CN219397044U - Electrolysis device and food processing equipment - Google Patents

Abstract

The utility model relates to the technical field of living appliances, and provides an electrolysis device and food processing equipment, wherein the electrolysis device comprises: the two ends of the water delivery pipe are suitable for being respectively communicated with the water tank and the stirring cavity; the electrolyzer is arranged on the water delivery pipe and is communicated with the water delivery pipe; wherein the electrolyzer is adapted to treat water on the tank side such that the water flowing through the electrolyzer to the agitation chamber is weakly alkaline. Through the mode, the water pipe which is communicated with the water tank and the stirring cavity is provided with the electrolyzer, so that the water which is conveyed to the stirring cavity by the water tank is slightly alkaline, the precipitation of purine in food materials is inhibited and reduced by the slightly alkaline, and the purpose of reducing purine is achieved.

Description

Electrolysis device and food processing equipment

Technical Field

The utility model relates to the technical field of living appliances, in particular to an electrolysis device and food treatment equipment.

Background

For food processing equipment, for example, when a wall breaking machine is used for processing food materials, the purines in the food materials and water are inevitably precipitated into slurry in the stirring and heating processes, so that the purines in the processed food material slurry are higher.

Disclosure of Invention

The present utility model aims to solve at least one of the technical problems existing in the prior art. To this end, the utility model proposes an electrolysis device.

The utility model also provides food processing equipment.

An electrolytic device according to an embodiment of the first aspect of the present utility model includes:

the two ends of the water delivery pipe are suitable for being respectively communicated with the water tank and the stirring cavity;

the electrolyzer is arranged on the water delivery pipe and is communicated with the water delivery pipe; wherein,,

the electrolyzer is adapted to treat water on the tank side such that the water flowing through the electrolyzer to the stir chamber is weakly alkaline.

According to the electrolytic device provided by the embodiment of the utility model, the water pipe which is communicated with the water tank and the stirring cavity is provided with the electrolyzer, so that the water which is conveyed into the stirring cavity by the water tank is alkalescent, and the alkalescence is favorable for inhibiting and reducing the precipitation of purine in food materials, thereby achieving the purpose of reducing purine.

According to one embodiment of the utility model, a water pump is further arranged on the water pipe, and the water pump is arranged on one side, close to the water tank, of the electrolyzer;

the water pump is communicated with the water delivery pipe and used for pumping water at the side of the water tank to the stirring cavity.

According to one embodiment of the utility model, the water pipe is further provided with a reversing valve, the reversing valve is arranged on one side of the electrolyzer, which is close to the water tank, and the reversing valve comprises an inlet side and two outlet sides;

the water delivery pipe is branched into a first branch pipe and a second branch pipe at the outlet side, the first branch pipe and the second branch pipe are respectively communicated with the two outlet sides, and one of the first branch pipe and the second branch pipe flows through the electrolyzer.

According to one embodiment of the utility model, the first branch pipe and the second branch pipe are converged to form a third branch pipe at one side close to the stirring cavity;

the third branch pipe is communicated with the stirring cavity.

According to one embodiment of the utility model, a converging mechanism is arranged between the intersection end of the first branch pipe and the second branch pipe and the third branch pipe, and the converging mechanism comprises two inlet ends and one outlet end;

the two inlet ends are respectively communicated with the first branch pipe and the second branch pipe, and the outlet end is communicated with the third branch pipe.

According to one embodiment of the utility model, the third branch pipe is provided with a first one-way valve for controlling the on-off of the water flow of the third branch pipe.

According to one embodiment of the utility model, the water flow control device further comprises a second one-way valve, wherein the second one-way valve is arranged on the outlet side of the electrolyzer and is used for controlling the on-off of water flow from the electrolyzer to the third branch pipe.

According to one embodiment of the utility model, the electrolyzer comprises a liquid inlet end, a liquid outlet end and a gas outlet end;

the liquid inlet end is arranged close to one side of the water tank, the liquid outlet end is arranged close to one side of the stirring cavity, and the air outlet end is communicated with the outer side of the water pipe.

A food processing device according to an embodiment of the second aspect of the present utility model comprises:

the body is provided with a stirring cavity;

the water tank is connected with the body;

according to the electrolysis device, the water delivery pipe is respectively communicated with the water tank and the stirring cavity and is used for delivering water in the water tank to the stirring cavity.

