CN110461194A

CN110461194A - Food processor and working method with material residue collecting function

Info

Publication number: CN110461194A
Application number: CN201880019205.0A
Authority: CN
Inventors: 王晓东
Original assignee: Individual
Current assignee: Individual
Priority date: 2017-03-19
Filing date: 2018-02-15
Publication date: 2019-11-15
Anticipated expiration: 2038-02-15
Also published as: CN106943039A; WO2018171370A1; CN110461194B

Abstract

A kind of food processor with material residue collecting function, including motor (10), cutter shaft (8), cutter (7), staving (1) and body (11), motor (10) setting is in body (11), motor (10) driving is located at the cutter (7) in staving (1), and cutter (7) is handled the foodstuff in staving (1) in rotation；Setting diversion component (4) and separation unit (3) in staving (1), diversion component (4) and separation unit (3) are interconnected and are integrated connection structure, the connection structure of fixation, dismountable connection structure or split settings therebetween, diversion component (4) has flow-guiding mouth (6), and separation unit (3) has fluid hole (2)；Any one direction from cutter (7) to both direction rotation when, diversion component (4) with cutter (7) rotation rotate synchronously, be freely rotated；When cutter (7) inverts, foodstuff liquid in staving (1) enters in diversion component (4) from flow-guiding mouth (6) under the drive of cutter (7) and/or under the drive of class pump machanism and enters in separation unit (3) by diversion component (4), liquid in foodstuff liquid is discharged to separation unit (3) outside from fluid hole (2), and at least part material residue is collected in separation unit (3).

Description

Food processor with material residue collecting function and working method

Technical Field

The invention belongs to the technical field of structure improvement of food processors, and particularly relates to a food processor with a material residue collecting function and a working method.

Background

Food handling is a common occurrence in people's daily life, such as: cleaning food, cooking food, crushing food, squeezing food, etc., wherein the crushing of food is mainly the crushing of beans, grains, traditional Chinese medicines, etc., and the squeezing of food is mainly the squeezing of fruits, etc. Comminution is the breaking of food into smaller particles, such as: beans are mixed with water, pulverized and decocted to extract soybean milk. For another example: the Chinese medicinal materials can be pulverized and extracted with water to obtain effective components. Squeezing is to squeeze the food product out of juice, such as: the fruit can be squeezed to obtain fresh fruit juice, and the vegetable can be squeezed to obtain fresh vegetable juice.

With the progress of science and technology, people develop a positive displacement food processor with a barrel body, which can be used for extracting nutritional ingredients after crushing and decocting beans and can also be used for extracting juice after crushing fruits and vegetables. The structure of this type of food processor is: comprises a motor, a cutter shaft, a cutter, a barrel body, a machine body and an electric control device, wherein the machine body can be a machine base or a machine head. The base is arranged below the barrel body, an output shaft of the motor is upwards arranged and connected with a cutter shaft at the bottom of the barrel body, and a cutter is arranged on the cutter shaft; the machine head is arranged above the barrel body, the output shaft of the motor is arranged downwards, and a cutter is arranged at the lower end part of the motor; in addition, one end of the base is provided with an extending part which is positioned on the side edge of the barrel body, a motor is arranged in the extending part, the motor drives a cutter which is positioned on a cutter shaft below the barrel body through a transmission mechanism, and in any structure, the rotation of the cutter can break food placed in the barrel body or break the food into food liquid together with water which is placed in advance together with the food. The electric control device is responsible for overall control.

Generally, after fruits, vegetables (or fish, etc.) are crushed into a food liquid by a food processor cutter, two major portions of "water-soluble substances" and "water-insoluble substances" are formed. The water insoluble substance is colloquially called as the slag. Most of the residues are substances which have rough mouthfeel and cannot (or are difficult to) be absorbed by human bodies.

For example, the residue of the crushed fruit and vegetable feed liquid contains a large amount of insoluble crude fiber (dietary fiber), which is the main component of plant cell wall, including cellulose, hemicellulose, lignin, cutin, etc. The crude fiber can not be digested and absorbed by human body, and proper eating of the crude fiber can promote intestinal peristalsis and relieve constipation, but the crude fiber can also prevent digestive enzymes in the digestive tract from contacting with chyme, so that the nutrient digestibility is reduced, the intestinal tract can prevent small molecular nutrient substances from being absorbed, the discharge of inorganic salts such as iron, zinc, calcium, potassium, sodium and the like in the body is increased, and the absorption of the nutrient by the human body is influenced. Especially for elderly people, this can cause malnutrition.

The insoluble crude fiber, which is mostly unpalatable (or otherwise unpleasant) in nature, is incorporated into the diet "dilute" the flavor/sweetness notes of the diet itself (e.g., pomace in juice can reduce the sweetness of juice), greatly reducing mouthfeel.

The bone residue formed after the fish or the spareribs and the like are crushed in the food processor also contains a large amount of substances which have rough mouthfeel, lack fresh fragrance and can not be absorbed by human bodies. Removing these bone residues and the like also greatly improves the taste of the fish soup/pork rib soup.

The food processor with the structure has the problem of troublesome material residue treatment. No matter beans, cereals, fruits, vegetables and other food, certain material residues exist after the cutter is smashed, the material residues comprise fibers or peel scraps and other substances, and due to the high-speed rotation of the cutter, the material residues can be suspended in the food liquid, so that even a high-power food processor (also called a broken wall blender) can smash fruits and the like very finely, for example: the grain size is less than or equal to 0.05mm, and the taste of the juice is still far inferior to that of the juice after the dregs are removed, because the dregs have no sweet taste basically and the sweet taste of the juice is diluted by the existence of the dregs. Therefore, the sweetness of the juice after removal of the pomace is greatly increased, that is, it contains a large amount of solid matter components regardless of how finely the pomace is crushed. In order to improve the taste of juice, people need to filter the foodstuff liquid in the barrel body once or for a plurality of times through tools such as a filter screen, a filter cover and the like, and the drinking taste is greatly improved after the treatment.

In the practical use, the operation mode of filtering by the filter screen, the filter cover and the like is very troublesome, the food processing procedure is increased, if the filtering is not good, the taste of juice is reduced, and the user experience is reduced. And these filter screens all rely on the gravity of foodstuff liquid self to filter usually, even after filtering for a long time, still contain a large amount of liquid in the material sediment, usually about 1 ~ 5 times of material sediment self "dry weight", the liquid that contains in these material sediment, for example fruit juice or soybean milk, all are wasted in fact.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide the food processor with the material residue collecting function and the working method, wherein the food processor is scientific and reasonable in structure, and can realize the collection of part, most or all of material residues only by adding part of structure.

The technical scheme adopted by the invention is as follows:

the food processor with the material slag collecting function comprises a motor, a cutter shaft, a cutter, a barrel body and a machine body, wherein the motor is arranged in the machine body and drives the cutter positioned in the barrel body;

the flow guide part is provided with a flow guide port, the separation part is provided with a liquid outlet hole, and the flow guide part is communicated with the separation part;

when the cutter rotates towards any one direction of the forward rotation direction or the reverse rotation direction, the flow guide component rotates synchronously, asynchronously, reversely or freely along with the rotation of the cutter;

the barrel body of the food processor also comprises a pump-like mechanism;

when the cutter is reversed, foodstuff liquid in the barrel is driven by the cutter and/or the similar pump mechanism to enter the flow guide part from the flow guide port and enter the separation part through the flow channel in the flow guide part, liquid in the foodstuff liquid is discharged out of the separation part from the liquid outlet hole, and at least part of material slag in the foodstuff liquid is collected in the separation part.

The side wall, the bottom surface or the top surface of the flow guide component is provided with the flow guide opening, and the installation mode of the flow guide component is selected from any one of the following (1), (2), (3), (4) or (5):

(1) the flow guide component and the cutter are of an integral connecting structure, a fixed connecting structure or a detachable connecting structure, and the flow guide component and the cutter rotate synchronously;

or

(2) The flow guide part and the cutter shaft are of an integral connecting structure, a fixed connecting structure or a detachable connecting structure, and the flow guide part and the cutter shaft synchronously rotate;

or

(3) The diversion component and the cutter shaft are in a rotary connection structure, and when the cutter shaft rotates, the diversion component freely rotates relative to the cutter shaft, synchronously rotates with the cutter shaft, asynchronously rotates with the cutter shaft or reversely rotates with the cutter shaft;

or

(4) The bottom in the barrel body is provided with a cutter holder for mounting a cutter, the flow guide part and the top in the barrel body, the inner side wall of the barrel body, the bottom in the barrel body or the cutter holder in the barrel body are in a rotary connection structure, and when the cutter shaft rotates, the flow guide part freely rotates relative to the cutter shaft, synchronously rotates with the cutter shaft, asynchronously rotates with the cutter shaft or reversely rotates with the cutter shaft;

or

(5) The upper end of the barrel body is provided with a sealing mechanism, the flow guide part is rotatably connected with the sealing mechanism of the barrel body, and when the cutter shaft rotates, the flow guide part freely rotates relative to the cutter shaft, synchronously rotates with the cutter shaft, asynchronously rotates with the cutter shaft or reversely rotates with the cutter shaft.

The relation between the separation part and the flow guide part is selected from any one of (1), (2) or (3):

(1) the separation part is arranged at the upper end, the lower end, the middle part or the two ends of the flow guide part and synchronously rotates with the flow guide part;

(2) the separation part is arranged on the outer side wall of the flow guide part and synchronously rotates with the flow guide part;

(3) the separation part is arranged on the inner side wall of the flow guide component and synchronously rotates with the flow guide component.

The side wall, the top surface or the bottom surface of the separation part is provided with a liquid outlet, a filter screen is arranged at the liquid outlet, and the filter screen is arranged in the separation part or the liquid outlet forms the filter screen; the filter screen is arranged at the flow guide opening, and the filter holes of the filter screen at the flow guide opening are larger than the filter holes of the filter screen at the liquid outlet.

The motor drives a cutter positioned in the barrel body through a cutter shaft;

the flow guide part is of a hollow structure and is provided with a flow guide port, the separation part is of a hollow structure and is provided with a liquid outlet hole, and the hollow structure of the flow guide part is communicated with the hollow structure of the separation part;

the diversion port is positioned below the liquid level of the feed liquid, or the liquid level of the feed liquid is higher than at least one part of the diversion port on the diversion component;

when the cutter rotates forwards, the foodstuff liquid in the barrel is blocked outside the separation part by the cutter and/or the pump mechanism; when the cutter is reversed, foodstuff liquid in the barrel enters the flow guide part of the hollow structure from the flow guide port under the driving of the cutter and/or the similar pump mechanism and enters the separation part of the hollow structure through the flow channel in the flow guide part, liquid in the foodstuff liquid is discharged out of the separation part from the liquid outlet hole, and at least part of material slag in the foodstuff liquid is collected in the separation part.

The pump mechanism is selected from at least one of (1) or (2):

(1) the pump mechanism is as follows: any one or more of at least one axial flow blade, at least one helical blade, at least one axial flow impeller or at least one helical impeller is arranged on the inner side wall of the flow guide component, the outer side wall of the flow guide component, the inner side wall of the separation part or the outer side wall of the separation part;

(2) the pump mechanism is as follows: the flow guide part or the separation part is internally provided with a flow guide part which is fixedly or detachably connected with the cutter shaft or the cutter: any one or any combination of at least one axial flow blade, at least one helical blade, at least one axial flow impeller, or at least one helical impeller.

The relation between the machine body and the barrel body is selected from any one of the following (1) or (2):

(1) the motor is arranged in the machine body below or on the side of the barrel body, the motor directly or through a transmission mechanism drives the cutter to rotate, and the upper cover arranged at the upper end of the barrel body forms a sealing mechanism at the top of the barrel body;

or

(2) The motor is arranged in the machine body above the barrel body, the motor directly drives the cutter to rotate or drives the cutter to rotate through the transmission mechanism, and the lower end of the machine body forms a sealing mechanism at the top of the barrel body.

When the separation part is arranged above the flow guide part, a cutter is arranged above the separation part, in the flow guide part or below the flow guide part;

or

When the separation part is arranged below the flow guide part, a cutter is arranged above the flow guide part, in the separation part or below the separation part;

or

When the outer side wall of the flow guide part is provided with the separation part, a cutter is arranged above, in or below the flow guide part;

or

When the separation part is arranged on the inner side wall of the flow guide part, a cutter is arranged above, in or below the flow guide part;

or

When the separation part is one part of the flow guide part, a cutter is arranged above the flow guide part, in the flow guide part or below the flow guide part.

The outer side wall, the upper end face or the lower end face of the separation part is provided with a one-way feeding device, and the one-way feeding device is provided with an article accommodating space and a feeding opening for accommodating articles; the included angle between the feeding opening direction of the unidirectional feeding device and the horizontal plane is more than or equal to 0 degree and less than 90 degrees; the included angle between the feeding opening direction of the unidirectional feeding device and the tangent plane of the forward rotation direction of the rotating radius position of the unidirectional feeding device is-30 degrees to-30 degrees; when the unidirectional feeding device rotates along with the separating part, the articles are limited in the storage space; when the unidirectional feeding device rotates along with the separating part reversely, the articles in the storage space are thrown out from the feeding opening;

or

The outer side wall, the upper end surface or the lower end surface of the flow guide part is provided with a one-way feeding device, and the one-way feeding device is provided with an article accommodating space and a feeding opening for accommodating articles; the included angle between the feeding opening direction of the unidirectional feeding device and the horizontal plane is more than or equal to 0 degree and less than 90 degrees; the included angle between the feeding opening direction of the unidirectional feeding device and the tangent plane of the forward rotation direction of the rotating radius position of the unidirectional feeding device is-30 degrees to-30 degrees; when the unidirectional feeding device rotates along with the flow guide component, the articles are limited in the storage space; when the unidirectional feeding device rotates reversely along with the diversion component, the articles in the storage space are thrown out from the feeding opening.

The separation part is positioned at the upper end of the flow guide part, and the top end of the flow guide part is inserted into the hollow structure of the separation part; the position of the outflow port of the flow guide component is higher than the bottom in the hollow structure of the separation part and lower than the top in the hollow structure of the separation part; the part of the flow guide component, which is positioned in the hollow structure of the separation part, forms a backflow shielding structure, and a containing groove for material slag is formed between the backflow shielding structure and the hollow structure of the separation part.

a baffle is arranged at the flow guide opening of the flow guide part and used for preventing the foodstuff liquid from entering the flow guide part when the cutter rotates forwards; when the cutter rotates reversely, the baffle plate removes the barrier to the foodstuff liquid, and the foodstuff liquid enters the flow guide part;

the food processor barrel body also comprises a pump-like mechanism;

The installation mode of the diversion component is selected from any one of the following (1), (2), (3), (4) or (5):

or

The side wall, the bottom surface or the top surface of the flow guide component are provided with the flow guide opening, the flow guide component at the flow guide opening is provided with a baffle plate, and the structure of the baffle plate is selected from any one of (1), (2) or (3):

(1) the separation blade tilts towards the inner side or the outer side of the flow guide component and extends towards the direction of the flow guide port, the separation blade prevents the food liquid from entering the flow guide component when the cutter rotates forwards, and the separation blade guides the food liquid to enter the flow guide component when the cutter rotates backwards;

or

(2) The separation blade tilts towards the inner side or the outer side of the flow guide component and extends towards the direction opposite to the flow guide port, the separation blade prevents the food liquid from entering the flow guide component when the cutter rotates forwards, and the separation blade prevents the food liquid from entering the flow guide component when the cutter rotates backwards;

or

(3) The separation blade is movably arranged, the separation blade covers the flow guide opening when the cutter rotates forwards and blocks the food liquid from entering the flow guide part, and the separation blade is opened when the cutter rotates backwards and enables the food liquid to enter the flow guide part.

