CN216722998U - Food purifying machine - Google Patents

Abstract

The utility model provides a food cleaning machine, which relates to the technical field of food cleaning equipment and comprises a valve body assembly and an ozone water supply assembly, wherein a first water inlet, a first water outlet and a second water outlet are formed in a valve body of the valve body assembly; the ozone generator of the ozone water supply assembly is suitable for releasing ozone, the ejector of the ozone water supply assembly is provided with an air inlet, a second water inlet and a third water outlet, the air inlet is communicated with the ozone generator, the second water inlet is communicated with the first water outlet, and the third water outlet is suitable for discharging ozone water formed after mixing ozone and tap water. The utility model can realize the switching use of ozone water and common tap water, and can directly place food materials at the second water outlet or the third water outlet for cleaning without using a container, thereby reducing the space occupied by kitchens and bathrooms.

Description

Food purifying machine

Technical Field

The utility model relates to the technical field of food cleaning equipment, in particular to a food cleaning machine.

Background

With the continuous development of society, people pay more and more attention to food safety problems, and food cleaning machines for cleaning and purifying food are widely used for removing substances harmful to health, such as pesticide residues in fruit and vegetable food and hormones in meat food.

The existing food cleaning machine mostly adopts the mode that food materials are placed in a container, and then a purifier is used for converting common water in the container into ozone water to clean and purify food.

SUMMERY OF THE UTILITY MODEL

The utility model solves the problem of how to realize the switching use of ozone water and household common tap water by the food cleaning machine, thereby reducing the space occupied by kitchens and bathrooms.

In order to solve the above problems, the present invention provides a food cleaning machine, comprising;

the valve body assembly comprises a valve body and a valve core, wherein a first water inlet, a first water outlet and a second water outlet are formed in the valve body, and the valve core is arranged in the valve body and is suitable for rotating so as to realize the on-off of the first water inlet and the first water outlet and the on-off of the first water inlet and the second water outlet;

ozone water supply assembly, it includes ozone generating device and ejector, ozone generating device is suitable for the release ozone, be equipped with air inlet, second water inlet and third delivery port on the ejector, the air inlet with ozone generating device intercommunication, the second water inlet with first delivery port intercommunication, the third delivery port is suitable for the ozone water that forms after discharge ozone and running water mix.

Optionally, the ozone generating device comprises a high-pressure bag, an ozone generating pipe and a one-way valve, wherein the high-pressure bag, the ozone generating pipe and the one-way valve are sequentially communicated, and the one-way valve is suitable for being communicated with the air inlet.

Optionally, the ozone water supply assembly further comprises a base and a support, the ejector is arranged on the base, the support is located above the ejector and detachably connected with the base, and the high-pressure bag, the ozone generating pipe and the one-way valve are arranged on the support.

Optionally, the ozonated water supply assembly further comprises a power supply and a control board, the power supply and the control board are arranged on the bracket and electrically connected with the ozone generating device and the ejector.

Optionally, the ozone water supply assembly further includes a fluid director and a water outlet nut, the fluid director is disposed in the third water outlet, and the water outlet nut is disposed at a position corresponding to the third water outlet and connected to the ejector.

Optionally, the valve body assembly further includes a water outlet end cover, and the water outlet end cover is disposed at a position corresponding to the second water outlet and connected to the valve body.

Optionally, the water outlet end cover comprises an end cover body and a water guide structure, a water outlet hole is formed in the end cover body, and the water guide structure is arranged at a position, corresponding to the second water outlet, on the end cover body and is suitable for guiding water flow to flow out from the water outlet hole.

Optionally, the valve body assembly further comprises a knob connected to the valve core and adapted to drive the valve core to rotate.

Optionally, the valve body assembly further includes a valve core end cover, the valve core includes a valve core body and a connecting portion, the valve core end cover is connected with the valve body and then is suitable for limiting the valve core body in the valve body, a through hole structure is arranged on the valve core end cover, and the connecting portion is suitable for penetrating through the through hole structure and being connected with the knob.

Optionally, a first positioning structure is arranged on the knob, a second positioning structure is further arranged on the valve core end cover, and the first positioning structure is suitable for being matched with the second positioning structure to determine that the knob rotates in place.