According to one embodiment of the utility model, the water tank is arranged on the side edge of the body, the bottom of the water tank is provided with a water outlet, and one end of the electrolysis device is communicated with the water outlet;

the body is in the water inlet has been seted up to stirring chamber bottom, electrolytic device's the other end with the water inlet intercommunication.

According to one embodiment of the utility model, the bottom of the body is also provided with a water receiving box, and the air outlet end of the electrolyzer is communicated with the water receiving box.

The food processing device according to the embodiment of the utility model comprises the electrolysis device, so that the food processing device has all the beneficial effects of the electrolysis device, and the details are not repeated herein.

Additional aspects and advantages of the utility model will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the utility model.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic view of a food processing device according to an embodiment of the present utility model.

Reference numerals:

10. a water pipe; 110. an electrolyzer; 1110. a second one-way valve; 1120. a liquid inlet end; 1130. a liquid outlet end; 1140. an air outlet end; 120. a water pump; 130. a reversing valve; 1310. an inlet side; 1320. an outlet side; 140. a first branch pipe; 150. a second branch pipe; 160. a third branch pipe; 1610. a first one-way valve; 170. a confluence mechanism; 1710. an inlet end; 1720. an outlet end;

20. a food processing apparatus; 210. a body; 2110. a stirring cavity; 2120. a water inlet; 2130. a water receiving box; 220. a water tank; 2210. and a water outlet.

Detailed Description

Embodiments of the present utility model are described in further detail below with reference to the accompanying drawings and examples. The following examples are illustrative of the utility model but are not intended to limit the scope of the utility model.

Referring to fig. 1, an embodiment of the present utility model is provided to protect a food processing device 20, wherein the food processing device 20 can be, but is not limited to, a wall breaking machine and a water heater.

Here, the wall breaking machine is taken as an example, and when the user makes soybean milk by the wall breaking machine, it is necessary to stir and heat the beans together with water and then make the soybean milk.

That is, the food processing apparatus 20 includes a body 210, a stirring chamber 2110 for stirring food is provided on the body 210, and a water tank 220 is further provided on the body 210, and the water tank 220 may be integrally provided with the body 210 or may be detachably provided with the body 210, which is not limited herein.

Furthermore, the water tank 220 may be disposed on the top of the body 210, for example, around the top of the body 210, or disposed on a side of the body 210, that is, clamped to one side of the body 210.

Specifically, when the water tank 220 is provided at the top of the body 210, the water tank 220 adds water into the stirring chamber 2110 from top to bottom, that is, by the gravity of the water itself, and then flows to the stirring chamber 2110 through the water tank 220.

When the water tank 220 is provided at the side of the body 210, water may be added from the side of the body 210 into the stirring chamber 2110 through the opening of the side of the body 210. The bottom of the stirring chamber 2110 of the main body 210 may be perforated, and the water tank 220 may be filled with water into the stirring chamber 2110 via the bottom, which is not limited herein.

When water is supplied from the top of the water tank 220, water may be supplied from the top to the bottom of the stirring chamber 2110 by gravity of the water, and a power member such as a pump or the like may not be additionally provided to supply the water.

When the water tank 220 is disposed at the side of the body 210, since the water tank 220 is disposed at the side of the stirring chamber 2110 on the one hand, the water inlet speed cannot be controlled by the gravity of the water itself, and when the water flows from the bottom of the water tank 220 toward the side of the stirring chamber 2110, if the height of the opening on the water tank 220 is lower than the bottom of the stirring chamber 2110, the water inlet cannot be rapidly performed due to the height difference, so that the water pump 120 is disposed on the water inlet path from the bottom of the water tank 220 toward the bottom of the stirring chamber 2110 to maintain the water inlet stability, and the water at the side of the water tank 220 can be pumped to the stirring chamber 2110 entirely, thereby improving the water utilization efficiency.

In some embodiments of the present utility model, an electrolysis device is further provided between the water tank 220 and the agitation chamber 2110, and the electrolysis device is respectively communicated with the water tank 220 and the agitation chamber 2110 for delivering water on the side of the water tank 220 to the agitation chamber 2110.