The side wall, the bottom surface or the top surface of the flow guide component is provided with the flow guide opening, the flow guide component at the flow guide opening is provided with a baffle plate, and the baffle plate structure is selected from any one of the following (1), (2), (3) or (4):

(1) the baffle plate and the flow guide component are fixedly arranged, the baffle plate tilts towards the inner side or the outer side of the flow guide component, the tilting angle of the baffle plate is larger than 0 degree and smaller than 90 degrees relative to the plane of the flow guide component where the tilting position of the baffle plate is located or the section of the curved surface of the flow guide component where the tilting position of the baffle plate is located, and the tilted baffle plate extends towards the flow guide opening; in the tilting angle range of the baffle plate, the tilting directions of the baffle plate correspond to the reverse rotation directions of the cutter; when the baffle plate rotates reversely along with the cutter, the guide foodstuff liquid enters the flow guide part; when the baffle plate rotates forwards along with the cutter, the food liquid is prevented from entering the flow guide part;

or

(2) The baffle plate and the flow guide component are fixedly arranged, the baffle plate tilts towards the inner side or the outer side of the flow guide component, the tilting angle of the baffle plate is more than or equal to 90 degrees and less than 180 degrees relative to the plane of the flow guide component where the tilting position of the baffle plate is located or the tangent plane of the curved surface of the flow guide component where the tilting position of the baffle plate is located, and the tilted baffle plate extends towards the opposite direction or the vertical direction of the flow guide port; in the tilting angle range of the baffle plate, the tilting direction of the baffle plate corresponds to the positive rotation direction of the cutter or is vertical to the positive rotation direction of the cutter; when the baffle plate rotates forwards along with the cutter, the food liquid is prevented from entering the flow guide part; when the baffle plate rotates reversely along with the cutter, the foodstuff liquid enters the flow guide part;

or

(3) The separation blade and the diversion part are movably arranged, and the separation blade selectively covers the diversion opening or is movably opened by tilting: the movable tilting opening angle is larger than 0 degree and smaller than 90 degrees relative to the plane of the flow guide component where the blocking piece tilting position is located or the section of the curved surface of the flow guide component where the blocking piece tilting position is located, and the movably tilting blocking piece extends towards the flow guide opening; in the angle range of the movable tilting opening of the blocking piece, the movable tilting direction of the blocking piece corresponds to the reverse rotation direction of the cutter; when the baffle plate rotates reversely along with the cutter, the baffle plate is movably tilted and opened, and the baffle plate guides the foodstuff liquid to enter the flow guide part; when the baffle plate rotates forwards along with the cutter, the baffle plate covers the flow guide opening and blocks the food liquid from entering the flow guide part;

or

(4) The separation blade and the diversion part are movably arranged, and the separation blade selectively covers the diversion opening or is movably opened by tilting: the angle of the movable tilting opening of the baffle plate is more than or equal to 90 degrees and less than 180 degrees relative to the plane of the flow guide component where the position of the baffle plate tilting is located or the tangent plane of the curved surface of the flow guide component where the position of the baffle plate tilting is located, and the movably tilting baffle plate extends towards the opposite direction or the vertical direction of the flow guide port; in the angle range of the movable tilting opening of the blocking sheet, the movable tilting direction of the blocking sheet corresponds to the positive rotation direction of the cutter or is vertical to the positive rotation direction of the cutter; when the separation blade rotates forwards along with the cutter, the separation blade covers the flow guide opening and prevents the food liquid from entering the flow guide part; when the separation blade rotates reversely along with the cutter, the separation blade is movably tilted and opened, and foodstuff liquid enters the flow guide component.

The motor drives a cutter positioned in the barrel body through a cutter shaft;

when the cutter is reversed, foodstuff liquid in the barrel enters the flow guide part of the hollow structure from the flow guide port under the driving of the cutter and/or the similar pump mechanism and enters the separation part of the hollow structure through the flow channel in the flow guide part, liquid in the foodstuff liquid is discharged out of the separation part from the liquid outlet hole, and at least part of material slag in the foodstuff liquid is collected in the separation part.

The pump mechanism is selected from at least one of (1), (2) or (3):

(1) the pump mechanism is a baffle plate which is arranged at the flow guide opening and used for guiding the feed liquid to enter the flow guide part;

(2) the pump mechanism is as follows: any one or more of at least one bulge, at least one pit, at least one fin, at least one convex edge, at least one fold, at least one axial flow blade, at least one centrifugal blade, at least one mixed flow blade, at least one spiral blade, at least one paddle blade, at least one axial flow impeller, at least one centrifugal impeller, at least one mixed flow impeller, at least one spiral impeller or at least one paddle impeller which are arranged on the inner side wall of the flow guide part, the outer side wall of the flow guide part, the inner side wall of the separation part or the outer side wall of the separation part;

(3) the pump mechanism is as follows: the flow guide part or the separation part is internally provided with a flow guide part which is fixedly or detachably connected with the cutter shaft or the cutter: any one or any plurality of at least one axial flow blade, at least one centrifugal blade, at least one mixed flow blade, at least one helical blade, at least one axial flow impeller, at least one centrifugal impeller, at least one mixed flow impeller or at least one helical impeller.

or

the food processor barrel body also comprises a pump-like mechanism;

when the cutter rotates towards any one of the positive rotation direction or the reverse rotation direction, food liquid in the barrel can enter the flow guide component from the flow guide port under the driving of the cutter and/or the driving of the similar pump mechanism and enter the separation part through the flow channel in the flow guide component, the liquid in the food liquid is discharged out of the separation part from the liquid outlet hole, and at least one part of slag in the food liquid is collected in the separation part.

or

The motor drives a cutter positioned in the barrel body through a cutter shaft;

when the cutter rotates towards any one of the positive rotation direction or the reverse rotation direction, food liquid in the barrel can enter the flow guide part of the hollow structure from the flow guide port under the driving of the cutter and/or the driving of the similar pump mechanism and enter the separation part of the hollow structure through the flow channel in the flow guide part, liquid in the food liquid is discharged out of the separation part from the liquid outlet hole, and at least part of material slag in the food liquid is collected in the separation part.

The pump mechanism is selected from at least one of (1) or (2):

(1) the pump mechanism is as follows: any one or more of at least one bulge, at least one pit, at least one fin, at least one convex edge, at least one fold, at least one centrifugal blade, at least one mixed flow blade, at least one centrifugal impeller or at least one mixed flow impeller is arranged on the inner side wall of the flow guide part, the outer side wall of the flow guide part, the inner side wall of the separation part or the outer side wall of the separation part;

(2) the pump mechanism is as follows: the flow guide part or the separation part is internally provided with a flow guide part which is fixedly or detachably connected with the cutter shaft or the cutter: any one or any plurality of at least one centrifugal blade, at least one mixed flow blade, at least one centrifugal impeller or at least one mixed flow impeller.

or

when the cutter reverses, foodstuff liquid in the barrel enters the diversion part from the diversion port under the drive of the cutter and enters the separation part through the flow channel in the diversion part, liquid in the foodstuff liquid is discharged out of the liquid outlet hole outside the separation part, and at least part of material slag in the foodstuff liquid is collected in the separation part.

or

The motor drives a cutter positioned in the barrel body through a cutter shaft;

when the cutter rotates forwards, the foodstuff liquid in the barrel is blocked outside the separating part by the cutter; when the cutter reverses, foodstuff liquid in the barrel enters the flow guide part of the hollow structure from the flow guide port under the driving of the cutter and enters the separation part of the hollow structure through the flow channel in the flow guide part, liquid in the foodstuff liquid is discharged out of the separation part from the liquid outlet hole, and at least part of material slag in the foodstuff liquid is collected in the separation part.

the separation part and the cutter or the cutter shaft are of an integral connecting structure, a fixed connecting structure or a detachable connecting structure, and when the cutter rotates towards any one of the forward rotation direction or the reverse rotation direction, the separation part rotates synchronously along with the rotation of the cutter; or the separating part and the cutter or the cutter shaft are in a rotary connection structure, and when the cutter rotates in any one of the forward rotation direction or the reverse rotation direction, the separating part rotates synchronously, asynchronously, reversely or freely along with the rotation of the cutter;

the food processor barrel body also comprises a pump-like mechanism;

The motor drives a cutter positioned in the barrel body through a cutter shaft;

The pump mechanism is selected from at least one of (1) or (2):

a baffle is arranged at the flow guide opening of the flow guide part and used for preventing the foodstuff liquid from entering the flow guide part when the cutter rotates forwards; when the cutter rotates reversely, the baffle plate removes the barrier of the foodstuff liquid, and the foodstuff liquid enters the flow guide part;

the food processor barrel body also comprises a pump-like mechanism;

The side wall, the bottom surface or the top surface of the flow guide component is provided with the flow guide opening, and the baffle structure at the flow guide opening is selected from any one of (1), (2) or (3):

or

(2) The baffle piece tilts towards the inner side or the outer side of the flow guide part and extends towards the direction opposite to the flow guide port, the baffle piece blocks the feed liquid from entering the flow guide part when the cutter rotates forwards, and the baffle piece blocks the feed liquid from entering the flow guide part when the cutter rotates backwards;

or

The motor drives a cutter positioned in the barrel body through a cutter shaft;

The pump mechanism is selected from at least one of (1), (2) or (3):

the food processor barrel body also comprises a pump-like mechanism;

The motor drives a cutter positioned in the barrel body through a cutter shaft;

The pump mechanism is selected from at least one of (1) or (2):

The motor drives a cutter positioned in the barrel body through a cutter shaft;

The food processor with the material slag collecting function comprises a motor, a cutter shaft, a cutter, a barrel body and a machine body, wherein the motor is arranged in the machine body and drives the cutter in the barrel body, foodstuff in the barrel body is processed by the cutter when rotating to form foodstuff liquid with material slag, a flow guide part and a separating part are arranged in the barrel body,

the flow guide part is provided with a flow guide port, the separation part is provided with a liquid outlet hole, the flow guide part and the separation part are arranged in a split way, and the flow guide part and the separation part are opposite,

the food processor barrel body also comprises a pump-like mechanism;

when the cutter reverses, foodstuff liquid in the barrel enters the flow guide part from the flow guide port under the driving of the cutter and/or the driving of the similar pump mechanism and enters the separation part through the flow channel in the flow guide part, liquid in the foodstuff liquid is discharged out of the separation part from the liquid outlet hole, and at least part of material slag in the foodstuff liquid is collected in the separation part.

The motor drives a cutter positioned in the barrel body through a cutter shaft;

the flow guide component is of a hollow structure and is provided with a flow guide port, the separation part is of a hollow structure and is provided with a liquid outlet hole, the flow guide component and the separation part are arranged in a split mode, the flow guide component and the separation part are opposite, the upper end of the flow guide component is provided with an outflow port, the lower end of the separation part is provided with a liquid inlet, and the outflow port of the flow guide component corresponds to the liquid inlet of the separation part in position;

when the cutter rotates forwards, the foodstuff liquid in the barrel is blocked outside the separation part by the cutter and/or the pump mechanism; when the cutter is reversed, food liquid in the barrel enters the flow guide part of the hollow structure from the flow guide port under the driving of the cutter and/or the driving of the similar pump mechanism, passes through the flow channel in the flow guide part and then enters the separation part of the hollow structure through the outflow port and the liquid inlet, the liquid in the food liquid is discharged out of the separation part from the liquid outlet hole, and at least one part of slag in the food liquid is collected in the separation part.

The pump mechanism is selected from at least one of (1) or (2):

the food processor barrel body also comprises a pump-like mechanism;

The motor drives a cutter positioned in the barrel body through a cutter shaft;

The pump mechanism is selected from at least one of (1), (2) or (3):

the food processor barrel body also comprises a pump-like mechanism;

The motor drives a cutter positioned in the barrel body through a cutter shaft;

The pump mechanism is selected from at least one of (1) or (2):

The motor drives a cutter positioned in the barrel body through a cutter shaft;

The food processor comprises a motor, a cutter shaft, a cutter, a pump mechanism, a barrel body and a machine body, wherein the motor is arranged in the machine body and drives the cutter in the barrel body, and the cutter processes foodstuff in the barrel body to form foodstuff liquid with material residues when rotating; a flow guide part and a separation part are arranged in the barrel body,

the flow guide part is of a hollow structure and is provided with a flow guide port, the separation part is of a hollow structure and is provided with a liquid outlet hole, and the hollow structure of the flow guide part is communicated with or opposite to the hollow structure of the separation part;

the separation part and the cutter shaft are in an integral connection structure, a fixed connection structure or a detachable connection structure, or the separation part and the cutter shaft are in an integral connection structure, a fixed connection structure or a detachable connection structure through a flow guide part;

when the cutter shaft rotates in any direction, the separating part rotates synchronously along with the rotation of the cutter shaft;

when the cutter rotates forwards, the foodstuff liquid in the barrel is blocked outside the separating part; when the cutter rotates reversely, foodstuff liquid in the barrel body enters the flow guide part of the hollow structure from the flow guide port under the driving of the cutter and/or the similar pump mechanism and enters the separation part of the hollow structure through the flow channel in the flow guide part;

the working method of the food processor comprises the following steps:

① feeding step, namely, putting water and food materials into the barrel body, or only putting food materials with high water content into the barrel body, and putting water-soluble food additives into the separation part;

② preprocessing step, rotating the cutter forward, crushing foodstuff by the cutter to form foodstuff liquid, wherein the foodstuff liquid is blocked outside the separation part;

③ stopping the motor;

④ collecting and processing the material slag, wherein the liquid level of the food liquid is higher than at least a part of the diversion port on the diversion part, the cutter rotates reversely, the separation part rotates synchronously with the cutter, the food liquid in the barrel body enters the diversion part with the hollow structure from the diversion port under the drive of the cutter and/or the similar pump mechanism and enters the separation part with the hollow structure through the flow passage in the diversion part, the water-soluble food additive in the separation part is dissolved in the food liquid, the material slag in the food liquid is collected in the separation part, and the liquid which is separated from the material slag and dissolved with the water-soluble food additive is discharged out of the separation part from the liquid outlet;

⑤ stopping the motor;

⑥ spin-drying the material residue, wherein the liquid level of the food liquid is below the liquid outlet of the separation part, the motor drives the cutter to rotate forward again, and the separation part rotates together with the cutter;

⑦ and (4) post-processing steps of stopping the motor and standing.

