner barrel 2 are the same, the lower transmission mechanism can be in the following structural form: as shown in fig. 15 to 17, the transmission mechanism is a planetary gear transmission mechanism, the planetary gear transmission mechanism includes a gear ring 21, a sun gear 22, and one or more planetary gears 23, the gear ring 21 is fixed on the bottom surface of the outer tub 1, the sun gear 22 is coaxially connected to a brushing rotation shaft or a driving shaft or a supporting shaft, the planetary gears 23 are rotatably fixed on the bottom surface of the inner tub 2, a gear rotation shaft can be arranged on the bottom surface of the inner tub 2, the planetary gears 23 are sleeved on the gear rotation shaft to realize that the planetary gears 23 are fixed on the bottom surface of the inner tub 2 and can rotate, the planetary gears 23 are located between the sun gear 22 and the gear ring 21 and are respectively engaged with the sun gear 22 and the gear ring 21, so that when the sun gear 22 rotates, the planetary gears 23 are driven to rotate, and simultaneously revolve around the gear ring 21, thereby achieving the purpose of co-rotating the

brushing devices

2 and 2.

In the previous embodiments, the driving mechanism indirectly drives the inner barrel 2 through the inner barrel 2 and the lower transmission mechanism, as mentioned above, the driving mechanism may also directly drive the scrubber 3 and the inner barrel 2, respectively, as shown in fig. 10, the driving shaft 9 is inserted into the scrubbing rotating shaft 7 and tightly connected therewith, so that the driving shaft 9 can drive the scrubber 3 to rotate (of course, the foregoing driving head form can be adopted to drive the scrubber to rotate), and after the driving shaft 9 penetrates through the scrubbing rotating shaft 7 and the inner barrel 2, the sun gear 22 is directly mounted on the driving shaft 9, so that the driving shaft 9 can also drive the inner barrel 2 to rotate through the sun gear 22, the planet gears 23 and the ring gear 21.

In one embodiment, in order to stabilize the rotation of the driving shaft 9 and reduce the shaking caused by the rotation, a position-limiting sleeve 27 may be disposed on the water-stopping cover 12, and the driving shaft 9 can be at least partially received in the position-limiting sleeve 27. The driving shaft 9 and the brushing rotating shaft 7 may be integrally disposed, and at this time, it can be said that at least part of the brushing rotating shaft 7 is accommodated in the limiting sleeve 27; of course, the driving shaft 9 and the brushing rotary shaft 7 may be separately provided, and at this time, the driving shaft 0 passes through the limiting sleeve 27 downward and then is connected to the brushing rotary shaft 7.

The stop collar 27 is generally cylindrical with a through hole having a diameter matching the outer diameter of the drive shaft 9. The stop collar 27 is generally protrudingly provided on the lower surface of the water deflector cover 12.

For convenient operation, a handle 28 for holding by hand can be arranged on the rocking handle 13, and the handle 28 can be held by hand for operation when the rocking handle 13 is rocked, so that the operation is more convenient. Of course, when the handle is not provided, the handle can be turned to swing by shifting the handle, and in order to swing the handle 13 more conveniently, the handle 28 is preferably rotatably provided on the upper side of the handle 13, and the most conventional way of rotation is: the grab handle 28 on be equipped with grab handle pivot 29, grab handle pivot 29 penetrate the rocking handle 13 in, grab handle 28 use grab handle pivot 29 rotate as the axle. The handle rotating shaft 29 is parallel to the driving shaft 9 and is arranged on the rocking handle 13 at intervals, and generally speaking, the handle rotating shaft 29 is arranged at the outer end of the rocking handle.