That is, the electrolytic device is provided to facilitate communication between the water tank 220 and the stirring chamber 2110, so that when water is required to be added in the stirring chamber 2110, a user can add water from the side of the water tank 220 and then convey the water to the stirring chamber 2110 via the electrolytic device, thus facilitating the food stirring process.

In some embodiments of the present utility model, the water tank 220 is preferably disposed at a side of the body 210, and the water outlet 2210 is disposed at the bottom of the water tank 220, so that the water in the water tank 220 can be completely conveyed to the stirring cavity 2110 during the conveying process of the water in the water tank 220, and the use efficiency of the volume of the water tank 220 is improved.

Correspondingly, the water inlet 2120 of the body 210 is formed at the bottom of the stirring cavity 2110, and the distance between the bottom of the stirring cavity 2110 and the bottom of the body 210 is at least greater than the distance between the bottom of the water tank 220 and the bottom of the body 210, so that driving parts such as a pump body and the like are further arranged in the body 210 to convey water in the water tank 220 towards the stirring cavity 2110.

For the connection between the water tank 220 and the body 210, a clamping piece can be arranged on the base of the body 210, a clamping groove adapted to the clamping piece is arranged on the side edge of the water tank 220, and when the water tank 220 is clamped to the clamping piece, a water outlet 2210 at the bottom of the water tank 220 is communicated with the electrolysis device. That is, opposite sides of the body 210 and the water tank 220 are provided with structures similar to a hook shape to perform a snap fit, so that the water tank 220 can be conveniently mounted and dismounted.

The water tank 220 cover is arranged above the water tank 220, the water tank 220 cover is in hinge running fit with the water tank 220, and when water needs to be added into the water tank 220, the water tank 220 cover can be opened to add water into the water tank 220. When the water tank 220 needs to be cleaned, the water tank 220 can be pulled out from the clamping piece, so that the water tank 220 is separated from the body 210, the water tank 220 is convenient to assemble and disassemble, and the use experience of a user is improved.

For the body 210, the bottom of the body 210 is also provided with a water receiving box 2130, and the water receiving box 2130 has a supporting function on one hand and is used for supporting a cup for holding the slurry after the stirring in the stirring cavity 2110. On the other hand, the water receiving box 2130 has a water leakage hole formed on the surface thereof and a water receiving cavity formed therein, so that the slurry flowing out of the stirring cavity 2110 can flow to the water receiving cavity through the water leakage hole when it is scattered outside the cup, thereby avoiding pollution to the table surface on which the main body 210 is placed.

In some embodiments of the present utility model, the electrolysis apparatus includes a water pipe 10 communicating the water tank 220 and the stirring chamber 2110, and the material of the water pipe 10 may be rubber, metal, or alloy, which is not limited herein.

An electrolyzer 110 is also arranged on the water pipe 10, and water on the water tank 220 side flows through the electrolyzer 110 to the stirring chamber 2110. The electrolyzer 110 functions to electrolyze water delivered from the water tank 220 toward the agitation chamber 2110 such that the electrolyzed water flowing to the agitation chamber 2110 is weakly alkaline.

The specific structure of the electrolyzer 110, which is a commercially available alkaline water electrolyzer 110, is well known to those skilled in the art, and is not limited thereto.

When the water outlet 2210 of the water tank 220 is lower than the water inlet 2120 of the stirring chamber 2110, the water pump 120 is required to be disposed on the water pipe 10, and the water pump 120 is selected from the types available in the market, and specific internal structural features belong to technical means known to those skilled in the art, which are not limited herein.

That is, a certain space is also provided at the bottom of the body 210 for placing other structural components such as the stirring motor and the electrolyzer, and the water pump 120 is also placed in the space.

The water pump 120 is located upstream of the electrolyzer 110, i.e. the water pump 120 is located on the side of the electrolyzer 110 adjacent to the water tank 220. The type of the water pump 120 is directly available in the market, and is not described herein, and the structure of the pump body belongs to structural features well known to those skilled in the art, and is not described herein.

The water pump 120 includes an inlet communicating with the water tank 220 and an outlet facing the side of the stirring chamber 2110, and the water pump 120 is provided for pumping water in the water tank 220 to the stirring chamber 2110 under pressure to mix with food in the stirring chamber 2110 and then stir the food.