Compared with the prior art, the utility model has the following beneficial effects:

the valve body is provided with the first water inlet, the first water outlet and the second water outlet, the ozone generating device is suitable for releasing ozone and is communicated with the air inlet of the ejector, the second water inlet of the ejector is communicated with the first water outlet, the valve core is arranged in the valve body and is suitable for rotating so as to realize the on-off of the first water inlet and the first water outlet and the on-off of the first water inlet and the second water outlet, when the valve core rotates to the first water inlet and is communicated with the first water outlet, tap water flows into the ejector from the first water inlet after flowing through the first water outlet and the second water inlet, is mixed with ozone flowing in from the air inlet of the ejector to form ozone water to be discharged from the third water outlet, and when the valve core rotates to the first water inlet and the second water outlet to be communicated, the tap water can directly be discharged from the second water outlet after flowing into the valve body from the first water inlet, so that the ozone water and household common tap water can be switched to use, and can directly place the edible material and wash in second delivery port or third delivery port department as required, need not to use the container to hold edible material, can reduce and occupy kitchen guarding space.

Drawings

FIG. 1 is a schematic structural diagram of a food washer according to an embodiment of the present invention;

FIG. 2 is a schematic structural view of an ozonated water supply assembly according to an embodiment of the present invention;

FIG. 3 is a schematic structural view of a stent according to an embodiment of the present invention;

FIG. 4 is a schematic structural view of an ejector according to an embodiment of the present invention;

FIG. 5 is a schematic structural view of a valve body assembly according to an embodiment of the present invention;

fig. 6 is a schematic structural view of the water outlet end cover in the embodiment of the utility model.

Description of reference numerals:

1-valve body component, 11-valve body, 111-first water inlet, 112-first water outlet, 113-second water outlet, 12-valve core, 121-valve core body, 122-connecting part, 13-water outlet end cover, 131-end cover body, 132-flow guide structure, 133-water outlet hole, 14-knob, 141-first positioning structure, 15-valve core end cover, 151-through hole structure, 152-second positioning structure, 2-ozone water supply component, 21-ozone generator, 211-high pressure bag, 212-ozone generating pipe, 213-one-way valve, 22-jet device, 221-air inlet, 222-second water inlet, 223-third water outlet, 23-base, 24-bracket, 25-power supply, 26-control panel, 27-deflector, 28-outlet nut.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

In the description of the present invention, it is to be understood that the forward direction of "X" in the drawings represents the left direction, and correspondingly, the reverse direction of "X" represents the right direction; the forward direction of "Y" represents forward, and correspondingly, the reverse direction of "Y" represents rearward; the forward direction of "Z" represents the upward direction, and correspondingly, the reverse direction of "Z" represents the downward direction, and the directions or positional relationships indicated by the terms "X", "Y", "Z", etc. are based on the directions or positional relationships shown in the drawings of the specification, and are only for convenience of describing and simplifying the description, but do not indicate or imply that the device or element referred to must have a particular direction, be constructed and operated in a particular direction, and thus should not be construed as limiting the present invention.

The terms "first", "second", "third" and "fourth" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or an implicit indication of the number of technical features indicated. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

To solve the above problems, an embodiment of the present invention provides a food purifier, including; the valve body assembly 1 comprises a valve body 11 and a valve core 12, wherein the valve body 11 is provided with a first water inlet 111, a first water outlet 112 and a second water outlet 113, and the valve core 12 is arranged in the valve body 11 and is suitable for rotating so as to realize the connection and disconnection of the first water inlet 111 and the first water outlet 112 and the connection and disconnection of the first water inlet 111 and the second water outlet 113; the ozone water supply assembly 2 comprises an ozone generating device 21 and an ejector 22, wherein the ozone generating device 21 is suitable for releasing ozone, the ejector 22 is provided with an air inlet 221, a second water inlet 222 and a third water outlet 223, the air inlet 221 is communicated with the ozone generating device 21, the second water inlet 222 is communicated with the first water outlet 112, and the third water outlet 223 is suitable for discharging ozone water formed after ozone and tap water are mixed.

As shown in fig. 1 and 5, the valve body 11 is a cylindrical structure with a hollow interior, and may be disposed vertically or horizontally, or disposed at any angle, and for convenience of description, the valve body 11 disposed horizontally is taken as an example for illustration.