In one embodiment, the handle rotation shaft 29 is fixed to the rocking handle 13, and the handle rotation shaft 29 and the handle 28 can rotate relatively. As shown in fig. 19, the lower portion of the handle rotating shaft 29 is inserted into the rocking handle 13 and is tightly fitted and fixed with the rocking handle 13, the lower portion of the handle rotating shaft 29 can be provided with a tooth pattern, and the handle rotating shaft 29 and the rocking handle 13 are engaged and fixed through the tooth pattern; the upper part of the handle rotating shaft 29 penetrates into the handle 28 and the handle 28 can rotate, and simultaneously, the handle 28 is axially limited, so that the handle 28 is prevented from being separated from the handle rotating shaft 29, and the axial positioning of the handle 28 in fig. 19 is realized by the following steps: the handle shaft 29 is provided with an axial positioning groove, and the handle 28 is provided with a raised axial positioning shoulder which is positioned in the axial positioning groove. A first ball 30 may be disposed between the upper end of the handle rotating shaft 29 and the handle 28 to facilitate the rotation of the handle 28. Or as shown in fig. 20 and 21, the lower part of the handle rotating shaft 29 is inserted into the rocking handle 13 and is tightly matched and fixed with the rocking handle 13, the lower part of the handle rotating shaft 29 can be provided with a tooth pattern, and the engagement and fixation between the handle rotating shaft 29 and the rocking handle 13 can be realized through the tooth pattern; be equipped with axle sleeve 31 in the grab handle 29, the upper portion of grab handle pivot 29 penetrates in the axle sleeve 31 and grab handle 28 can rotate, still carries out axial spacingly to grab handle 28 simultaneously, prevents that grab handle 28 from breaking away from axle sleeve 31, the axial positioning of grab handle 28 is realized like this in fig. 20, 21: the handle rotating shaft 29 is provided with an axial positioning groove, and the shaft sleeve 31 is internally provided with a raised axial positioning convex shoulder which is positioned in the axial positioning groove. In fig. 20 and 21, the fixing method of the bushing 31 is: the outer side of the shaft sleeve 31 is provided with a convex rib 32, the shaft sleeve 31 is inserted into the handle 28, the shaft sleeve 31 is fixed through the friction between the convex rib 32 and the handle 28, the convex rib 32 is preferably axially arranged, and the upper end of the convex rib 32 is preferably provided with a slope for facilitating the insertion of the shaft sleeve 31. A first ball 30 may be disposed between the upper end of the handle shaft 29 and the sleeve 31 to facilitate the rotation of the handle 28.

In another embodiment, the handle rotating shaft 29 is fixed with the handle 28, and the handle rotating shaft 29 and the rocking handle 13 can rotate relatively. As shown in fig. 22, the upper portion of the handle rotating shaft 29 is inserted into the handle 28 and is tightly fitted and fixed with the handle, and the upper portion of the handle rotating shaft 29 may be provided with a tooth pattern, so that the handle rotating shaft 29 and the handle 28 are engaged and fixed by the tooth pattern; the lower part of the handle rotating shaft 29 penetrates into the rocking handle 1 and the handle rotating shaft 29 can rotate, and meanwhile, the handle rotating shaft 29 is axially limited, so that the handle rotating shaft 29 is prevented from being separated, and the axial positioning of the handle rotating shaft 29 in fig. 22 is realized as follows: the handle rotating shaft 29 is provided with an axial positioning groove, and the rocking handle 13 is internally provided with a raised axial positioning convex shoulder which is positioned in the axial positioning groove. A first ball 30 may be disposed between the lower end of the handle shaft 29 and the rocking handle 13 to facilitate the rotation of the handle 28. Or as shown in fig. 23, 24, 25 and 26, the upper part of the handle rotating shaft 29 is inserted into the handle 28 and is tightly matched and fixed with the handle, the upper part of the handle rotating shaft 29 can be provided with a tooth pattern, and the occlusion fixation between the handle rotating shaft 29 and the handle 28 is realized through the tooth pattern; be equipped with axle sleeve 31 in the rocking handle 13, the lower part of grab handle pivot 29 penetrates in axle sleeve 31 and grab handle pivot 29 can rotate, still carries out axial spacing to grab handle pivot 29 simultaneously, prevents that grab handle pivot 2 from breaking away from, and the axial positioning of grab handle pivot 29 is like this realization in fig. 23, fig. 24, fig. 25, fig. 26: the handle rotating shaft 29 is provided with an axial positioning groove, and the shaft sleeve 31 is internally provided with a raised axial positioning convex shoulder which is positioned in the axial positioning groove. In fig. 23 and 24, the fixing manner of the bushing 31 is: set up protruding muscle 32 on the outside portion of axle sleeve 31, insert axle sleeve 31 and fix axle sleeve 31 through the friction between protruding muscle 32 and the rocking handle 13 in the rocking handle 13, protruding muscle 32 is the axial setting preferably, and the lower extreme of protruding muscle 32 is preferred to be established the inclined plane and is convenient for insert the axle sleeve. In fig. 25 and 26, the fixing manner of the sleeve 31 is: the side wall of the shaft sleeve 31 is provided with a gap 33, so that an elastic flap 34 is formed at the upper part of the shaft sleeve 31, a buckle 35 is arranged at the outer side of the elastic flap 34, a bayonet is arranged in the rocking handle 13, and the shaft sleeve 31 is inserted into the rocking handle 28, then the buckle 35 is clamped into the bayonet, so that the shaft sleeve 31 is fixed. A first ball 30 may be disposed between the upper end of the handle shaft 29 and the sleeve 31 to facilitate the rotation of the handle 28.