In some embodiments of the present utility model, the water pipe 10 is further provided with a reversing valve 130 between the water pump 120 and the stirring chamber 2110, the reversing valve 130 is a one-in two-out reversing solenoid valve, the inlet is communicated with one side of the water tank 220, and water on the side of the water tank 220 can be pumped to the inlet of the reversing valve 130 through the water pump 120.

The reversing valve 130 connects the first branch 140 and the second branch 150 at two outlet sides 1320, respectively, i.e. the two outlets of the reversing valve 130 are in communication with the first branch 140 and the second branch 150, respectively, and the inlet side 1310 is adjustable to be in communication with the first branch 140 side when it is desired to have a water flow through the first branch 140; when it is desired to have the water flow through the second manifold 150, the inlet side 1310 may be adjusted to communicate with the second manifold 150. The control of the reversing valve 130 may be selectively electronically controlled, such as by a user pressing a button to switch.

Also, since one of the first and second branch pipes 140 and 150 flows through the electrolyzer 110. For example, by way of illustration of the placement of electrolyzer 110 on first manifold 140, when stirring chamber 2110 requires weakly alkaline water, inlet side 1310 of reversing valve 130 may be placed in communication with first manifold 140 while second manifold 150 is in a closed, non-flow-through condition. When the stirring chamber 2110 does not require weakly alkaline water, the inlet side 1310 of the reversing valve 130 may be placed in communication with the second manifold 150 while the first manifold 140 is in a closed, non-flow-through condition.

Further, since the diversion is generated in the water pipe 10 after the reversing valve 130, in order to avoid too many holes being formed in the stirring chamber 2110, the first branch pipe 140 and the second branch pipe 150 converge to form the third branch pipe 160 at the side close to the stirring chamber 2110.

The third branch pipe 160 is communicated with the stirring cavity 2110, so that only one hole is formed in the stirring cavity 2110, and structural improvement of the stirring cavity 2110 is saved.

It should be noted that the first branch pipe 140 and the second branch pipe 150 may be connected to the stirring chamber 2110, respectively, so that neutral water or weakly alkaline water is supplied to the stirring chamber 2110, respectively.

Specifically, at the confluence of the first and second branch pipes 140 and 150 with the third branch pipe 160, the embodiment of the present utility model is provided with a confluence mechanism 170. The converging mechanism 170 is a two-in one-out three-way reversing valve 130, two inlet ends are respectively connected with the first branch pipe 140 and the second branch pipe 150, and one outlet end is communicated with the third branch pipe 160.

That is, the converging mechanism 170 includes two inlet ends 1710 that communicate with the first and second branch pipes 140 and 150, respectively, and an outlet end 1720 that communicates with the third branch pipe 160.

And the setting of conflux mechanism 170 also can play the cushioning effect, avoids flowing to the too big and splashing of water flow pressure of stirring chamber 2110 one side from water pump 120, in case food is placed in the stirring chamber 2110, probably the water flow is got into the stirring chamber 2110 and is strikeed food easily, user experience is not good.

In some embodiments of the present utility model, for the third branch pipe 160, a first check valve 1610 may be further disposed on the third branch pipe 160, where the first check valve 1610 is disposed to control on-off of water flowing from the side of the confluence mechanism 170 to the stirring chamber 2110.

That is, the opening direction of the first one-way valve 1610 is from the confluence mechanism 170 to the stirring chamber 2110, and because the one-way valve is opened in a single direction, the water flow on the stirring chamber 2110 side can not flow back to the confluence mechanism 170, so that the slurry on the stirring chamber 2110 side is prevented from flowing back to the water tank 220 side, and the water in the water tank 220 is prevented from being polluted.

For the first and second branches 140 and 150, one of the first and second branches 140 and 150 flows through the electrolyzer 110. In some embodiments of the present utility model, the first manifold 140 is illustrated as flowing through the electrolyzer 110.