In this embodiment, the first water inlet 111 is disposed at the top of the valve body 11, and may be communicated with a tap of tap water through a threaded joint and fixed, the first water outlet 112 is disposed at a lateral portion of the valve body 11, and deviates from an axis of the valve body 11 by a certain distance, the second water outlet 113 is disposed at the bottom of the valve body 11, the valve core 12 is disposed in a cavity of the valve body 11, the inside of the valve core 12 is hollow to form a cavity structure, a first hole structure is disposed on a lateral wall of the cavity structure toward the first water inlet 111, a second hole structure is disposed on a lateral wall of the cavity structure toward the second water outlet 113, a valve core cover plate is disposed on one side of the cavity structure toward the first water outlet 112, and a third hole structure is disposed on a position of the valve core cover plate corresponding to the first water outlet 112.

Wherein, the sectional area of the first pore structure is greater than the sectional area of the first water inlet 111, when the valve core 12 rotates to the second pore structure to align with the second water outlet 113, the first pore structure just aligns with the first water inlet 111, at this time, the third pore structure is staggered with the first water outlet 112, thereby realizing the communication between the first water inlet 111 and the second water outlet 113, continue to rotate the valve core 12 to make the second pore structure staggered with the second water outlet 113 to realize the disconnection between the first water inlet 111 and the second water outlet 113, until the third pore structure aligns with the first water outlet 112, at this time, because the sectional area of the first pore structure is greater than the sectional area of the first water inlet 111, the communication between the first water inlet 111 and the first water outlet 112 can be realized, continue to rotate the valve core 12 until the first pore structure is staggered with the first water inlet 111, the disconnection between the first water inlet 111 and the first water outlet 112 can be realized.

It should be noted that, sealing elements such as O-ring seals and silicone gaskets may be disposed at the positions where the valve core, the valve core cover plate, and the valve body rotate relative to each other for sealing.

As shown in fig. 1, 2 and 4, the ejector 22 of the ozone water supply assembly 2 is provided at the bottom of the ozone generating device 21, and for convenience of description, the case where the ozone water supply assembly 2 is provided at the right side of the valve body assembly 1 and the ejector 22 is horizontally disposed is exemplified here.

Jet ejector 22's inside cavity forms the efflux chamber that is the loudspeaker form, the efflux chamber includes cylinder portion and round platform part, cylinder portion's right-hand member and the left end intercommunication of round platform part, and cylinder portion's diameter is the same with the diameter of round platform part upper base surface, jet ejector 22's air inlet 221 sets up the left side top at cylinder portion, jet ejector 22's second water inlet 222 sets up the left side at cylinder portion, jet ejector 22's third delivery port 223 sets up the right side below at round platform part, air inlet 221 and ozone generator 21 intercommunication, second water inlet 222 communicates with valve body 11's first delivery port 112, jet ejector 22's right-hand member adopts the end cap to plug up, and seal up with the O shape sealing washer.

It should be noted that, in order to improve the mixing efficiency of the tap water and the ozone, the technical parameters of the jet device 22 may be optimally designed, for example, the length-diameter ratio L1 of the jet cavity: d1 is designed as 5: 1, the length of the extension tube is designed to be L2-5 (d2-d 1).

As shown in fig. 4, L1 is the length of the cylindrical portion of the jet chamber, L2 is the length of the circular truncated cone portion of the jet chamber, d1 is the diameter of the cylindrical portion or the diameter of the upper bottom surface of the circular truncated cone portion, and d2 is the diameter of the lower bottom surface of the circular truncated cone portion.

As shown in fig. 1, the valve body assembly 1 and the ozone water supply assembly 2 are arranged in a left-right manner and connected by a rotary buckle, after the valve body assembly 1 is connected with the ozone water supply assembly 2, the second water inlet 222 of the ejector 22 is butted and communicated with the first water outlet 112 of the valve body 11, when the valve core 12 of the valve body assembly 1 rotates to the position where the first water inlet 111 is communicated with the first water outlet 112, tap water flows into the ejector 22 through the second water inlet 222 and is mixed with ozone input from the air inlet 221 in the jet cavity of the ejector 22 to form ozone water, and the ozone water can flow out from the third water outlet 223 of the ejector 22.