The food processor is provided with an electric heating device, and the working method of the food processor comprises the following steps:

① adding material, namely, putting water and soybean into the barrel body, and putting a water-soluble coagulant into the separation part;

② preprocessing step, starting machine, pulverizing with cutter, heating with electric heater to obtain cooked soybean milk, wherein the cutter is rotated forward during pulverizing process, and the food liquid is blocked outside the separating part;

③ stopping the motor;

④ collecting and processing the dregs, wherein the motor drives the cutter to rotate reversely, the separating part rotates synchronously with the cutter, the cooked soybean milk enters the flow guide part of the hollow structure from the flow guide port under the drive of the cutter and/or the similar pump mechanism and enters the separating part of the hollow structure through the flow channel in the flow guide part, the dregs in the cooked soybean milk are collected in the separating part under the blockage of the liquid outlet hole;

⑤ stopping the motor;

⑥ spin-drying the dregs, wherein the motor drives the cutter to rotate forward again, the separating part rotates along with the cutter, the cooked soybean milk is blocked outside the separating part, and the cooked soybean milk contained in the dregs in the separating part is thrown out from the liquid outlet hole to spin-dry the dregs;

⑦ post-processing step, stopping the motor, standing to coagulate the cooked soybean milk into jellied bean curd.

when the cutter shaft rotates in any direction, the separation part and the flow guide part synchronously rotate along with the rotation of the cutter shaft;

the outer side wall, the upper end face or the lower end face of the separating part is provided with a one-way feeding device, and the one-way feeding device is provided with an article accommodating space and a feeding opening for accommodating articles; the included angle between the feeding opening direction of the unidirectional feeding device and the horizontal plane is more than or equal to 0 degree and less than 90 degrees; the included angle between the feeding opening direction of the unidirectional feeding device and the tangent plane of the forward rotation direction of the rotating radius position of the unidirectional feeding device is-30 degrees to-30 degrees; when the unidirectional feeding device rotates along with the separating part, the articles are limited in the storage space; when the unidirectional feeding device rotates along with the separating part reversely, the articles in the storage space are thrown out from the feeding opening;

or

The outer side wall, the upper end surface or the lower end surface of the flow guide part is provided with a one-way feeding device, and the one-way feeding device is provided with an article accommodating space and a feeding opening for accommodating articles; the included angle between the feeding opening direction of the unidirectional feeding device and the horizontal plane is more than or equal to 0 degree and less than 90 degrees; the included angle between the feeding opening direction of the unidirectional feeding device and the tangent plane of the forward rotation direction of the rotating radius position of the unidirectional feeding device is-30 degrees to-30 degrees; when the unidirectional feeding device rotates along with the flow guide component, the articles are limited in the storage space; when the unidirectional feeding device rotates reversely along with the diversion component, the articles in the storage space are thrown out from the feeding opening;

when the cutter rotates forwards, the foodstuff liquid in the barrel is blocked outside the separating part; when the cutter rotates reversely, the food liquid in the barrel body enters the flow guide part of the hollow structure from the flow guide port under the driving of the cutter and/or the similar pump mechanism and enters the separation part of the hollow structure through the flow channel in the flow guide part;

the working method of the food processor comprises the following steps:

① feeding step, namely, putting water and foodstuff into the barrel body, wherein the liquid level is positioned below the feeding opening of the unidirectional feeding device;

② preprocessing step, rotating the cutter forward, crushing foodstuff by the cutter to form foodstuff liquid, and blocking the foodstuff liquid outside the separation part;

③ stopping the motor;

④ collecting and processing the material slag, wherein the liquid level of the food liquid is higher than at least a part of the diversion port on the diversion component, the cutter rotates reversely, the separation part and the diversion component rotate synchronously with the cutter, the water-soluble food additive in the storage space of the unidirectional feeding device is thrown out and falls into the barrel, the water-soluble food additive is dissolved in the food liquid, the food liquid in the barrel enters the diversion component with the hollow structure from the diversion port under the drive of the cutter and/or the similar pump mechanism and enters the separation part with the hollow structure through the flow passage in the diversion component, the material slag in the food liquid is collected in the separation part, and the liquid which is separated from the material slag and dissolved with the water-soluble food additive is discharged out of the separation part from the liquid outlet;

⑤ stopping the motor;

⑦ and (4) post-processing steps of stopping the motor and standing.

① feeding step, namely, putting water and soybeans into the barrel body, and putting a water-soluble coagulant into the storage space of the unidirectional feeding device;

② preprocessing step, wherein the soybean milk is prepared by crushing soybean with a cutter and heating with an electric heater, the cutter crushes the soybean with the water, the motor rotates forward, the food liquid is blocked outside the separating part, and the water-soluble food additive is limited in the space of the unidirectional feeding device;

③ stopping the motor;

④ collecting and processing the dregs, wherein the cutter rotates reversely, the separating part and the flow guide part rotate synchronously with the cutter, the water-soluble coagulant in the storage space of the unidirectional feeding device is thrown out and falls into the barrel, the water-soluble coagulant is dissolved in the cooked soybean milk, the cooked soybean milk enters the flow guide part of the hollow structure from the flow guide port under the drive of the cutter and/or the similar pump mechanism and enters the separating part of the hollow structure through the flow channel in the flow guide part, the bean dregs in the cooked soybean milk are collected in the separating part, and the cooked soybean milk which is separated from the bean dregs and dissolved with the water-soluble coagulant is discharged out of the separating part from the liquid outlet and then enters the barrel;

⑤ stopping the motor;

The food processor comprises a motor, a cutter shaft, cutters, a similar pump mechanism, an electric heating device, a barrel body and a machine body, wherein the motor is arranged in the machine body and drives the cutters in the barrel body, and the cutters process foodstuff in the barrel body to form foodstuff liquid with material slag when rotating; a flow guide part and a separation part are arranged in the barrel body,

when the cutter shaft rotates in any direction, the separating part rotates synchronously along with the rotation of the cutter;

the working method of the food processor comprises the following steps:

① feeding step, namely, putting water and food into the barrel body, or only putting food with high water content into the barrel body;

② heating step, starting the machine, heating by an electric heating device to make the water temperature reach the preset temperature;

③ pulverizing, in which the motor drives the cutter to rotate forward, and the cutter pulverizes the foodstuff to form a foodstuff liquid with dregs, and the foodstuff liquid is blocked outside the separation part;

④ stopping the motor;

⑤ collecting material slag, wherein the liquid level of the food liquid is higher than at least a part of the diversion port on the diversion part, the motor drives the cutter to rotate reversely, the food liquid in the barrel body enters the diversion part of the hollow structure from the diversion port under the drive of the cutter and/or the similar pump mechanism and enters the separation part of the hollow structure through the flow passage in the diversion part, the material slag in the food liquid is collected in the separation part, and the liquid after the material slag is separated is discharged out of the separation part from the liquid outlet hole;

⑥ stopping the motor;

⑦ spin-drying the material residue, wherein the liquid level of the food liquid is below the liquid outlet of the separation part, the motor drives the cutter to rotate forward again, the separation part rotates along with the cutter, and the food liquid is blocked outside the separation part again;

⑧ the motor stops rotating.

The working method of the food processor comprises the following steps:

① adding step, adding water and coffee bean into the barrel;

② heating step, starting the machine, heating by an electric heating device to ensure that the temperature of water reaches 60-100 ℃;

③ grinding, namely driving a cutter to rotate forward by a motor, grinding coffee beans by the cutter to form coffee liquid, blocking the coffee liquid outside the separation part, and keeping the temperature at 60-100 ℃;

④ stopping the motor;

⑤ collecting the coffee residues, wherein the motor drives the cutter to rotate reversely, the coffee liquid enters the flow guide part of the hollow structure from the flow guide port under the drive of the cutter and/or the similar pump mechanism and enters the separation part of the hollow structure through the flow passage in the flow guide part, the coffee residues in the coffee liquid are collected in the separation part, and the coffee liquid after separating the coffee residues is discharged out of the separation part from the liquid outlet hole;

⑥ stopping the motor;

⑦ spin-drying the coffee grounds, wherein the motor drives the cutter to rotate forward again, the separating part rotates along with the cutter, and the coffee liquid is blocked outside the separating part again;

⑧ the motor stops rotating.

The food processor comprises a motor, a cutter shaft, a cutter, a pump mechanism, an electric heating device, a barrel body and a machine body, wherein the motor is arranged in the machine body and drives the cutter in the barrel body, and foodstuff in the barrel body is processed by the cutter when rotating to form foodstuff liquid with material slag; a flow guide part and a separation part are arranged in the barrel body,

the outer side wall, the upper end face or the lower end face of the separating part is provided with a one-way feeding device, and the one-way feeding device is provided with an article accommodating space and a feeding opening for accommodating articles; the included angle between the feeding opening direction of the unidirectional feeding device and the horizontal plane is more than or equal to 0 degree and less than 90 degrees; the included angle between the feeding opening direction of the unidirectional feeding device and the section of the reverse direction of the rotation radius position of the unidirectional feeding device is-30 degrees to-30 degrees; when the unidirectional feeding device rotates reversely along with the separating part, the articles are limited in the storage space; when the unidirectional feeding device rotates along with the separating part, the articles in the storage space are thrown out from the feeding opening;

or

The outer side wall, the upper end surface or the lower end surface of the flow guide part is provided with a one-way feeding device, and the one-way feeding device is provided with an article accommodating space and a feeding opening for accommodating articles; the included angle between the feeding opening direction of the unidirectional feeding device and the horizontal plane is more than or equal to 0 degree and less than 90 degrees; the included angle between the feeding opening direction of the unidirectional feeding device and the section of the reverse direction of the rotation radius position of the unidirectional feeding device is-30 degrees to-30 degrees; when the unidirectional feeding device rotates reversely along with the flow guide component, the articles are limited in the storage space; when the unidirectional feeding device rotates along with the flow guide component, the articles in the storage space are thrown out from the feeding opening;

the working method of the food processor comprises the following steps:

① feeding step, namely, putting water into the barrel body, wherein the liquid level is below the feeding opening of the unidirectional feeding device;

② preprocessing step, starting the machine, heating by the electric heating device to make the water temperature reach the preset temperature, wherein the food is limited in the storage space of the unidirectional feeding device;

③ crushing step, in which the cutter rotates positively, the separating part and the flow guide part rotate synchronously with the cutter, the foodstuff in the storage space in the unidirectional feeding device is thrown out and falls into the barrel body, and the foodstuff is crushed in water by the cutter to form foodstuff liquid with material residues;

④ stopping the motor;

⑤ collecting the dregs, wherein the liquid level of the food liquid is higher than at least a part of the diversion port on the diversion part, the cutter is reversed, the food liquid in the barrel is driven by the cutter and/or the similar pump mechanism to enter the diversion part of the hollow structure from the diversion port and enter the separation part of the hollow structure through the flow passage in the diversion part, the dregs in the food liquid are collected in the separation part, and the liquid after the dregs are separated is discharged out of the separation part from the liquid outlet;

⑥ stopping the motor;

⑦ spin-drying the material residue, wherein the liquid level of the food liquid is below the liquid outlet of the separation part, the cutter rotates forward again, the separation part rotates along with the cutter, and the food liquid is blocked outside the separation part again;

⑧ the motor stops rotating.

The working method of the food processor comprises the following steps:

① charging step, namely, putting water into the barrel body, and putting coffee beans into the storage space of the unidirectional charging device;

② preprocessing step, starting the machine, heating by an electric heating device to raise the temperature of water to 60-100 ℃, and limiting coffee beans in the storage space of the unidirectional feeding device;

③ grinding, namely rotating the cutter positively, enabling the separating part and the flow guide part to rotate synchronously with the cutter, throwing coffee beans in the storage space of the unidirectional feeding device out of the barrel body, and grinding the coffee beans in water by the cutter to form coffee liquid, wherein the coffee liquid is blocked outside the separating part, and keeping the temperature at 60-100 ℃;

④ stopping the motor;

⑤ collecting the dregs, wherein the liquid level of the food liquid is higher than at least a part of the diversion port on the diversion component, the motor drives the cutter to rotate reversely, the coffee liquid enters the diversion component of the hollow structure from the diversion port under the drive of the cutter and/or the similar pump mechanism and enters the separation part of the hollow structure through the flow passage in the diversion component, the coffee dregs in the coffee liquid are collected in the separation part, and the coffee liquid after separating the coffee dregs is discharged out of the separation part from the liquid outlet hole;

⑥ stopping the motor;

⑦ spin-drying the coffee grounds, namely, the liquid level of the food liquid is below the liquid outlet hole of the separation part, the motor drives the cutter to rotate forward again, the separation part rotates along with the cutter, and the coffee liquid is blocked outside the separation part again;

⑧ the motor stops rotating.

the working method of the food processor comprises the following steps:

② preprocessing, namely starting the machine, crushing the cutter and heating by an electric heating device to prepare the food and water into the food liquid with the temperature of 60-100 ℃, keeping the temperature for 0-180 minutes after the set temperature is reached, wherein the cutter is rotated forwards in the crushing process, and the food liquid is blocked outside the separation part;

③ stopping the motor;

④ collecting material slag, wherein the liquid level of the food liquid is higher than at least one part of the diversion port on the diversion component, the motor drives the cutter to rotate reversely, the food liquid in the barrel is driven by the cutter and/or the similar pump mechanism to enter the diversion component with the hollow structure from the diversion port and enter the separation part with the hollow structure through the flow passage in the diversion component, the material slag in the food liquid is collected in the separation part, and the liquid is discharged out of the separation part from the liquid outlet after the material slag is separated, and the temperature is kept at 60-100 ℃;

⑤ stopping the motor;

⑥ spin-drying the material residue, wherein the liquid level of the food liquid is below the liquid outlet of the separation part, the motor drives the cutter to rotate forward again, the separation part rotates along with the cutter, and the food liquid is blocked outside the separation part again;

⑦ the motor stops rotating.

The working method of the food processor comprises the following steps:

① adding materials, namely adding water and Chinese medicinal materials into the barrel body;

② preprocessing, namely, starting the machine, preparing the traditional Chinese medicine materials and water into traditional Chinese medicine liquid at the temperature of 60-100 ℃ by crushing the cutter and heating the traditional Chinese medicine liquid by an electric heating device, keeping the temperature for 0-180 minutes after the set temperature is reached, wherein the traditional Chinese medicine liquid is in positive rotation in the crushing process of the cutter, and the traditional Chinese medicine liquid is blocked outside the separation part;

③ stopping the motor;

④ collecting residue, wherein the liquid level of the Chinese medicinal liquid is higher than at least a part of the diversion port on the diversion component;

the motor drives the cutter to rotate reversely, the traditional Chinese medicine liquid in the barrel body enters the flow guide part with the hollow structure from the flow guide port under the driving of the cutter and/or the similar pump mechanism and enters the separation part with the hollow structure through the flow channel in the flow guide part, the traditional Chinese medicine material residues in the traditional Chinese medicine liquid are collected in the separation part, and the traditional Chinese medicine liquid after the traditional Chinese medicine material residues are separated is discharged out of the separation part from the liquid outlet; keeping the temperature at 60-100 ℃;

⑤ stopping the motor;

⑥ spin-drying the residue, wherein the liquid level of the Chinese medicinal liquid is below the liquid outlet of the separation part, the motor drives the cutter to rotate forward again, the separation part rotates with the cutter, and the Chinese medicinal liquid is blocked outside the separation part again;

⑦ the motor stops rotating.

the working method of the food processor comprises the following steps:

② crushing step, in which the cutter rotates forward to crush the foodstuff to form foodstuff liquid, the foodstuff liquid is blocked outside the separation part;

③ stopping the motor;

④ collecting material slag, wherein the liquid level of the food liquid is higher than at least a part of the diversion port on the diversion part, the cutter rotates reversely, the separation part rotates synchronously with the cutter, the food liquid in the barrel body enters the diversion part with the hollow structure from the diversion port under the drive of the cutter and/or the similar pump mechanism and enters the separation part with the hollow structure through the flow passage in the diversion part, the material slag in the food liquid is collected in the separation part, and the liquid after the material slag is separated is discharged out of the separation part from the liquid outlet;

⑤ stopping the motor;

⑦ the motor stops rotating.

a filter screen is arranged at the flow guide opening, and the filter holes of the filter screen at the flow guide opening are larger than the filter holes of the filter screen at the liquid outlet hole or the liquid outlet hole;

when the cutter rotates, foodstuff liquid in the barrel body enters the flow guide part of the hollow structure from the flow guide port under the driving of the cutter and/or the similar pump mechanism and enters the separation part of the hollow structure through the flow channel in the flow guide part;

the working method of the food processor comprises the following steps:

② crushing and collecting dregs, wherein the liquid level is higher than at least a part of the diversion port on the diversion component, the cutter rotates, the cutter crushes foodstuff to form foodstuff liquid with dregs, meanwhile, the foodstuff liquid in the barrel body enters the diversion component with a hollow structure from the diversion port under the drive of the cutter and/or a similar pump mechanism, the dregs in the foodstuff liquid, which are smaller than the filtering holes of the filtering net at the diversion port, enter the diversion component with the hollow structure together with the foodstuff liquid in the process, then enter the separation part with the hollow structure through the flow passage in the diversion component, the liquid in the foodstuff liquid is discharged out of the separation part from the liquid outlet, and the dregs in the foodstuff liquid, which are larger than the filtering holes of the filtering net at the liquid outlet, are collected in the separation part;

③ the motor stops rotating.

the working method of the food processor comprises the following steps:

① feeding step, namely, water and food are put into the barrel body, or food with high water content is put into the barrel body;

② preprocessing step, wherein the liquid level is higher than at least one part of the diversion port on the diversion part, the machine is started, foodstuff and water are made into food material liquid at 60-100 ℃ by crushing the cutter and heating the food material liquid by the electric heating device, the food material liquid is kept for 0-180 minutes after reaching the set temperature, the food material liquid in the barrel is reversely rotated in the crushing process of the cutter, the food material liquid is driven by the cutter and/or a similar pump mechanism to enter the diversion part with a hollow structure from the diversion port, the material slag in the food material liquid, which is smaller than the filter screen filtering hole at the diversion port, and the food material liquid enters the diversion part with the hollow structure through the flow channel in the diversion part, the liquid in the food material liquid is discharged out of the separation part from the liquid outlet, and the material slag in the food material liquid, which is larger than the filter screen filtering hole at the liquid outlet, is collected in the separation;

③ stopping the motor;

④ spin-drying the material residue, wherein the liquid level of the food liquid is below the liquid outlet of the separation part, the motor drives the cutter to rotate forward, the separation part rotates along with the cutter, and the food liquid is blocked outside the separation part;

⑤ the motor stops rotating.

or

or the upper end surface of the separation part is in a plane or pit shape;

the working method of the food processor comprises the following steps:

① feeding step, namely, putting water into the barrel body, wherein the liquid level is below the feeding opening of the unidirectional feeding device, and foodstuff is put into the storage space of the unidirectional feeding device or foodstuff is put on the upper end surface of the separation part;

② heating step, starting the machine, heating by an electric heating device to make the water temperature reach 50-100 ℃;

③ preprocessing step, namely, the liquid level is higher than at least one part of the diversion port on the diversion part, the cutter rotates reversely, the separation part and the diversion part rotate synchronously along with the cutter, food in the storage space in the unidirectional feeding device or food placed on the upper end surface of the separation part is thrown out and falls into the barrel and is crushed in water by the cutter to form food liquid with material residues, meanwhile, the food liquid in the barrel enters the diversion part of the hollow structure from the diversion port under the driving of the cutter and/or a similar pump mechanism, the material residues in the food liquid, which are smaller than the filter holes of the filter screen at the diversion port, and the food liquid enter the diversion part of the hollow structure through the flow passage in the diversion part, the liquid in the food liquid is discharged out of the separation part from the liquid outlet, and the material residues in the food liquid, which are larger than the filter holes of the filter screen at the liquid outlet, are collected in the separation part, and the temperature is kept at 50-100 ℃;

④ stopping the motor;

⑤ spin-drying the material residue, wherein the liquid level of the food liquid is below the liquid outlet of the separation part, the cutter rotates forward, the separation part rotates along with the cutter, and the food liquid is blocked outside the separation part;

⑥ the motor stops rotating.

The invention has the advantages and positive effects that:

the food processor with the material residue collecting function and the working method thereof are characterized in that a diversion part is arranged on a cutter shaft, a cutter and the like of the food processor, the cutter rotates in a certain direction to drive the food liquid to rotate, simultaneously, the cutter and/or a similar pump mechanism drive the food liquid to enter the diversion part from a diversion port and further enter a separation part, a liquid outlet hole is arranged in the separation part, a filter screen can be arranged in the liquid outlet hole, the outer side or the separation part, most or all of the material residues are left in the separation part through the matching of the liquid outlet hole, the filter screen or the liquid outlet hole and the filter screen, and the juice is discharged out of the separation part, so that the material residue collection is realized, the food liquid in a barrel does not contain or only contains tiny particle material residues, and the edible taste and the use convenience are improved. And pouring the foodstuff liquid out of the barrel body after the material slag is collected, then detaching the flow guide part and the like, and continuously using after cleaning.

In addition, when the separation part and the cutter shaft rotate synchronously, the cutter shaft usually rotates at a speed of thousands of revolutions per minute to tens of thousands of revolutions per minute, so that the material slag in the separation part is acted by huge centrifugal force, liquid contained in the material slag is thrown out by the powerful centrifugal force, and the water content of the material slag is far lower than the condition of gravity filtration (the water content of the material slag and the water content of the material slag are usually different by several times to more than ten times), the waste of the material liquid is reduced, and the effect is very obvious.

Drawings

FIG. 1 is a schematic structural view of a first embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a second, seventh, eighth, ninth, tenth, eleventh and twelfth embodiment;

FIG. 3 is a schematic structural diagram of a third embodiment and a thirteenth embodiment;

FIG. 4 is a schematic structural view of a fourth embodiment;

FIG. 5 is a schematic structural view of a fifth embodiment;

FIG. 6 is a schematic structural view of a sixth embodiment;

FIG. 7 is a cross-sectional view of the flow directing member at the flow guide;

FIG. 8 is another cross-sectional view of the flow directing member at the flow guide;

FIG. 9 is a third cross-sectional view of the flow directing member at the flow guide;

FIG. 10 is a schematic view of a first configuration of a single direction feeder device;

FIG. 11 is a schematic view of a second configuration of a single direction feeder device;

FIG. 12 is a schematic view of a third configuration of a single dosing device;

FIG. 13 is a schematic view of a fourth configuration of a single dosing device;

FIG. 14 is a schematic view of a fifth configuration of a single direction feeder device;

FIG. 15 is a schematic view of a sixth configuration of a single direction feeder device;

FIG. 16 is a schematic view of a seventh configuration of a single dosing device;

FIG. 17 is a schematic view of an eighth configuration of a single direction feeder device;

FIG. 18 is a schematic view showing a connection structure of the separating part and the flow guide member in the second embodiment;

FIG. 19 is a schematic structural view of a fourteenth embodiment;

fig. 20 is a schematic view of a connecting structure of a knife shaft and a flow guide member in a fifteenth embodiment.

Detailed Description

The present invention is not directed to improvements in knives in food processors. The knife of the present invention is a generic name of a crushing knife device or a crushing device of a food processor, which can be rotated or rotated by a motor of the food processor to crush food. The cutter of the present invention is a conventional cutter, and includes a collision type crushing cutter, a shear type crushing cutter, and the like. In particular, the shear-type crushing cutter includes a main cutter and a companion cutter, and in the shear-type crushing cutter, the main cutter is a main part, the main cutter is disposed on and driven by an arbor, and the companion cutter is not driven by the arbor (or is not mainly driven by the arbor. Therefore, for the shearing type crushing cutter, the working state of the main cutter is mainly concerned, and the auxiliary cutter is not described. For example, the term "tool rotation" in the present invention, if referring to a shear type tool, indicates a state in which a main tool is rotated, and the description of the tool bit is omitted; the motor drives the cutter in the barrel through the cutter shaft, and the main cutter of the shear type cutter is driven by the motor through the cutter shaft.

The motor drives the cutter in the barrel, which comprises the motor directly driving the cutter in the barrel through the cutter shaft, and also comprises the motor driving the cutter in the barrel through other transmission devices.

The cutter is arranged on the cutter shaft. In the present invention, the term "the cutter is disposed on the cutter shaft" means that the main cutter is disposed on the cutter shaft, and therefore, the rotation direction of the cutter is identical to the rotation direction of the cutter shaft. The description of the 'cutter rotation' and the 'cutter shaft rotation' in the invention also has the same meaning.

A food processor is an apparatus that performs food processing. The foodstuff of the present invention is food material that can be processed by a food processor, such as fresh fruits, vegetables, and grains. Generally, a treatment method of mixing food with water, such as crushing apple and water together into apple juice, can be adopted. In the food processor, the food liquid with the material residue formed by processing the food in the barrel body by the cutter when the cutter rotates is as follows: when the cutter rotates, the foodstuff such as fruits and the like in the barrel body and water are smashed into the foodstuff liquid with the material residues. Of course, the foodstuff with high water content can also be directly smashed into the foodstuff liquid with the material slag. The foodstuff with high water content in the invention refers to foodstuff with water content more than or equal to 95 percent, such as fresh grapes, cucumbers and the like.

The foodstuff liquid obtained after processing is a solid-liquid mixture of juice and material residues. Strictly speaking, the juice itself is a solid-liquid mixture, and generally contains solid crumbs with smaller particles, but the crumbs are in a liquid state relative to the residue, and for convenience of description the terms "juice" and "liquid" are used generically to refer to the portion of the feed liquid after the residue is removed. The slag as referred to herein means "solid particles which cannot be discharged through the outlet holes of the separation section, or solid particles having a particle size larger than the outlet holes (or the filter holes of the filter screen)".

A food processor with a material residue collecting function is disclosed, as shown in figures 1-9, and comprises a motor 10, a cutter shaft 8, a cutter 7, a barrel body 1 and a machine body 11, wherein the motor is arranged in the machine body and drives the cutter positioned in the barrel body, and the cutter processes foodstuff in the barrel body when rotating, and the innovation of the invention is as follows: a flow guide part 4 is arranged in the barrel body, a separation part 3 is arranged above the flow guide part, a separation part 3 is arranged below the flow guide part or the separation part 3 is arranged on the outer side wall of the flow guide part, the flow guide part and the separation part are mutually communicated and are arranged in an integrated structure, a fixed connecting structure, a detachable connecting structure or a split structure, the split structure also requires that the separation part is opposite to the flow guide part, the flow guide part is provided with a flow guide opening 6, the flow guide opening can be in any shape such as square, round and strip shapes, and the separation part is provided with a liquid outlet 2;

when the cutter rotates towards any one direction of the two directions (namely, any one direction of positive rotation or negative rotation), the flow guide component synchronously rotates, freely rotates or keeps static along with the rotation of the cutter;

when the cutter rotates only in one of two directions (namely only in forward rotation or only in reverse rotation), foodstuff liquid in the barrel enters the flow guide part from the flow guide port under the driving of the cutter and/or the driving of the similar pump mechanism and enters the separation part through the flow channel 5 in the flow guide part (for convenience of description in the invention, the foodstuff liquid enters the flow guide part from the flow guide port under the driving of the cutter and/or the driving of the similar pump mechanism and enters the separation part through the flow channel 5 in the flow guide part when the cutter rotates reversely), the liquid in the foodstuff liquid is discharged out of the separation part from the liquid outlet hole, and at least one part of material slag is collected in the separation part; or when the cutter rotates towards any one direction of the two directions (namely, towards any one direction of the positive rotation direction or the reverse rotation direction), the foodstuff liquid in the barrel can enter the flow guide part from the flow guide port under the driving of the cutter and/or the driving of the similar pump mechanism and then enters the separation part through the flow channel 5 in the flow guide part, the liquid in the foodstuff liquid is discharged out of the separation part from the liquid outlet hole, and at least a part of the dregs are collected in the separation part.

According to the rules 91, 21.03.2018 are corrected in the embodiment of the application, the separated part arranged above the flow guide part corresponds to the structure shown in fig. 2 and 6, the separated part arranged below the flow guide part refers to the structure shown in fig. 2 and 6 after being vertically turned over, and the separated part arranged on the outer side wall of the flow guide part corresponds to the structure shown in fig. 1, 3, 4 and 5. The separation part is arranged above the flow guide part and specifically comprises:

1. the upper end of the flow guide part is integrally connected with a separation part as shown in figure 2;

or

2. The upper end of the flow guide component is fixedly connected with the separation part in a welding mode and the like;

or

3. The upper end of the flow guide component is detachably connected with the separation part through screws, threads and the like;

or

4. The components of a whole that can function independently sets up between water conservancy diversion part and the separation part, and the separation part is only counterpointed with the water conservancy diversion part, specifically is: the bottom surface of the separation part is provided with an opening (namely a liquid inlet), and the upper end opening (namely an outflow port) of the flow guide part is arranged outside the opening at intervals;

or

5. The components of a whole that can function independently sets up between water conservancy diversion part and the separation part, and the separation part is only counterpointed with the water conservancy diversion part, specifically is: an opening (namely a liquid inlet) is formed on the bottom surface of the separation part, and an opening (namely an outflow port) at the upper end of the flow guide part is leaned against the opening (namely the liquid inlet);

or

6. The components of a whole that can function independently sets up between water conservancy diversion part and the separation part, and the separation part is only counterpointed with the water conservancy diversion part, specifically is: the bottom surface of the separation part is provided with an opening (namely a liquid inlet), and the upper end of the flow guide part is embedded into the opening (namely the liquid inlet) as shown in figure 6.

[ amendment 21.03.2018 according to rule 91 ] similarly, the separation section may be provided below the flow guide member, which guides the lower end of the flow guide member, as in the above-mentioned configurations 1 to 6.

[ correcting 21.03.2018 according to rules 91 ] that the separating part is arranged on the outer side wall of the guide part means that the separating part is arranged on the outer side wall between the upper end and the lower end of the guide part, such as: the separation part is that integrative arch, separation part on the water conservancy diversion part lateral wall are the partly of water conservancy diversion part lateral wall, separation part for the ring structure etc. of water conservancy diversion part lateral wall suit, for example again: the flow guide part is a flat cylinder, liquid outlet holes are formed in the outer side wall of one side of the flat cylinder from top to bottom, at the moment, one part of the outer side wall of the flat cylinder becomes a separation part, and a flow guide opening can be formed in the flow guide part without the liquid outlet holes, namely, the separation part is the part with the liquid outlet holes on the outer side wall of the flow guide part.

The synchronous rotation means that the diversion component and the cutter start to rotate at the same time and keep the same speed; the free rotation means that the cutter rotates firstly, then the foodstuff liquid in the barrel is driven to rotate, and then the foodstuff liquid drives the flow guide component to rotate, and the rotating speed of the flow guide component is generally lower than that of the cutter under the condition; the guide part is still relative to the rotation of the cutter, and the guide part is considered to be still at the moment.

The side wall, the bottom surface or the top surface of the flow guide component is provided with the flow guide port, the flow guide port is positioned below the liquid level of the feed liquid, and the installation mode of the flow guide component is selected from any one of ⑴, ⑵, ⑶, ⑷ or ⑸:

⑴ the diversion component is connected with the cutter integrally, fixedly or detachably, and the diversion component and the cutter rotate synchronously;

or

⑵ the diversion component is connected with the cutter shaft integrally, fixedly or detachably, and the diversion component and the cutter rotate synchronously;

or

⑶ the diversion component is rotationally connected with the cutter shaft and freely rotates;

or

⑷ the diversion component is rotationally connected with the cutter seat arranged on the top of the barrel body, the inner side wall of the barrel body, the bottom of the barrel body or the bottom of the barrel body, and the diversion component freely rotates;

or

⑸ the diversion part is rotationally connected with the sealing mechanism at the upper end of the barrel body, and the diversion part freely rotates.