The first branch pipe 140 is further provided with a second check valve 1110 at the outlet of the electrolyzer 110, and the second check valve 1110 is provided to prevent water on the side of the second branch pipe 150 from flowing back to the first branch pipe 140, and to prevent water on the side of the stirring chamber 2110 from flowing back to the electrolyzer 110 in the opened state of the first check valve 1610. Because of the unidirectional flow of the second check valve 1110, water on the side of the water tank 220 flows through the electrolyzer 110 and then through the second check valve 1110 to the third manifold 160. When the water tank 220 is communicated with the second branch pipe 150, water in the water tank 220 flows to the second branch pipe 150 through the water pump 120 and then reaches the converging mechanism 170, and at the moment, because of the single flow direction of the second one-way valve 1110, water at the side of the converging mechanism 170 cannot flow back to the electrolysis device, so that the operation of the electrolysis device is prevented from being influenced.

In some embodiments of the present utility model, when neutral water is required in the mixing chamber 2110, the water pump 120 is turned on and the direction valve 130 is adjusted to the second branch pipe 150, so that water on the side of the water tank 220 flows to the mixing chamber 2110 through the water pump 120, the direction valve 130, the second branch pipe 150, the confluence mechanism 170, and the first check valve 1610 in this order.

When the stirring chamber 2110 needs alkaline water, for example, soybean milk or vegetable juice is beaten, the water pump 120 can be started to adjust the reversing valve 130 to the first branch pipe 140, and then water from the water tank 220 side sequentially flows through the water pump 120, the reversing valve 130, the electrolyzer 110 and the confluence mechanism 170 to the first one-way valve 1610, and then reaches the stirring chamber 2110, and the water flowing out of the electrolyzer 110 is slightly alkaline because the water passes through the electrolyzer 110, so that the precipitation of purine in the food can be reduced in the stirring process of the weakly alkaline water and the food.

For the electrolyzer 110, the electrolyzer 110 comprises a liquid inlet end 1120, a liquid outlet end 1130 and a gas outlet end 1140, water on the side of the water tank 220 enters the electrolyzer 110 through the liquid inlet end 1120 to carry out electrolytic reaction, the liquid outlet end 1130 is close to one side of the stirring cavity 2110, and the liquid outlet end 1130 is used for flowing treated weakly alkaline water to the stirring cavity 2110.

Further, hydrogen gas is generated in the electrolysis process of the water, and is unfavorable for directly entering the stirring cavity 2110, so that an air outlet end 1140 is additionally arranged on the electrolysis mechanism, and the air outlet end 1140 is communicated with the outer side of the water delivery pipe 10 through an exhaust pipe, namely, is discharged to the outer side of the water delivery pipe 10.

Specifically, for the main body 210, the bottom of the main body 210 is further provided with a water receiving box 2130, and besides the filtering holes, the water receiving box 2130 is also provided with a hole on one side of the water receiving box 2130 close to the water tank 220 and is communicated with the electrolysis device. The water receiving box 2130 can prevent the liquid flowing out of the stirring cavity 2110 from being scattered on the table top of the placing body 210, and meanwhile, the hydrogen generated by the electrolysis device can be discharged out of the stirring cavity 2110.

That is, after the water on the side of the water tank 220 is electrolyzed by the electrolyzer 110, weakly alkaline water containing hydroxyl is formed, a small amount of separated hydrogen is discharged to the water receiving box 2130 through the exhaust pipe, and the water receiving box 2130 is communicated with air through the overflow hole provided thereon, so that the separated hydrogen can be discharged to the outside air. The weak alkaline water containing hydroxyl groups flows to the stirring cavity 2110 through the first branch pipe 140 and the first one-way valve 1610, purine is separated out when the beans food materials are stirred in the stirring cavity 2110, and the entering weak alkaline water containing hydroxyl groups can inhibit and reduce the purine from separating out into the slurry, so that the purine is prevented from being directly absorbed by a human body.

In the description of the embodiments of the present utility model, it should be noted that the terms "center", "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the embodiments of the present utility model and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the embodiments of the present utility model. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In describing embodiments of the present utility model, it should be noted that, unless explicitly stated and limited otherwise, the terms "coupled," "coupled," and "connected" should be construed broadly, and may be either a fixed connection, a removable connection, or an integral connection, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium. The specific meaning of the above terms in embodiments of the present utility model will be understood in detail by those of ordinary skill in the art.