Thus, by arranging the first water inlet 111, the first water outlet 112 and the second water outlet 113 on the valve body 11, the ozone generating device 21 is suitable for releasing ozone and communicating with the air inlet 221 of the ejector 22, the second water inlet 222 of the ejector 22 communicates with the first water outlet 112, the valve core 12 is arranged in the valve body 11 and is suitable for rotating to realize the on-off of the first water inlet 111 and the first water outlet 112 and the on-off of the first water inlet 111 and the second water outlet 113 by the first water inlet 111, when the valve core 12 rotates to communicate the first water inlet 111 with the first water outlet 112, tap water flows through the first water inlet 111 and the second water inlet 222 into the ejector 22 and is mixed with ozone flowing from the air inlet 221 of the ejector 22 to form ozone water to be discharged from the third water outlet 223, when the valve core 12 rotates to communicate the first water inlet 111 with the second water outlet 113, the tap water can directly be discharged from the second water outlet 113 after flowing into the valve body 11 from the first water inlet 111, from this, not only can realize that ozone water and domestic ordinary running water switch and use, can directly place edible material in second delivery port 113 or third delivery port 223 department as required and wash moreover, need not to use the container to hold edible material, can reduce and occupy kitchen and toilet space.

Optionally, the ozone generating device 21 includes a high-pressure bag 211, an ozone generating tube 212 and a one-way valve 213, the high-pressure bag 211, the ozone generating tube 212 and the one-way valve 213 are sequentially communicated, the one-way valve 213 is adapted to be communicated with the air inlet 221, the ozone water supply assembly 2 further includes a base 23, a bracket 24, a power supply 25, a control panel 26, a fluid director 27 and a water outlet nut 28, the ejector 22 is disposed on the base 23, the bracket 24 is located above the ejector 22 and detachably connected with the base 23, the high-pressure bag 211, the ozone generating tube 212, the one-way valve 213, the power supply 25 and the control panel 26 are disposed on the bracket 24, the power supply 25 and the control panel 26 are respectively electrically connected with the ozone generating device 21 and the ejector 22, the fluid director 27 is disposed in the third water outlet 223, and the water outlet nut 28 is disposed at a position corresponding to the third water outlet 223 and connected with the ejector 22.

As shown in fig. 1 and 2, in the present embodiment, the ejector 22 is fixed on the base 23 by a positioning hole and a bolt, and the third water outlet 223 can extend out of the base 23 from a fourth hole structure provided at the center of the base 23.

As shown in fig. 2 and 3, the bracket 24 is located above the ejector 22 and fixed on the base through a support column and screws, the bracket 24 is designed with an inner slot and an outer slot, the power supply 25 is fixed in the inner slot, the high-voltage pack 211 is placed in the outer slot and fixed by screws, the ozone generating tube 212 is fixed on a buckle on the side surface of the bracket 24, the high-voltage wire and the zero wire between the power supply 25 and the high-voltage pack 211 are fixed on a hook of the bracket 24, the upper end of the ozone generating tube 212 is connected with an L-shaped fluorine rubber tube, the lower end of the L-shaped fluorine rubber tube is connected with the one-way valve 213, the one-way valve 213 is connected with the air inlet 221 of the ejector 22 through a straight-through fluorine rubber tube, the control panel 26 is fixed on the top of the bracket 24 through screws, the control panel 26 is designed with an earphone, when air passes through the earphone, an acoustic signal is generated, thereby completing the acoustic-electric conversion, the water outlet nut 28 is arranged at the bottom of the base 23 and is connected with the third water outlet 223 of the ejector 22 through screws, the flow guide 27 is disposed in the third water outlet 223, so that the ozone water can flow vertically downward when flowing out from the third water outlet 223.

Wherein, the outer casing of ozone water supply assembly 2 is overlapped in the outside of support 24 and passes through the buckle with base 23 to be connected fixedly, and the Typc plug on the control panel 26 inserts in the hole that charges of shell, and the location muscle on the support 24 inserts in the draw-in groove of shell simultaneously, can make support 24 reliable and stable.

In order to ensure good sealing between the water outlet nut 28 and the third water outlet 223, a silica gel pad may be disposed in the water outlet nut 28.

It should be noted that, in order to make the connection between the ozone water supply assembly 2 and the valve body assembly 1 more secure and more convenient for assembly and disassembly, a rotary buckle is further disposed at the connection position, one end of the rotary buckle is embedded into the circular groove of the housing and fixed by a screw, and the other end of the rotary buckle is connected with the first water outlet 112 of the valve body 11 in a buckling manner, wherein the rotary buckle is sealed with the second water inlet 222 of the ejector 22 by an O-ring.

It should be noted that the power supply 25 may be a rechargeable battery, and when the rechargeable battery runs out of power, the ozone water supply assembly 2 may be screwed down for charging without disassembling the valve body assembly 1.