The rotary connection means that the two structures are connected through components such as a snap ring, a hinge shaft and the like, and the two structures are not fixed structures but can rotate relatively. The tool apron is a hole formed at the bottom of some barrel bodies, the tool apron is engaged or embedded in the hole, the cutter shaft is arranged in the tool apron,

the relation between the separation part and the flow guide part is selected from any one of ⑴, ⑵, ⑶ or ⑷:

⑴ the separating part is connected with the upper end or the lower end of the diversion component as a whole, fixedly connected or detachably connected, so the separating part and the diversion component rotate synchronously;

or

⑵ the separating part is arranged on the outer side wall of the flow guide part and rotates synchronously with the flow guide part;

or

⑶ the separating part and the flow guiding component are separately arranged, the separating part is rotationally connected with the top of the barrel, the inner side wall of the barrel, the bottom of the barrel, the sealing mechanism at the upper end of the barrel or the cutter seat arranged at the bottom of the barrel, the upper end surface or the bottom surface of the separating part is only opposite to the flow guiding component, and the separating part freely rotates;

or

⑷ the separating part and the diversion part are separately arranged, the separating part and the cutter or the cutter shaft are integrally connected, fixedly connected or detachably connected, and the separating part and the cutter rotate synchronously.

The concrete positions of the flow guide openings are as follows: when the separation part is positioned above the flow guide part, at the upper end of the outer side wall of the flow guide part, on one side of the flow guide part and the like, the flow guide port can be arranged on the bottom surface and the side wall of the flow guide part; when the separation part is positioned below the flow guide part and at the lower end of the outer side wall of the flow guide part, the flow guide port can be arranged on the top surface and the side wall of the flow guide part.

A baffle 16 is arranged at the diversion opening, and the structure of the baffle is selected from any one of ⑴, ⑵ or (3):

⑴ As shown in fig. 7, the baffle plate is tilted towards the inner side or outer side of the diversion component and extends towards the diversion port, the baffle plate can block the feed liquid from entering the diversion component when the diversion component rotates counterclockwise (positive rotation) in fig. 7, the baffle plate can guide the feed liquid to enter the diversion component when the diversion component rotates clockwise (negative rotation) in fig. 7, although the diversion component also rotates counterclockwise (positive rotation) in fig. 7, a part of the feed liquid enters the diversion component, but only a small part of the feed liquid does not affect the collection effect of the whole slag.

When the diversion component is kept static, the separation blade can prevent the foodstuff liquid from entering the diversion component when the cutter drives the foodstuff liquid to rotate in one direction, and the separation blade guides the foodstuff liquid to enter the diversion component when the cutter drives the foodstuff liquid to rotate in the opposite direction.

The flap may be provided on the inside or outside, more preferably on the outside, mainly because of the better blocking and guiding effect. Fig. 8 shows a special baffle structure, where one end 18 of the flow guide opening is located at the outer side, and the other end 17 of the flow guide opening is located at the inner side, so as to form an effect that one end is the baffle.

Or

⑵ baffle sheet is tilted towards the inner side or outer side of the diversion component and extends towards the opposite direction of the diversion port, the baffle sheet blocks the food liquid from entering the diversion component when the cutter rotates forwards, the baffle sheet does not block the food liquid when the cutter rotates backwards, but does not play a role in guiding, and the food liquid (driven by other pump mechanisms, for example) enters the diversion component;

or

(3) As shown in fig. 9, the flap 16 is movably disposed, and the flap itself may be made of a rigid material, an elastic material, or a flexible material. When the material is rigid, the baffle plate is hinged on the outer side wall of the flow guide part, such as: thin steel sheets, etc. When the baffle plate is made of elastic materials or flexible materials, the baffle plate can be embedded on the outer side wall of the flow guide part, for example, materials such as an elastic or flexible silica gel sheet and a rubber sheet. Whether rigid, elastic or flexible, must satisfy the following conditions: this separation blade covers the water conservancy diversion mouth and blocks in the food material liquid gets into the water conservancy diversion part when the water conservancy diversion part rotates to a direction, and this separation blade can open so that food material liquid gets into in the water conservancy diversion part when the water conservancy diversion part rotates to opposite direction. Preferably, the flap is openable to direct foodstuff liquid into the flow directing member when the flow directing member is rotated in the opposite direction.

When the diversion component is kept still, the separation blade covers the diversion opening and blocks the food liquid from entering the diversion component when the cutter drives the food liquid to rotate in one direction, and the separation blade can be opened when the cutter drives the food liquid to rotate in the opposite direction so that the food liquid enters the diversion component.

Correction 21.03.2018 according to rule 91 furthermore, the liquid foodstuff may be carried from the flow guide opening into the flow guide member by a pump-like mechanism selected from at least one of ⑴, ⑵ or (3):

⑴ the pump mechanism is a baffle plate arranged at the diversion opening, when the knife tool rotates reversely, the baffle plate which keeps upwarping or the rigid (or elastic) movable baffle plate has the function of driving foodstuff liquid to enter the diversion part from the diversion opening, and the baffle plate plays the role of a similar pump at the moment, so the pump mechanism is called;

⑵ the pump mechanism can also be a pump mechanism, which is called a pump mechanism, because the pump mechanism can drive the food liquid into the diversion component when the protrusion, the blade or the impeller are mutually matched, no matter which structure or structures are mutually matched, the food liquid can be driven to enter the diversion component when the protrusion, the blade or the impeller are driven to rotate, and the pump mechanism is similar to a pump.

(3) The pump mechanism may also be: the flow guide part or the separation part is internally provided with a flow guide part which is fixedly or detachably connected with the cutter shaft or the cutter: any one or any plurality of at least one axial flow blade, at least one centrifugal blade, at least one mixed flow blade, at least one helical blade, at least one axial flow impeller, at least one centrifugal impeller, at least one mixed flow impeller or at least one helical impeller. No matter which structure or a plurality of structures in the axial flow blade, the centrifugal blade or the helical blade and the like are matched with each other, when the axial flow blade, the centrifugal blade or the helical blade and the like are driven to rotate by the cutter shaft, the food liquid can be driven to enter the flow guide part, the effect similar to a pump is achieved, and therefore the pump mechanism is called as a pump mechanism.

The cutter and the three kinds of pump mechanisms can be matched independently or together to realize the function of the feed liquid entering the flow guide port and the flow guide part.

The shape of the liquid outlet hole can be random, the liquid outlet hole can have a filtering function, and the liquid outlet hole is required to be small (for example, the diameter is 0.01-0.5 mm). But in order to be convenient for change, clean, can set up individual layer or multilayer filter screen inside, outside the separation portion of liquid outlet department, the filtration pore of filter screen can be 0.01 ~ 0.5 mm's diameter, and at this moment, liquid outlet can be great hole, for example 10 x 20 mm's rectangular hole.

In order to avoid that the cutter crushes foodstuff, and partial large granular slag enters the inside of the flow guide part, a filter screen can be arranged at the position of the flow guide port, and the filter holes (for example, the diameter is 1mm) of the filter screen at the position of the flow guide port are larger than the filter holes (for example, the diameter is 0.1mm) of the filter screen.

The relation between the machine body and the barrel body is selected from any one of ⑴ or ⑵:

⑴ the motor is arranged in the machine body below or at the side of the barrel body, the motor drives the cutter to rotate directly or through a transmission mechanism, and the sealing mechanism arranged at the upper end of the barrel body is an upper cover;

or

⑵ the motor is arranged in the machine body above the barrel body, the motor directly or through the transmission mechanism drives the cutter to rotate, and the sealing mechanism arranged at the upper end of the barrel body is the lower end of the machine body.

Because the top, below or the lateral wall of water conservancy diversion part all can set up the separation part, so the position relation of water conservancy diversion part, separation part and cutter is:

1. when the separation part is arranged above the flow guide part, a cutter is arranged above the separation part, in the flow guide part or below the flow guide part;

2. when the outer side wall of the flow guide part is provided with the separation part, a cutter is arranged above, in or below the flow guide part;

3. when the separation part is arranged below the flow guide part, a cutter is arranged above the flow guide part, in the separation part or below the separation part.

In the positional relationship among the guide member, the separating portion, and the cutter: the "upper" and "lower" in the separation portion top, separation portion below, guiding component top, guiding component below are respectively:

such as: the upper part of the flow guide part can be a position slightly higher than the upper end of the flow guide part, and at the moment, the position of the cutter is higher than the upper end of the flow guide part and a certain gap is formed between the cutter and the flow guide part; the upper end of the flow guide part can be directly connected with the lower end of the cutter above the flow guide part.

Similarly, the lower part of the flow guide component can also mean that the lower ends of the cutter and the flow guide component have a certain gap or the upper end of the cutter is directly connected with the lower end of the flow guide component. The same applies to the upper side of the separation section and the lower side of the separation section.

The flow guide part is arranged in the barrel body, and the inside of the flow guide part is of a hollow structure to form a flow passage. The cylindrical structure can be provided according to actual conditions, and the cross section of the cylindrical structure can be in any shape such as a circle, an ellipse, a polygon and the like. As long as it is sufficient in practical application to be able to feed the foodstuff liquid to the separating portion under the action of the knives and/or the pump-like mechanism. The flow guiding component may also be an integral structure with the separating portion, or even the same component in some embodiments, in which case the flow guiding component and the separating portion are combined into one (such as the structures in embodiment 1 and fig. 1).

The separation part is arranged in the barrel, and the inside of the separation part is of a hollow structure and is provided with a liquid outlet hole. According to the actual situation, the separation part can be arranged to be a cylindrical structure, the cross section of the cylindrical structure can be in any shape such as a circle, an ellipse and a polygon, and the liquid outlet hole is formed in the side wall, the top or the bottom of the cylindrical structure. When the separation part rotates, foodstuff liquid in the separation part is thrown out through the liquid outlet hole under the action of centrifugal force, and material slag cannot pass through the liquid outlet hole, so that the material slag is collected or retained in the separation part.

The cross section of the separation part and/or the cross section of the flow guide part are both closed curve shapes, or the cross sections of the separation part and the flow guide part are both closed curves. The specific shape of the closed curve can be circular, oval, polygonal or irregular, and the like, and can be cylindrical, inverted frustum-shaped, elliptic cylinder, truncated cone-shaped or prismatic, and the like, when viewed from the vertical direction.

The invention is characterized in that: foodstuff liquid in the barrel body enters the diversion component from the diversion port under the drive of the cutter and/or the drive of the similar pump mechanism, and enters the separation part through the diversion component, liquid in the foodstuff liquid is discharged out of the liquid outlet hole, at least one part of dregs in the foodstuff liquid is collected in the separation part, wherein the 'foodstuff liquid enters the diversion component from the diversion port under the drive of the cutter and/or the drive of the similar pump mechanism' means that: because the guide part is of a hollow structure and is provided with the guide opening, when foodstuff liquid is in the barrel body, a part of the foodstuff liquid is in the hollow structure of the part of the guide part below the liquid level of the foodstuff liquid. The above conditions include that the food liquid is in a static state, or the food liquid is driven by the cutter and/or the pump mechanism to rotate in the barrel body, and some food liquid may be in the hollow structure of the flow guide part under each condition. However, the term "the food liquid … … enters the flow guide member" means that the food liquid is driven by the knife and/or the pump-like mechanism to flow into the flow guide member and then enter the separation part through the flow guide member, and the food liquid is not guided to the original food liquid below the liquid level of the food liquid in the flow guide member, but is conveyed by the knife and/or the pump-like mechanism, so that the object of "the liquid in the food liquid is discharged from the liquid outlet to the outside of the separation part, and at least a part of the dregs in the food liquid are collected in the separation part" is achieved.

That is, the food liquid flows from the flow guide port into the flow guide part under the driving of the cutter and/or the driving of the similar pump mechanism, and further flows into the separation part through the flow guide part, so that the aim of filtering and separating the material slag in the food liquid through the liquid outlet hole is fulfilled.

For convenience of description of the text and the drawings in the following, the rotational direction of the tool is assumed to be: the baffle shown in fig. 7, 8 and 9 rotates anticlockwise to be positive rotation of the cutter, the cutter is used for crushing foodstuff, and the baffle in the figure is used for preventing foodstuff liquid from entering the diversion port; clockwise rotation is the reversal of cutter, and the separation blade in the figure makes foodstuff liquid get into the water conservancy diversion mouth to finally get into the separation portion and realize material sediment, liquid separation. It should be noted that when the direction of the blade in the figure is changed, the assumption of the forward rotation and the reverse rotation of the cutter is also changed.

The forward rotation of the cutter is to crush the foodstuff, and the process is prior art and is not described in detail. When the cutter rotates reversely, the food liquid is driven to rotate to enter the flow guide component from the flow guide opening, and finally, the material slag and the liquid are separated in the separation part. It is worth mentioning that the foodstuff crushing effect can be achieved when the cutter is reversed.

All the terms "forward rotation" and "reverse rotation" in the present invention are relative terms. For example, "motor forward rotation", "motor reverse rotation", "cutter forward rotation", "cutter reverse rotation", "separation portion forward rotation", "separation portion reverse rotation", "diversion component forward rotation", "diversion component reverse rotation", "unidirectional feeding device forward rotation", "unidirectional feeding device reverse rotation", and the like are definitions for the convenience of "clearly describing the rotation direction of the corresponding component". The forward and reverse rotations are merely references to the direction of rotation and the operating conditions of the corresponding components of the food processor of the present invention. Either one of the clockwise or counterclockwise rotation directions may be defined as "forward rotation" according to actual needs or structural features of the embodiment, and the opposite direction to the "forward rotation" is "reverse rotation".

However, in the same food processor, the definitions of the forward and reverse directions of all the rotating parts must be consistent. For example, when the counterclockwise rotation direction of the cutter shaft is defined as the forward rotation, the counterclockwise rotation direction of other rotating members such as the stopper, the separating portion, and the like is also defined as the forward rotation. On the contrary, when the clockwise rotation direction of the cutter shaft is defined as the forward rotation, the clockwise rotation direction of other rotating components such as the blocking piece, the separating part and the like is also the forward rotation.

However, in different embodiments of the present invention, the definition of forward rotation or reverse rotation may be different.

The food liquid is blockked outside the separation portion, and the food liquid is blockked outside the separation portion by cutter and/or class pump mechanism etc. means that the food liquid in the barrel can't enter into the separation portion in the water conservancy diversion part, and it includes the multiple condition:

one is that the diversion port is covered by a movable baffle sheet at the diversion port in the food processing process, and at the moment, the food liquid can not enter the diversion part from the diversion port and then enter the separation part, namely, the food liquid is blocked outside the separation part;

the other type is that the diversion port is not covered by the movable baffle plate, but when a cutter, a fixed baffle plate with a guiding function or other types of pump mechanisms except the baffle plate rotate in foodstuff liquid in the barrel body, the pressure from the inside of the separation part to the inside of the diversion part is generated on the foodstuff liquid, so that the foodstuff liquid cannot enter the separation part from the inside of the diversion part, and the instant feed liquid is blocked outside the separation part.

For example, the cutter is in the shape of an axial flow blade, and the cutter is positioned in the flow guide component, when the cutter in the shape of the axial flow blade rotates, axial pressure is generated on the foodstuff liquid, and the direction of the pressure changes along the axial direction along with the rotation direction of the cutter: one pressure direction is from the inside of the flow guiding part to the inside of the separation part due to the conduction action of the liquid pressure; the other pressure direction is from the inside of the separation part to the inside of the flow guide part. When the pressure direction of the food liquid is from the flow guide part to the separation part, the food liquid can enter the separation part from the flow guide part; when the pressure direction of the foodstuff liquid is from the inside of the separation part to the inside of the diversion part, the foodstuff liquid can not enter the separation part from the inside of the diversion part, and the instant foodstuff liquid is blocked outside the separation part.