In embodiments of the utility model, unless expressly specified and limited otherwise, a first feature "up" or "down" on a second feature may be that the first and second features are in direct contact, or that the first and second features are in indirect contact via an intervening medium. Moreover, a first feature being "above," "over" and "on" a second feature may be a first feature being directly above or obliquely above the second feature, or simply indicating that the first feature is level higher than the second feature. The first feature being "under", "below" and "beneath" the second feature may be the first feature being directly under or obliquely below the second feature, or simply indicating that the first feature is less level than the second feature.

In the description of the present specification, a description referring to terms "one embodiment," "some embodiments," "examples," "specific examples," or "some examples," etc., means 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 embodiments of the present utility model. In this specification, schematic representations of the above terms are not necessarily directed 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. Furthermore, the different embodiments or examples described in this specification and the features of the different embodiments or examples may be combined and combined by those skilled in the art without contradiction.

The above embodiments are only for illustrating the present utility model, and are not limiting of the present utility model. While the utility model has been described in detail with reference to the embodiments, those skilled in the art will appreciate that various combinations, modifications, or equivalent substitutions can be made to the technical solutions of the present utility model without departing from the spirit and scope of the technical solutions of the present utility model, and it is intended to be covered by the scope of the claims of the present utility model.

Claims (11)

1. An electrolysis apparatus comprising:

the two ends of the water delivery pipe are suitable for being respectively communicated with the water tank and the stirring cavity;

the electrolyzer is arranged on the water delivery pipe and is communicated with the water delivery pipe; wherein,,

the electrolyzer is adapted to treat water on the tank side such that the water flowing through the electrolyzer to the stir chamber is weakly alkaline.

2. The electrolysis device according to claim 1, wherein the water pipe is further provided with a water pump, and the water pump is arranged on one side of the electrolyzer close to the water tank;

the water pump is communicated with the water delivery pipe and used for pumping water at the side of the water tank to the stirring cavity.

3. The electrolyzer of claim 1 wherein the water conduit is further provided with a reversing valve, the reversing valve being disposed on a side of the electrolyzer adjacent to the water tank, the reversing valve comprising an inlet side and two outlet sides;

the water delivery pipe is branched into a first branch pipe and a second branch pipe at the outlet side, the first branch pipe and the second branch pipe are respectively communicated with the two outlet sides, and one of the first branch pipe and the second branch pipe flows through the electrolyzer.

4. The electrolyzer of claim 3 wherein the first and second branches converge to form a third branch on the side adjacent the stir chamber;

the third branch pipe is communicated with the stirring cavity.

5. The electrolyzer of claim 4 wherein a converging means is disposed between the junction of the first and second branches and the third branch, the converging means comprising two inlet ends and one outlet end;

the two inlet ends are respectively communicated with the first branch pipe and the second branch pipe, and the outlet end is communicated with the third branch pipe.

6. The electrolysis device according to claim 5, wherein the third branch pipe is provided with a first one-way valve for controlling the on-off of the water flow of the third branch pipe.

7. The electrolyzer of claim 4 further comprising a second one-way valve disposed on the outlet side of the electrolyzer, the second one-way valve being used to control the on-off of the electrolyzer to the third branch water flow.

8. The electrolyzer of claim 1 wherein the electrolyzer comprises a liquid inlet end, a liquid outlet end, and a gas outlet end;

the liquid inlet end is arranged close to one side of the water tank, the liquid outlet end is arranged close to one side of the stirring cavity, and the air outlet end is communicated with the outer side of the water pipe.

9. A food processing apparatus, comprising:

the body is provided with a stirring cavity;

the water tank is connected with the body;

the electrolysis device of any one of claims 1-8, wherein the water delivery tube is respectively communicated with the water tank and the stirring cavity and is used for delivering water in the water tank to the stirring cavity.

10. The food processing apparatus of claim 9, wherein the water tank is provided at a side of the body, a water outlet is provided at a bottom of the water tank, and one end of the electrolysis device is communicated with the water outlet;

the body is in the water inlet has been seted up to stirring chamber bottom, electrolytic device's the other end with the water inlet intercommunication.

11. The food processing apparatus of claim 9 wherein the body bottom is further provided with a water receiving box, and the outlet end of the electrolyzer is in communication with the water receiving box.