Optionally, the valve body assembly 1 further includes a water outlet cover 13, the water outlet cover 13 is disposed at a position corresponding to the second water outlet 113 and connected to the valve body 11, the water outlet cover 13 includes a cover body 131 and a flow guiding structure 132, the cover body 131 is provided with a water outlet hole 133, and the flow guiding structure 132 is disposed at a position corresponding to the second water outlet 113 on the cover body 131 and is adapted to guide water flow to flow out from the water outlet hole 133.

As shown in fig. 1 and fig. 6, in this embodiment, in order to make the water outlet state of the tap water uniform and vertically downward, a water outlet end cap 13 is further disposed at a position on the valve body 11 corresponding to the second water outlet 113, and the water outlet end cap 13 and the valve body 11 may be connected by a thread or fixed and sealed by ultrasonic welding.

Wherein, can set up internal thread and 11 threaded connection of valve body or adopt ultrasonic welding to fix and seal on the lateral wall of end cover body 131, water conservancy diversion structure 132 is the inboard ring form protruding structure of connection end cover body 131 bottom plate, can with end cover body 131 integrated into one piece, the outside that lies in ring form protruding structure on the end cover body 131 bottom plate is equipped with a plurality of apopores 133, a plurality of apopores 133 are the annular distribution, when running water flows from second delivery port 113, because the water conservancy diversion structure 132 that the protruding structure of ring form formed is just to rivers, therefore rivers can follow water conservancy diversion structure 132 flow direction and flow all around and from apopore 133 department outflow, thereby make the play water state of running water more even.

Optionally, the valve body assembly 1 further includes a knob 14 and a valve core end cover 15, the knob 14 is connected to the valve core 12 and is adapted to drive the valve core 12 to rotate, the valve core 12 includes a valve core body 121 and a connecting portion 122, the valve core end cover 15 is connected to the valve body 11 and is adapted to limit the valve core body 121 in the valve body 11, a through hole structure 151 is provided on the valve core end cover 15, the connecting portion 122 is adapted to penetrate through the through hole structure 151 and is connected to the knob 14, a first positioning structure 141 is provided on the knob 14, a second positioning structure 152 is further provided on the valve core end cover 15, and the first positioning structure 141 is adapted to cooperate with the second positioning structure 152 to determine that the knob 14 rotates in place.

As shown in fig. 1 and 5, the first positioning structure 141 may be a first positioning rib disposed on the knob 14, and correspondingly, the second positioning structure 152 may be a second positioning rib disposed on the valve core end cover 15, and when the knob 14 rotates to a position where the first positioning rib abuts against the second positioning rib, it may be determined that the knob 14 rotates to the position, or the first positioning structure 141 may also be an elastic member disposed on the knob 14, and correspondingly, the second positioning structure 152 may be a groove structure disposed on the valve core end cover 15, and when the knob 14 drives the elastic member to rotate to a position corresponding to the groove structure, the elastic member extends and is inserted into the groove structure, so that it may be determined that the knob 14 rotates to the position.

In this embodiment, fix a position more accurately when making knob 14 rotate, set up first location muscle and elastic component simultaneously on knob 14, correspondingly, set up second location muscle and groove structure simultaneously on case end cover 15, wherein, the elastic component includes spring and reference column, be equipped with the hollow cylinder towards case end cover 15 on knob 14, the spring suit is in hollow cylinder, the one end suit of reference column is in the spring, the other end of reference column is spherical structure, can slide on case end cover 15 under the drive of knob.

Note that, in order to reduce the friction force applied when the knob 14 rotates, the valve body 11, the valve element 12, the valve element cover plate, the valve element end cover 15, and other structures may all use POM (polyoxymethylene resin) materials with good lubrication effect.

When the valve body assembly 1 is assembled, firstly, an O-shaped sealing ring and a silica gel pad are placed in a cavity of a valve body 11, a valve core cover plate is arranged in an opening groove of a valve core 12, then the valve core 12 with the valve core cover plate is inserted into the cavity of the valve body 11, and then a valve core end cover 15 is arranged to limit the transverse movement of the valve core 12, wherein the valve core 12 and the valve core end cover 15 are sealed by the O-shaped sealing ring, the valve core end cover 15 and the valve body 11 are also sealed by the O-shaped sealing ring, a spring and a positioning column are arranged in a hollow cylinder of a knob 14, and the knob 14 and the valve core 12 are fixed by a buckle.