For another example, the fixed baffle with guiding function (such as shown in fig. 7 and 8) can generate two pressures in different directions on the foodstuff liquid in the barrel body when following the rotation of the cutter shaft: one pressure direction is from the flow guide part to the separation part due to the conduction of the liquid pressure (when clockwise rotation is carried out in fig. 7 and 8, namely reverse rotation is carried out); the other pressure direction is from the inside of the separation part to the inside of the flow guide part (when the separation part rotates anticlockwise in figures 7 and 8, namely rotates forwards). When the pressure direction of the foodstuff liquid is from the inside of the separation part to the inside of the diversion part, the foodstuff liquid can not enter the separation part from the inside of the diversion part, and the instant foodstuff liquid is blocked outside the separation part.

For another example, other forms of pump mechanisms, such as axial flow blades, axial flow impellers and the like arranged in the guide component, can also generate the effect similar to an axial flow pump when rotating along with the cutter shaft, namely, generate two pressures in different directions on foodstuff liquid in the barrel: one pressure direction is from the inside of the flow guiding part to the inside of the separation part due to the conduction action of the liquid pressure; the other pressure direction is from the inside of the separation part to the inside of the flow guide part. When the pressure direction that this kind of pump mechanism that foodstuff liquid received rotated the production is by in the separation part to the water conservancy diversion part, in the foodstuff liquid just can't enter into the separation part by in the water conservancy diversion part, instant feed liquid was blockked outside the separation part.

The food processor of the present invention can be divided into a plurality of cases by comprehensively considering the connection relationship between the diversion member and the separation part, the relationship between the diversion member or the separation part and the cutter or the cutter shaft, the setting condition of the baffle at the diversion opening, and the working condition of the cutter and/or the like pump mechanism, wherein the structural features different from those of other cases are emphasized in each case, the same contents are only briefly described or omitted, and the same parts in each case, such as the motor setting condition, the cutter setting position, and the like, can be referred to the same details.

The flow guide part is fixed with the separation part, the flow guide part rotates along with a cutter or a cutter shaft, a baffle is not arranged at the position of a flow guide opening of the flow guide part, and foodstuff liquid is blocked or driven to enter the separation part by the cutter and/or a pump mechanism according to the specified rotation direction of the cutter:

the food processor with the material slag collecting function comprises a motor, a cutter shaft, a cutter, a barrel body and a machine body, wherein the motor is arranged in the machine body, the motor drives the cutter positioned in the barrel body through the cutter shaft, foodstuff in the barrel body is processed to form foodstuff liquid with material slag when the cutter rotates, a flow guide part and a separating part are arranged in the barrel body, and the flow guide part and the separating part are of an integral connecting structure, a fixed connecting structure or a detachable connecting structure, so that the flow guide part and the separating part can keep synchronous motion. The integrated connecting structure, namely the flow guide part and the separating part, are of the same structure, the fixed connecting structure, namely the flow guide part and the separating part, are connected in an inseparable connecting mode such as welding or riveting, and the detachable connecting structure, namely the flow guide part and the separating part, are connected in a separable mode such as threaded connection;

the flow guide part is of a hollow structure and is provided with a flow guide port, the separation part is of a hollow structure and is provided with a liquid outlet hole, the hollow structure of the flow guide part is communicated with the hollow structure of the separation part, and the feed liquid can flow in the flow guide part and the separation part in the corresponding hollow structures;

when the cutter rotates towards any one of the forward rotation direction or the reverse rotation direction, the flow guide component rotates synchronously, asynchronously, reversely or freely along with the rotation of the cutter, namely the flow guide component can rotate along with the rotation of the cutter, and the specific rotation mode of the flow guide component is related to the setting mode of the flow guide component; the synchronous rotation means that the flow guide component and the cutter rotate simultaneously and keep the same speed, and the flow guide component and the cutter are fixedly connected or detachably connected with each other during synchronous rotation; the asynchronous rotation means that the guide component and the cutter shaft rotate simultaneously, the speeds of the guide component and the cutter shaft are different and keep a fixed corresponding relation, and a transmission mechanism such as a speed reducer needs to be arranged between the guide component and the cutter shaft so as to change the rotating speed of the guide component rotating along with the cutter; the reverse rotation means that the diversion component and the cutter rotate simultaneously but the rotation directions of the diversion component and the cutter are opposite, and a transmission mechanism, such as a bevel gear set, is arranged between the diversion component and the cutter shaft and can reverse the operation direction; the free rotation means that the cutter shaft rotates firstly, then the foodstuff liquid in the barrel body is driven to rotate, then the foodstuff liquid drives the flow guide component to rotate, the relationship between the rotation of the flow guide component and the rotation speed of the cutter shaft is not fixed, and the flow guide component can be rotatably connected with the cutter at the moment; the rotary connection means that two structures are connected through a snap ring, a hinge shaft or other transmission devices, and the two structures are not fixed structures but can rotate relatively.

The food processor is characterized in that the barrel body of the food processor also comprises a similar pump mechanism, and the similar pump mechanism is a general name of a mechanism or a structure which can generate a vane pump (such as an axial flow pump, a centrifugal pump, a mixed flow pump or a spiral pump) action or a similar vane pump action on food liquid in the barrel body when the food processor operates. Specifically, for example, the axial flow blade (which can generate the action of an axial flow pump when rotating) arranged on the inner side wall of the flow guide component, or the helical blade which is arranged in the flow guide component and is fixed or detachably connected with the cutter shaft or the cutter can push the food liquid to flow when rotating along with the flow guide component, so that the action similar to the pump is generated.

When the cutter rotates forwards, the foodstuff liquid in the barrel is blocked outside the separation part by the cutter and/or the pump mechanism; when the cutter reverses, foodstuff liquid in the barrel enters the flow guide part of the hollow structure from the flow guide port under the driving of the cutter and/or the similar pump mechanism and enters the separation part of the hollow structure through the flow channel in the flow guide part and the outflow port at the tail end of the flow channel, liquid in the foodstuff liquid is discharged out of the separation part from the liquid outlet hole, and at least part of material slag in the foodstuff liquid is collected in the separation part so as to separate the material slag in the foodstuff liquid.

The condition that the foodstuff liquid in the barrel body is driven by the cutter and/or the pump mechanism is divided into three conditions that the foodstuff liquid is driven by the cutter, the foodstuff liquid is driven by the pump mechanism and the foodstuff liquid is driven by the cutter and/or the pump mechanism.

Under the condition that the baffle plate is not arranged at the diversion opening, the cutter or other pump mechanisms (except the baffle plate) are relied on to drive the foodstuff liquid to enter the separation part or stop the foodstuff liquid outside the separation part, and the cutter or the pump mechanisms are required to have bidirectional conveying capacity. The cutter can be designed into the shapes of an axial flow blade or an axial flow impeller and the like, pressure is generated on liquid while foodstuff is crushed, and when the rotating direction is changed, the pressure applied on the liquid is also changed, even if the flowing direction of the liquid is changed; the pump mechanism is also designed to be in the shape of an axial flow blade or an axial flow impeller, and the like, and generates pressure on the liquid when rotating. The situation that the feed liquid is driven by the cutter and the pump mechanism is the superposition of the two situations.

The side wall, the bottom surface or the top surface of the flow guide component are provided with the flow guide opening, the flow guide opening is required to be positioned below the liquid level of the food liquid in the use or working process of the food processor, or at least a part of the flow guide opening is positioned below the liquid level, the food liquid in the barrel body can enter the flow guide component through the flow guide opening when the cutter rotates reversely, and the installation mode of the flow guide component is selected from any one of the following (1), (2), (3), (4) or (5):

or

(4) The bottom in the barrel body is provided with a cutter holder for mounting a cutter, the flow guide part is in a rotary connection structure with the top in the barrel body, the inner side wall of the barrel body, the bottom in the barrel body or the cutter holder in the barrel body, and when the cutter shaft rotates, the flow guide part freely rotates relative to the cutter shaft, synchronously rotates with the cutter shaft, asynchronously rotates with the cutter shaft or reversely rotates with the cutter shaft.

Or

In this case, the guide component can be driven by the cutter shaft; the sealing mechanism is a component for sealing the barrel body into a sealing space, and the sealing mechanism can be different parts according to food processors with different structures: the motor is arranged in the machine body below or on the side of the barrel body, the motor directly or through a transmission mechanism drives the cutter tool to rotate, and the upper cover arranged at the upper end of the barrel body forms a sealing mechanism at the top of the barrel body; or the motor is arranged in the machine body above the barrel body, the motor directly or through a transmission mechanism drives the cutter to rotate, and the lower end of the machine body forms a sealing mechanism at the top of the barrel body.

The side wall in the existing food processor barrel is generally provided with a water level on-line and a water level off-line which are calibrated by a manufacturing enterprise, and the water level on-line and the water level off-line are the optimal values set by the manufacturing enterprise according to the technical parameters of the food processor barrel. When the foodstuff liquid is processed on line above the water level, the foodstuff liquid is easy to overflow; when the food liquid is processed below the water level and the lower line, the optimal processing effect is difficult to achieve (for example, when the food liquid in the barrel body is too little, the food liquid is easily crushed unevenly or insufficiently by the cutter). Therefore, the upper line or the lower line of the water level can be used as the reference liquid level for setting the position of the diversion port. For example, for a particular food processor, the diverter port may be positioned below the "water level off" so that the diverter port is below the level of the feed liquid even when the user is making "the minimum amount of feed liquid the machine is allowed to make". In addition, any height position below the water level in the barrel body can be set as the position of the diversion port, but at the moment, a user is required to enable the liquid level of foodstuff in the barrel body to be higher than the diversion port when the foodstuff liquid is prepared. Or when the food liquid is driven by the cutter and/or the pump mechanism to rotate in the barrel body, at least one part of the flow guide opening is positioned below the liquid level of the food liquid in a rotating state. So as to ensure that the feed liquid can be driven by the cutter and/or the like pump mechanism to enter the guide part with the hollow structure from the guide port. The level of the feed liquid in this case should be considered not only the level of the feed liquid when the food processor is not operating (i.e., static level), but also the level of the feed liquid in the tub in a moving state when the food processor is operating (i.e., dynamic level).

The fact that the liquid level of the food liquid is higher than at least one part of the diversion port on the diversion component means that at least one part of the diversion port is positioned below the dynamic liquid level when the food processor runs. So as to ensure that the feed liquid can enter the flow guide component from the flow guide port.

Of course, as a preferred embodiment, the diversion port of the diversion part should be located as close to the bottom of the barrel as possible (for example, at a height of 20mm from the bottom of the barrel, or at a height of 10 mm, etc.), so that the user can use the present invention to collect and separate the material slag even when making a small amount of material liquid.

The relation between the separation part and the flow guide member is selected from any one of (1), (2) or (3):

(1) the separation parts are arranged at the upper end, the lower end, the middle or the two ends of the flow guide part, the separation parts and the flow guide part synchronously rotate, the separation parts can be connected and arranged at the upper end, the lower end and the middle of the flow guide part, and when the separation parts are multiple, the separation parts can also be respectively arranged at the two ends of the flow guide part;

(2) the separation part sets up the lateral wall at the water conservancy diversion part, and the separation part rotates with the water conservancy diversion part is synchronous, and the water conservancy diversion part lateral wall indicates that the separation part sets up on the lateral wall between water conservancy diversion part upper end to the lower extreme, for example: the separation part is that integrative arch, separation part on the water conservancy diversion part lateral wall are the partly of water conservancy diversion part lateral wall, separation part for the ring structure etc. of water conservancy diversion part lateral wall suit, for example again: the flow guide part is a flat cylinder, liquid outlet holes are formed in the outer side wall of one side of the flat cylinder from top to bottom, at the moment, one part of the outer side wall of the flat cylinder becomes a separation part, and a flow guide opening can be formed in the flow guide part without the liquid outlet holes, namely, the separation part is formed as long as the part with the liquid outlet holes is arranged on the outer side wall of the flow guide part;

(3) the separating part is arranged on the inner side wall of the flow guide component, the separating part and the flow guide component rotate synchronously, the separating part is arranged on the inner side wall of the flow guide component, namely the separating part is arranged on the inner side wall between the upper end and the lower end of the flow guide component, for example, the separating part is an integral convex structure on the inner side wall of the flow guide component, and the separating part is arranged on the inner side wall of the flow guide component, can realize the functions of the invention but is not a better implementation structure.

The separation part is positioned at the upper end of the flow guide part, and the top end of the flow guide part is inserted into the hollow structure of the separation part; the outflow port at the top end of the flow guide part is higher than the bottom part in the hollow structure of the separation part and lower than the top part in the hollow structure of the separation part, so that the foodstuff liquid flowing through the flow passage in the flow guide part enters the hollow structure of the separation part from the outflow port; the part of the flow guide component, which is positioned in the hollow structure of the separation part, forms a backflow shielding structure, and a containing groove for material slag is formed between the backflow shielding structure and the hollow structure of the separation part. The food processor collects and accumulates the material residue in the containing groove during use, and the material residue can not reversely flow back into the diversion component again from the separation part.

The side wall, the top surface or the bottom surface of the separation part are provided with liquid outlet holes, the liquid outlet holes are provided with filter screens, the separation part is internally provided with the filter screens or the liquid outlet holes form the filter screens, and the filter screens stop the material residues which flow through the food and liquid materials and have the particle sizes larger than the filter holes of the filter screens in the separation part. The liquid outlet hole is required to be smaller when the liquid outlet hole forms a filter screen, for example, the diameter is 0.01-0.5 mm, but for convenience of replacement and cleaning, a single-layer or multi-layer filter screen can be arranged inside and outside the separation part at the liquid outlet hole, the filter hole of the filter screen can be 0.01-0.5 mm in diameter, and at the moment, the liquid outlet hole can be a larger hole, for example, a 10 x 20mm rectangular hole.

The water conservancy diversion mouth department is equipped with the filter screen, and the filtration pore of the filter screen of water conservancy diversion mouth department is greater than the filtration pore of the filter screen of liquid outlet department, and the filter screen of water conservancy diversion mouth department will not fully kibbling foodstuff stop outside the water conservancy diversion part yet, prevents that this type of foodstuff from entering into the separation portion too early along with foodstuff liquid, influencing crushing effect.

In order to prevent the cutter from entering the flow guide part when the cutter crushes the foodstuff, a filter screen can be arranged at the flow guide opening, and the filter holes (for example, the diameter is 1mm) of the filter screen at the flow guide opening are larger than the filter holes (for example, the diameter is 0.1mm) of the filter screen at the liquid outlet.

Of course, a filter screen may be provided in the flow passage in the guide member, and too early entry of larger foodstuff into the separation portion may be avoided. However, the disadvantages of this structure are: after the insufficiently crushed larger particle foodstuff enters the flow guide port, the foodstuff is easy to block in the flow channel of the flow guide part, so that the foodstuff liquid can not enter the separation part.