The part of the rocking handle 13 connected with the driving shaft 9 is a connecting part, and a gap is formed between the part of the rocking handle 13 outside the connecting part and the water blocking cover 12, so that when the rocking handle 13 is rocked, friction cannot be generated between the rocking handle 13 and the water blocking cover 12, and the operation is very smooth. As described above, the brushing rotation shaft 7 and the driving shaft 9 may be formed as separate bodies, the driving shaft 9 abuts against the upper end of the brushing rotation shaft 7 to limit the rocking handle 13, and a gap is formed between the rocking handle 13 and the water blocking cover 12. The driving shaft 9 may abut against the upper end of the brushing rotary shaft 7 in a manner that: the lower extreme of drive shaft 9 is equipped with butt portion, butt portion butt on the up end of brush holder pivot 7, in one embodiment the butt portion is followed the lateral part protrusion of drive shaft, and this butt portion is specifically for locating the annular bulge of drive shaft lower extreme, be equipped with the protruding muscle of initiative on the bellied lower surface of annular, be equipped with passive protruding muscle on the upper end surface of brushing the pivot, the rocking handle rotates and makes the protruding muscle of initiative can with passive protruding muscle offsets to it is rotatory to drive to brush the pivot. The manner in which the drive shaft 9 abuts against the upper end of the brush rotating shaft 7 may be the aforementioned manner: the upper end of the brushing rotating shaft 7 is provided with a driving groove 15, the lower end of the driving shaft 9 is provided with a driving head 14, the driving head 14 abuts against the bottom surface of the driving groove 15, the driving head 14 is provided with a driving rib 17, the driving groove 15 is internally provided with a driven rib 16, the rocking handle 13 rotates to enable the driving rib 17 to abut against the driven rib 16, so that the brushing rotating shaft 7 is driven to rotate, the driving rib 17 is generally arranged on the side wall of the driving head 14, and the driven rib 16 is generally arranged on the inner side wall of the driving groove 15.

Of course, the brushing rotating shaft and the driving shaft can also be of an integrated structure, and a gap can be formed between the rocking handle and the water blocking cover under the action of the supporting mechanism.

In order to make the operation between the rocking handle 13 and the water stop cover 12 smooth, other modes can be adopted, namely, a friction reducing mechanism is arranged between the rocking handle 13 and the water stop cover 12, and the friction reducing mechanism has various forms, one is a plane bearing, the other is a ball, the other is a wheel arranged on the rocking handle 13, and the other is lubricating grease and the like arranged between the two.

Claims

1. The utility model provides a fruit vegetables purger, includes outer bucket, is located the interior bucket that is arranged in outer bucket to hold fruit vegetables, the lid is established and is kept off water lid and manual actuating mechanism on the outer bucket which characterized in that: the inner barrel is internally provided with a scrubber which comprises a scrubbing rotating shaft and an inner scrubbing part arranged on the scrubbing rotating shaft, and the inner wall of the inner barrel is provided with an outer scrubbing part;

2. The fruit and vegetable washer of claim 1, wherein: the grab handle on be equipped with the grab handle pivot, the grab handle pivot penetrate the rocking handle in, the grab handle use the grab handle pivot rotate as the axle.

3. The fruit and vegetable cleaner as claimed in claim 2, wherein: the handle rotating shaft is parallel to the driving shaft and is arranged on the rocking handle at intervals.

4. The fruit and vegetable washer according to claim 2 or 3, characterized in that: the handle rotating shaft is fixed with the rocking handle, and the handle rotating shaft and the handle can rotate relatively.

5. The fruit and vegetable washer of claim 4, wherein: a ball is arranged between the upper end of the handle rotating shaft and the handle.

6. The fruit and vegetable washer of claim 4, wherein: the handle rotating shaft is axially positioned on the handle.

7. The fruit and vegetable washer according to claim 2 or 3, characterized in that: the handle rotating shaft and the handle are fixed, and the handle rotating shaft and the rocking handle can rotate relatively.

8. The fruit and vegetable washer of claim 7, wherein: a ball body is arranged between the lower end of the handle rotating shaft and the rocking handle.

9. The fruit and vegetable cleaning device according to claim 7, characterized in that: the handle rotating shaft is axially positioned on the rocking handle.

10. The fruit and vegetable cleaner according to claim 1, wherein: the rotating direction of the inner barrel is opposite to the rotating direction of the brushing device; or,

the rotating direction of the inner barrel is the same as the rotating direction of the brushing device.