When the knob 14 rotates to a required position, the first positioning rib on the knob 14 and the second positioning rib on the valve core end cover 15 are mutually abutted so as to limit the knob 14 to continue rotating, and meanwhile, the positioning column arranged on the knob 14 enters the groove structure arranged on the valve core end cover 15 under the action of the elastic force of the spring and makes a crisp sound, so that the knob 14 and the valve core 12 can be judged to rotate in place.

Although the present disclosure has been described above, the scope of the present disclosure is not limited thereto. Various changes and modifications may be effected therein by one of ordinary skill in the pertinent art without departing from the spirit and scope of the present disclosure, and these changes and modifications are intended to be within the scope of the present disclosure.

Claims (10)

1. A kind of net food machine, characterized by that, include;

the valve body assembly (1) comprises a valve body (11) and a valve core (12), wherein a first water inlet (111), a first water outlet (112) and a second water outlet (113) are formed in the valve body (11), and the valve core (12) is arranged in the valve body (11) and is suitable for rotating to realize the on-off of the first water inlet (111) and the first water outlet (112) and the on-off of the first water inlet (111) and the second water outlet (113);

the ozone water supply assembly (2) comprises an ozone generating device (21) and an ejector (22), wherein the ozone generating device (21) is suitable for releasing ozone, an air inlet (221), a second water inlet (222) and a third water outlet (223) are formed in the ejector (22), the air inlet (221) is communicated with the ozone generating device (21), the second water inlet (222) is communicated with the first water outlet (112), and the third water outlet (223) is suitable for discharging ozone water formed after the ozone and tap water are mixed.

2. The food purifier according to claim 1, wherein the ozone generating device (21) comprises a high pressure bag (211), an ozone generating pipe (212) and a one-way valve (213), the high pressure bag (211), the ozone generating pipe (212) and the one-way valve (213) are communicated in sequence, and the one-way valve (213) is adapted to be communicated with the air inlet (221).

3. The machine according to claim 2, wherein the ozone water supply assembly (2) further comprises a base (23) and a bracket (24), the ejector (22) is provided on the base (23), the bracket (24) is located above the ejector (22) and detachably connected to the base (23), and the high pressure pack (211), the ozone generating pipe (212), and the check valve (213) are provided on the bracket (24).

4. The eating purifier as claimed in claim 3, wherein said ozonated water supply assembly (2) further comprises a power supply (25) and a control board (26), said power supply (25) and said control board (26) being provided on said bracket (24) and being electrically connected with said ozone generating means (21) and said ejector (22).

5. The machine according to claim 1, wherein the ozone water supply assembly (2) further comprises a flow deflector (27) and a water outlet nut (28), the flow deflector (27) being disposed within the third water outlet (223), the water outlet nut (28) being disposed at a position corresponding to the third water outlet (223) and being connected to the ejector (22).

6. The food washer according to any one of claims 1 to 5, wherein the valve body assembly (1) further comprises a water outlet end cap (13), the water outlet end cap (13) being provided at a position corresponding to the second water outlet (113) and being connected to the valve body (11).

7. The food purifier as claimed in claim 6, wherein the water outlet end cover (13) comprises an end cover body (131) and a flow guiding structure (132), the end cover body (131) is provided with a water outlet hole (133), and the flow guiding structure (132) is arranged on the end cover body (131) at a position corresponding to the second water outlet hole (113) and is adapted to guide water flow to flow out from the water outlet hole (133).

8. The food purifier according to any one of claims 1-5, wherein the valve body assembly (1) further comprises a knob (14), the knob (14) being connected to the valve core (12) and adapted to drive the valve core (12) in rotation.

9. The food cleaning machine as claimed in claim 8, wherein the valve body assembly (1) further comprises a valve core end cover (15), the valve core (12) comprises a valve core body (121) and a connecting portion (122), the valve core end cover (15) is connected with the valve body (11) and is suitable for limiting the valve core body (121) in the valve body (11), a through hole structure (151) is arranged on the valve core end cover (15), and the connecting portion (122) is suitable for being connected with the knob (14) through the through hole structure (151).

10. The food washer as claimed in claim 9, wherein the knob (14) is provided with a first positioning structure (141), the valve core end cover (15) is further provided with a second positioning structure (152), and the first positioning structure (141) is adapted to cooperate with the second positioning structure (152) to determine that the knob (14) is rotated to a certain position.

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