In the case that the diversion opening is not provided with a baffle plate, the pump mechanism is selected from at least one of (1) or (2):

The above-mentioned pump mechanism is preferably an axial flow impeller or an axial flow impeller (the axial flow impeller generally has at least two or more axial flow blades, and is generally symmetrically distributed, but theoretically the axial flow impeller has at least one axial flow blade, and even if only one axial flow blade can also act as an axial flow pump when rotating, when being driven by the cutter shaft to rotate, the axial flow impeller can act as an axial flow pump to push the foodstuff liquid to flow along the direction of the rotating shaft, and if the rotating direction is changed, the flow direction of the foodstuff liquid pushed by the axial flow pump is opposite. At this time, if the flow direction of the foodstuff liquid pushed by the axial flow pump is 'flow guide opening → liquid outlet opening → inner part of the barrel body → flow guide opening' (strictly speaking, all the flowing of the foodstuff liquid is performed in the barrel body, and the flow direction is that the foodstuff liquid enters from the flow guide opening of the flow guide part, flows out from the liquid outlet opening, enters the barrel body again and enters the flow guide opening of the flow guide part again), the foodstuff liquid is driven to flow into the flow guide opening and further flows into the separation part, the liquid therein flows out from the liquid outlet opening again, at least a part of the material slag can not flow out from the liquid outlet opening (or a filter screen at the liquid outlet opening) and remains in the separation part, and the material slag collection function of the invention is realized.

The knife of the food processor can be arranged in different positions:

or

When the food processor realizes the material dreg spin-drying function, the separating part is required to be arranged above the liquid level of the food material liquid in the barrel body, so that the liquid in the material dreg is thrown out, and meanwhile, the cutter and/or the like pump mechanism applies pressure to the food material liquid in the direction from the separating part to the flow guide part, so that no new liquid is supplemented into the separating part.

When a user does not need to collect the material slag in the food liquid, the food processor can be used as a common food processor (without the material slag collecting function) only by detaching the flow guide part and/or the separating part (or only rotating the flow guide part and/or the separating part in one direction when food is crushed), so that the food processor with the material slag collecting function has two purposes, is greatly convenient for daily use of people, and improves the user experience.

The unidirectional feeding device is arranged on the flow guide part and the separation part, articles placed in the unidirectional feeding device can be thrown out only when the cutter rotates in the appointed direction, and various different functions can be realized through the unidirectional feeding device matched with the forward rotation and the reverse rotation of the motor.

The outer side wall, the upper end face or the lower end face of the separating part is provided with a one-way feeding device, and the one-way feeding device is provided with an article accommodating space and a feeding opening for accommodating articles; the included angle between the feeding opening direction of the unidirectional feeding device and the horizontal plane is more than or equal to 0 degree and less than 90 degrees, namely the feeding opening is lifted upwards, so that the articles can be accommodated and thrown out conveniently; the included angle between the feeding opening direction of the unidirectional feeding device and the tangent plane of the forward rotation direction of the rotating radius position of the unidirectional feeding device is-30 degrees to-30 degrees; when the unidirectional feeding device rotates along with the separating part, the articles are limited in the storage space; when the unidirectional feeding device rotates along with the separating part reversely, the articles in the storage space are thrown out from the feeding opening;

or

The deviation angle between the opening direction of the unidirectional feeding device and the tangent plane of the forward rotation direction of the position of the rotation radius is smaller, so that the object is limited in the object placing space under the action of centrifugal force when the cutter shaft rotates forwards, and the object is thrown out of the feeding opening under the action of inertia and centrifugal force when the cutter shaft rotates backwards, so that the movement is not limited any more.

The one-way feeding device rotates forwards or reversely, and the rotation direction of the one-way feeding device is defined as the forward rotation direction according to the actual requirement or the structural characteristics of the embodiment, and the direction opposite to the forward rotation direction is the reverse rotation direction. However, in the same food processor, the definitions of the forward and reverse directions of all the rotating parts must be consistent. For example, when the counterclockwise rotation direction of the knife shaft is defined as the forward rotation, the counterclockwise rotation direction of other rotating members such as the blocking piece, the separating part and the like is also defined as the forward rotation. That is, in the same food processor, the definitions of the rotating directions of the rotating parts have the same reference frame.

Secondly, the water conservancy diversion part is fixed with the separation part, and the water conservancy diversion part rotates along with cutter or arbor, and water conservancy diversion mouth department sets up the separation blade, blocks foodstuff liquid entering separation part by the separation blade at least to drive the condition that foodstuff liquid got into the separation part by cutter and/or class pump mechanism:

the food processor with the material slag collecting function comprises a motor, a cutter shaft, a cutter, a barrel body and a machine body, wherein the motor is arranged in the machine body, the motor drives the cutter positioned in the barrel body through the cutter shaft, foodstuff in the barrel body is processed to form foodstuff liquid with material slag when the cutter rotates, a flow guide part and a separating part are arranged in the barrel body, and the flow guide part and the separating part are of an integral connecting structure, a fixed connecting structure or a detachable connecting structure;

the food processor is characterized in that the barrel body of the food processor also comprises a similar pump mechanism, and the similar pump mechanism is a general name of a mechanism or a structure which can generate a vane pump (such as an axial flow pump, a centrifugal pump, a mixed flow pump or a spiral pump) action or a similar vane pump action on foodstuff liquid in the barrel body when the food processor operates. Specifically, for example, the baffle plate disposed at the diversion opening (the baffle plate may also be designed to be in a shape capable of guiding the flow of the food liquid when rotating, as shown in fig. 7, 8, 9, etc., so that the baffle plate can also generate a pump-like effect when rotating) or the axial flow blade disposed in the diversion member (the axial flow blade can generate an axial flow pump effect when rotating), etc., even the protrusion disposed on the inner side wall of the diversion member can push the food liquid to flow when rotating along with the diversion member, thereby generating a pump-like effect.

The arrangement mode of the flow guide component and the separation part in the barrel body is the same as that of the flow guide component and the separation part in the first case.

The lateral wall, the bottom surface or the top surface of the diversion component are provided with the diversion port, the diversion port of the diversion component can be arranged at a plurality of positions on the diversion component, a baffle is arranged on the diversion component at the diversion port, and the structure of the baffle is selected from any one of (1), (2) or (3):

or

(2) The baffle piece tilts towards the inner side or the outer side of the flow guide component and extends towards the direction opposite to the flow guide port, the baffle piece blocks the food liquid from entering the flow guide component when the cutter rotates forwards, the baffle piece does not block the food liquid any more when the cutter rotates backwards, but does not play a role in guiding, and the food liquid (for example, driven by other pump mechanisms) enters the flow guide component;

or

No matter what kind of structure is adopted, the foodstuff liquid can only enter the diversion component when the cutter rotates towards the designated direction.

A baffle plate is arranged on the flow guide component at the flow guide opening, and the baffle plate structure is selected from any one of the following (1), (2), (3) or (4):

(1) fixed the setting between separation blade and water conservancy diversion part, separation blade to water conservancy diversion part inboard or outside perk, the angle of its perk is greater than 0 for the tangent plane of separation blade perk position place water conservancy diversion part plane or separation blade perk position place water conservancy diversion part curved surface and is less than 90, and the separation blade of perk extends to the water conservancy diversion mouth direction, so-called to the water conservancy diversion mouth direction extension indicate: the tilting direction tends to block the diversion opening but not the diversion opening. In the tilting angle range of the baffle plate, the tilting directions of the baffle plate correspond to the reverse rotation directions of the cutter; when the baffle plate rotates reversely along with the cutter, the baffle plate plays a role in driving and conveying food liquid, and the food liquid is guided to enter the flow guide component; when the baffle plate rotates forwards along with the cutter, the food liquid is prevented from entering the flow guide part; as shown in fig. 7, the baffle piece tilts towards the outside of the diversion component and extends towards the diversion port, the baffle piece can block the feed liquid from entering the diversion component when the diversion component rotates anticlockwise in fig. 7, and the baffle piece can guide the feed liquid to enter the diversion component when the diversion component rotates clockwise in fig. 7; although a part of foodstuff liquid enters the diversion component when the diversion component rotates anticlockwise in the drawing 7, the foodstuff liquid only enters a small part of the diversion component and the collection effect of the whole material slag is not influenced; or as shown in fig. 8, the flow guiding component and the baffle plate may be in a "spiral-like shape", one end 18 of the flow guiding opening is located at the outer side, and the other end 17 of the flow guiding opening is located at the inner side, so that the effect of the baffle plate is formed. The specific structure of the flow guide part is as follows: one plate is integrally bent to form a spiral shape or a plurality of spiral shapes are formed by bending and splicing a plurality of plates, one end 18 and the other end 17 of the formed integral shape are respectively positioned at the outer side and the inner side, and a flow guide port is arranged between the two ends.

Or

(2) The baffle plate and the flow guide component are fixedly arranged, the baffle plate tilts towards the inner side or the outer side of the flow guide component, the tilting angle of the baffle plate is more than or equal to 90 degrees and less than 180 degrees relative to the plane of the flow guide component where the tilting position of the baffle plate is located or the tangent plane of the curved surface of the flow guide component where the tilting position of the baffle plate is located, and the tilted baffle plate extends towards the opposite direction or the vertical direction of the flow guide port; in the tilting angle range of the baffle plate, the tilting direction of the baffle plate corresponds to the positive rotation direction of the cutter or is vertical to the positive rotation direction of the cutter; when the baffle plate rotates forwards along with the cutter, the food liquid is prevented from entering the flow guide part; when the baffle plate rotates reversely along with the cutter, the baffle plate has no obvious or no guiding effect on the foodstuff liquid, but no longer blocks the foodstuff liquid, and the foodstuff liquid enters the flow guide part;

or

(3) The separation blade and the diversion part are movably arranged, and the separation blade selectively covers the diversion opening or is movably opened by tilting: the movable tilting opening angle is larger than 0 degree and smaller than 90 degrees relative to the plane of the flow guide component where the blocking piece tilting position is located or the section of the curved surface of the flow guide component where the blocking piece tilting position is located, and the movably tilting blocking piece extends towards the flow guide opening; in the angle range of the movable tilting opening of the blocking piece, the movable tilting direction of the blocking piece corresponds to the reverse rotation direction of the cutter; when the separation blade rotates reversely along with the cutter, the separation blade movably tilts and opens, and when the separation blade is made of rigid materials such as thin steel sheets, the separation blade plays a role in driving and conveying food liquid, and the separation blade guides the food liquid to enter the flow guide component; when the baffle plate rotates forwards along with the cutter, the baffle plate covers the flow guide opening and blocks the food liquid from entering the flow guide part; as shown in fig. 9, the flap 16 is movably disposed, and the flap itself may be made of a rigid material, an elastic material, or a flexible material. When the guide part rotates clockwise, the baffle plate is opened to expose the guide opening and guide foodstuff liquid;

or

(4) The separation blade and the diversion part are movably arranged, and the separation blade selectively covers the diversion opening or is movably opened by tilting: the angle of the movable tilting opening of the baffle plate is more than or equal to 90 degrees and less than 180 degrees relative to the plane of the flow guide component where the position of the baffle plate tilting is located or the tangent plane of the curved surface of the flow guide component where the position of the baffle plate tilting is located, and the movably tilting baffle plate extends towards the opposite direction or the vertical direction of the flow guide port; in the angle range of the movable tilting opening of the blocking sheet, the movable tilting direction of the blocking sheet corresponds to the positive rotation direction of the cutter or is vertical to the positive rotation direction of the cutter; when the separation blade rotates forwards along with the cutter, the separation blade covers the flow guide opening and prevents the food liquid from entering the flow guide part; when the separation blade is made of flexible materials or elastic materials and rotates reversely along with the cutter, the separation blade is movably tilted and opened, the separation blade has no obvious or no guiding effect on the food liquid, but does not cover the flow guide port, and the food liquid enters the flow guide part.

When the cutter rotates forwards, the baffle plate blocks the feed liquid from entering the flow guide component, or the baffle plate and the cutter and/or other pump mechanisms block the feed liquid from entering the flow guide component.

When the cutter rotates reversely, the cutter and/or the like pump mechanism drives the foodstuff liquid to enter the flow guide part and then enter the separation part, so that the structure which can be adopted by the like pump mechanism is more than the situation, and other mechanisms which can generate centrifugal action are also in an optional range besides the like pump mechanism which can be used as an axial flow pump. The pump mechanism is selected from at least one of (1), (2) or (3):

(1) the pump mechanism is a baffle plate which is arranged at the flow guide opening and used for guiding the food liquid to enter the flow guide part, and when the cutter rotates reversely, the baffle plate which keeps the tilting or the rigid (or elastic) movable baffle plate has the function of driving the guiding food liquid to enter the flow guide part from the flow guide opening;

Protruding, pit, fin, bead, fold, centrifugal blade, mixed flow blade and centrifugal impeller, the pressure that produces foodstuff liquid when rotating all is towards the centrifugal direction of dispersing, can play the effect of carrying foodstuff liquid to the separation portion through the water conservancy diversion part equally when rotating at a high speed.

When the axial-flow impeller is driven to rotate by the cutter shaft, the axial-flow impeller or the axial-flow impeller (the axial-flow impeller generally has at least two or more axial-flow blades, which are generally symmetrically distributed, but theoretically the axial-flow impeller has at least one axial-flow blade, and even if only one axial-flow blade can also play a role of an axial-flow pump when the axial-flow impeller rotates, the axial-flow impeller or the axial-flow impeller can play a role of an axial-flow pump to push the food liquid to flow along the direction of the rotating shaft (if the rotating direction is changed, the flowing direction of the food. At this time, if the flow direction of the foodstuff liquid pushed by the axial flow pump is "flow guide opening → liquid outlet opening → barrel → flow guide opening (strictly speaking, all the foodstuff liquid flows are in the barrel, the flow direction here refers to that the foodstuff liquid enters from the flow guide opening of the flow guide part, flows out from the liquid outlet opening, reenters into the barrel and reenters into the flow guide opening)", the foodstuff liquid flows into the flow guide opening (if the flow direction of the foodstuff liquid is "liquid outlet opening → barrel inside → flow guide opening → liquid outlet opening", the flow guide opening generates negative pressure suction force, the foodstuff liquid also flows into the flow guide opening), the foodstuff liquid further flows into the separation part, the liquid therein flows out through the liquid outlet opening, at least a part of the foodstuff slag can not flow out through the liquid outlet opening (or the filter screen at the liquid outlet opening) and remains in the separation part, thus realizing the foodstuff slag collection function of the invention "

When the centrifugal blade or the centrifugal impeller is driven by the rotating shaft (namely the cutter shaft at the moment), the centrifugal blade or the centrifugal impeller can generate the effect of a centrifugal pump to push the foodstuff liquid to rotate and further generate centrifugal force to enable the foodstuff liquid to move in the direction away from the axis (namely centrifugal movement). The conventional centrifugal pump operates by centrifugal force generated by liquid due to rotation of a centrifugal impeller. Centrifugal pumps generally comprise a centrifugal impeller and a casing, wherein the centrifugal impeller plays a role in pushing liquid (doing work on the liquid), and the casing regulates the flow direction of the liquid (i.e., the casing is not provided, and the centrifugal impeller can also do work on the liquid to generate pressure and flow). The centrifugal impeller is most commonly formed by a plurality of centrifugal blades, but theoretically, at least one blade can also work, and in fact, when the centrifugal impeller rotates along with a rotating shaft (namely a cutter shaft), liquid can be pushed to do circular motion by the aid of the blades (namely sheets, points, bulges, pits, folds, fins and ribs), and centrifugal force is generated when the liquid does the circular motion and moves towards the centrifugal direction. Functions like a centrifugal impeller or centrifugal vanes, i.e. functions like a centrifugal pump. At this time, if the flow direction of the foodstuff liquid pushed by the centrifugal pump is 'flow guide opening → liquid outlet opening → inner of the barrel body → flow guide opening', the foodstuff liquid flows into the flow guide opening (if the flow direction of the foodstuff liquid is 'liquid outlet opening → inner of the barrel body → flow guide opening → liquid outlet opening', the flow guide opening can generate negative pressure suction force, the foodstuff liquid can also flow into the flow guide opening), the foodstuff liquid further flows into the separation part, the liquid flows out through the liquid outlet opening, at least a part of the foodstuff slag can not flow out through the liquid outlet opening (or a filter screen at the liquid outlet opening) and is remained in the separation part, and the 'material slag collection function' of the invention is realized.

The mixed flow pump is a vane pump between the axial flow pump and the centrifugal pump. The shape of the mixed flow blade/mixed flow impeller is between that of the axial flow blade/axial flow impeller and that of the centrifugal blade/centrifugal impeller, and the mixed flow blade/mixed flow impeller can play a role of a mixed flow pump when rotating along with the cutter shaft, at the moment, if the flow direction of foodstuff liquid pushed by the mixed flow pump is ' flow guide opening → liquid outlet → barrel body → flow guide opening → liquid outlet, then the foodstuff liquid flows into the flow guide opening (if the flow direction of foodstuff liquid is ' liquid outlet → barrel body → flow guide opening → liquid outlet opening ', the flow guide opening can generate negative pressure suction force, and the foodstuff liquid can also flow into the flow guide opening), and further flows into the separation part, and the liquid in the separation part flows out through the liquid outlet, and at least part of the material slag can not flow out through the liquid outlet (or a filter screen at the liquid outlet) and is remained in the separation part, so that the material.

When other paddle blades, paddle impellers, helical blades, helical impellers, convex/concave shapes, vertical/helical fins, regular/irregular fold shapes and the like rotate along with the cutter shaft, liquid is pushed to do circular motion or axial flow motion or mixed flow motion, at the moment, if the flow direction of the pushed foodstuff liquid is towards the ' flow guide opening → the liquid outlet opening → the barrel body → the flow guide opening ' or the ' liquid outlet opening → the barrel body → the flow guide opening → the liquid outlet opening, the foodstuff liquid flows into the flow guide opening and further flows into the separation part, the liquid flows out through the liquid outlet opening, and at least part of the dregs can not flow out through the liquid outlet opening (or a filter screen at the liquid outlet opening) and are remained in the separation part, so that the ' dreg collection function ' of the invention is realized.

The motor and the cutter are arranged in the same positions as in the first case.

Thirdly, the flow guide component is fixed with the separation part, the flow guide component rotates along with the cutter or the cutter shaft, the flow guide opening is not provided with a baffle, and the cutter and/or the like pump mechanism drives the feed liquid to enter the separation part when the cutter and/or the like pump mechanism turns in different directions:

the food processor barrel body also comprises a pump-like mechanism;

The guide member and the separating portion are disposed in the same manner as in the first case.

When the cutter rotates in any direction, the cutter and/or the similar pump mechanism conveys the foodstuff liquid to the separation part through the flow guide part, and the cutter and the similar pump mechanism adopt a centrifugal structure similar to a centrifugal blade or a centrifugal impeller.

The pump mechanism is selected from at least one of (1) or (2):

The positions of the guide member, the separating portion, the motor, and the cutter are the same as those in the case one.

The diversion part is fixed with the separating part, the diversion part rotates along with the cutter or the cutter shaft, the diversion port is not provided with a separation blade, a pump mechanism is not arranged in the barrel, and foodstuff liquid is blocked or driven to enter the separating part according to the specified rotating direction of the cutter by the cutter:

Under the condition that the diversion port is not provided with the separation blade, the cutter is relied on to drive foodstuff liquid to enter the separation part or to block the foodstuff liquid outside the separation part, and the cutter itself is required to have bidirectional conveying capacity. The cutter can be designed into the shapes of an axial flow blade or an axial flow impeller and the like, can crush food and generate pressure on liquid, and when the rotating direction is changed, the pressure applied to the liquid is also changed even if the flowing direction of the liquid is changed.

Fifthly, the flow guide part is fixed with the separation part, the separation part is fixed with the cutter/cutter shaft, a baffle is not arranged at the position of the flow guide port, and foodstuff liquid is blocked or driven to enter the separation part by the cutter and/or a similar pump mechanism according to the specified rotation direction of the cutter:

the food processor with the material slag collecting function comprises a motor, a cutter shaft, a cutter, a barrel body and a machine body, wherein the motor is arranged in the machine body, the motor drives the cutter positioned in the barrel body through the cutter shaft, foodstuff in the barrel body is processed by the cutter when the cutter rotates to form foodstuff liquid with material slag, a flow guide part and a separating part are arranged in the barrel body, and the flow guide part and the separating part are of an integral connecting structure, a fixed connecting structure, a detachable connecting structure or a rotary connecting structure;

the food processor barrel body also comprises a pump-like mechanism;

The structure and arrangement of the pump-like mechanism can be referred to as case one.

Sixthly, the water conservancy diversion part is fixed with the separator, and the separator is fixed mutually with cutter/arbor, and water conservancy diversion mouth department sets up the separation blade, blocks foodstuff liquid entering separator by the separation blade at least to drive the condition that foodstuff liquid got into the separator by cutter and/or class pump mechanism:

food processor with function is collected to material sediment, including motor, arbor, cutter, staving and organism, the motor sets up in the organism, and the motor passes through the arbor drive and is located the cutter of staving, and the cutter is handled the foodstuff in the staving when rotating and is formed the foodstuff liquid that has the material sediment, its characterized in that: a flow guide part and a separation part are arranged in the barrel body, and the flow guide part and the separation part are of an integral connecting structure, a fixed connecting structure, a detachable connecting structure or a rotary connecting structure;

the food processor barrel body also comprises a pump-like mechanism;

The structure and arrangement of the pump mechanism can be referred to as the second case.

Seventh, the diversion part is fixed with the separation part, the separation part is fixed with the cutter/cutter shaft, the diversion mouth does not set up the separation blade, cutter and/or class pump mechanism all drive the situation that the feed liquid enters the separation part when different turn to:

the food processor barrel body also comprises a pump-like mechanism;

The structure and arrangement of the pump mechanism can be referred to as the third case.

Eighthly, the diversion part is fixed with the separation part, the separation part is fixed with the cutter/cutter shaft, the diversion port is not provided with a separation blade, the barrel is not internally provided with a pump mechanism, and the cutter blocks or drives foodstuff liquid to enter the separation part according to the specified rotation direction:

Ninthly, the diversion part and the separation part are arranged separately, the separation part is connected with the cutter shaft or the cutter, the diversion opening is not provided with a baffle, and foodstuff liquid is blocked or driven to enter the separation part by the cutter and/or the pump mechanism according to the rotation direction:

the food processor with the material slag collecting function comprises a motor, a cutter shaft, a cutter, a barrel body and a machine body, wherein the motor is arranged in the machine body, the motor drives the cutter positioned in the barrel body through the cutter shaft, foodstuff in the barrel body is processed to form foodstuff liquid with material slag when the cutter rotates, a flow guide part and a separating part are arranged in the barrel body, the flow guide part is of a hollow structure and is provided with a flow guide port, the separating part is of a hollow structure and is provided with a liquid outlet hole, the flow guide part and the separating part are arranged in a split mode, the flow guide part and the separating part are opposite, the upper end of the flow guide part is provided with an outflow port, the lower end of the separating part is provided with a liquid inlet, and the outflow;

the food processor barrel body also comprises a pump-like mechanism;

when the cutter rotates forwards, the foodstuff liquid in the barrel is blocked outside the separation part by the cutter and/or the pump mechanism; when the cutter shaft rotates reversely, food liquid in the barrel enters the flow guide part of the hollow structure from the flow guide port under the drive of the cutter and/or the drive of the similar pump mechanism, passes through the flow channel in the flow guide part, and then enters the separation part of the hollow structure through the outflow port and the liquid inlet, the liquid in the food liquid is discharged out of the separation part from the liquid outlet hole, and at least part of slag in the food liquid is collected in the separation part.

Ten, water conservancy diversion part and separation portion components of a whole that can function independently set up, and separation portion is connected with arbor or cutter, and water conservancy diversion mouth department sets up the separation blade, blocks foodstuff liquid entering separation portion by the separation blade at least to drive the condition that foodstuff liquid got into separation portion by cutter and/or class pump mechanism:

the food processor with the material slag collecting function comprises a motor, a cutter shaft, a cutter, a barrel body and a machine body, wherein the motor is arranged in the machine body, the motor drives the cutter positioned in the barrel body through the cutter shaft, foodstuff in the barrel body is processed to form foodstuff liquid with material slag when the cutter rotates, a flow guide part and a separating part are arranged in the barrel body, the flow guide part is of a hollow structure and is provided with a flow guide port, the separating part is of a hollow structure and is provided with a liquid outlet hole, the flow guide part and the separating part are arranged in a split mode, the flow guide part and the separating part are opposite, the upper end of the flow guide part is provided with an outflow port, the lower end of the separating part is provided with a liquid inlet, and the outflow port;

the food processor barrel body also comprises a pump-like mechanism;

Eleven, the diversion part and the separation part are arranged in a split manner, the separation part is connected with a cutter shaft or a cutter, a diversion opening is not provided with a baffle, and the cutter and/or the like pump mechanism drives the feed liquid to enter the separation part when turning differently:

the food processor barrel body also comprises a pump-like mechanism;

Twelve, water conservancy diversion part and separation part components of a whole that can function independently set up, and the separation part is connected with arbor or cutter, and the water conservancy diversion mouth does not set up the separation blade, does not set up the condition of class pump mechanism in the barrel, blocks or drives the condition that foodstuff liquid got into the separation part according to appointed direction of rotation by the cutter:

The present invention is further illustrated by the following examples, which are intended to be illustrative, not limiting and are not intended to limit the scope of the invention.

Example 1

In this embodiment, as shown in fig. 1, a machine body 11 is a base and is disposed at a lower end of a barrel body 1, an upper cover 14 is disposed at an upper end of the barrel body, a motor 10 is disposed in the machine body, a motor shaft 9 of the motor is disposed upward and is connected to a knife shaft in a knife holder, two layers of knives 7 are mounted on the knife shaft, a lower end portion of a flow guide member 4 is clamped at an upper end portion of the knife shaft, the flow guide member is integrally cylindrical, a plurality of liquid outlet holes 2 are formed in an outer edge of an upper end portion of the flow guide member, a separation portion 3 is formed at an outer edge of the upper end portion, a flow guide opening 6 is.

The diversion port is positioned below the liquid level of the foodstuff liquid, the separation part is positioned above the liquid level, the outside of the separation part at the liquid outlet hole is covered with a filter screen, and the inside of the diversion part at the diversion port is provided with the filter screen. The filtering holes (with the diameter of 0.5mm for example) of the filtering net are larger than the filtering holes (with the diameter of 0.1mm for example) of the filtering net.

The diversion component, the separation part and the cutter rotate synchronously.

The working process of the embodiment is as follows:

1. opening the upper cover, adding soybeans, and then adding a proper amount of clear water;

2. starting a crushing step, rotating the cutter forward at a high speed, colliding or shearing the crushed soybeans by the cutter, rotating the diversion component along with the cutter, and blocking the feed residues (namely particles generated after crushing the soybeans) and the soybean milk (mixture of the crushed soybeans and water) from entering the diversion port by the blocking piece 16 due to the blocking piece 16;

3. after the crushing is finished, starting a material residue collecting step, enabling a cutter to rotate reversely at a high speed to drive a food liquid (comprising mixture of material residues and soybean milk) to rotate, guiding the material residues and the soybean milk to enter a flow guide part through a flow guide opening due to the existence of a baffle piece 16, enabling the material residues and the soybean milk to further enter a separating part, enabling a part, most or all of the material residues to be remained in the separating part due to the limitation of a filter screen and a liquid outlet hole, and discharging the separated soybean milk out of the separating part from the liquid outlet hole (in the material residue collecting step, the cutter also has a certain effect of further crushing soybean particles when rotating reversely at a high speed, so that the larger residual soybean particles in the previous crushing step are further crushed into micro particles to pass through the filter holes of the filter screen, but the larger part of the micro particles cannot flow out of the separating part through the filter screen);

4. stopping the soybean milk machine (stopping the motor), opening the upper cover, pouring out the soybean milk, removing the flow guide component, cleaning, and preparing for next soybean milk making.

The guide component is of a hollow structure and is cylindrical as a whole (the outer part is cylindrical, the inner part is hollow, namely, in a circular tube shape, and the top inside the circular tube is of a closed structure). In the embodiment, the diversion component and the separation part are of an integral connection structure, so that the diversion component can be considered to be connected with the cutter shaft, and the separation part can be considered to be connected with the cutter shaft.

Example 2

This embodiment is different from embodiment 1 in that, as shown in fig. 2:

1. the lower end part of the flow guide part 4 is detachably connected to a support arranged on a cutter 7 (or connected to the upper end part of a cutter shaft 8) in a threaded or socket-and-spigot manner, the flow guide part 4 and the separation part 3 of the hollow structure are both independent cylinders (the shape is cylindrical, the inside is a hollow structure), the diameter of the separation part is slightly larger (so as to retain more material slag), an opening is formed in the bottom surface of the separation part, the opening is connected with the upper end part of the flow guide part through welding or threads, namely, the separation part is arranged above the flow guide part and above the foodstuff liquid level;

2. the baffle 16 arranged at the diversion port 6 is movably arranged, as the structure of fig. 9, is made of thin steel sheet material, one end of the baffle is hinged on the outer side wall of the diversion part beside the diversion port through a hinge shaft, and the other end of the baffle is movable and can be tilted;

3. a filter screen is arranged in the separation part at the liquid outlet hole 2.

The working process of the embodiment is as follows:

1. opening the upper cover, putting apples in the upper cover, and adding a proper amount of clear water;

2. starting a crushing step, rotating the cutter forward at a high speed, colliding or shearing the apple by the cutter, rotating the flow guide component along with the cutter, covering the flow guide opening with the thin steel sheet, and preventing the food liquid (mixture of apple dregs, water and apple juice) from entering the flow guide opening;

3. after the crushing is finished, the material residue collecting step is started, the cutter rotates reversely at a high speed, when the flow guide part rotates reversely along with the cutter, the thin steel sheet is opened and exposes out of the flow guide port, the guide food liquid enters the flow guide part through the flow guide port, the food liquid further enters the separation part, due to the limitation of the filter screen and the liquid outlet hole, part, most or all of the apple material residue is remained in the separation part, and the apple juice after the apple material residue is separated is discharged out of the separation part from the liquid outlet hole,

in the step, as the food liquid continuously enters the diversion part from the diversion port → the separation part → the liquid outlet hole to be discharged, the material residue in the separation part always contains a lot of apple juice (as the newly-entered apple juice is continuously poured on the material residue);

4. after the material slag collecting step is finished, stopping the machine (the motor stops rotating), then starting a material slag spin-drying step, enabling the cutter to rotate forward at a high speed again, enabling the flow guide part to rotate along with the cutter, and enabling the thin steel sheet to cover the flow guide opening again to prevent the food liquid from entering the flow guide opening; the foodstuff liquid contained in the material slag in the separation part is thrown out from the liquid outlet hole under the action of centrifugal force, so that the material slag in the separation part is dried;

5. stopping the machine (stopping the motor), opening the upper cover, pouring out the apple juice, removing the diversion part, cleaning, and preparing for next juice preparation.

In this embodiment, the movable baffle 16 can more effectively prevent the large-sized apple dregs which are not completely crushed from being sucked into the flow guide opening in the crushing step.

Meanwhile, the material residue in the separation part can be dried by the drying step, so that the waste of the food liquid is reduced (the apple juice in the barrel is drunk after the apple juice is made, and the apple juice contained in the material residue is wasted).

In this embodiment, the lower end of the hollow flow guide member 4 is detachably connected to the support of the cutter 7 (or to the upper end of the cutter shaft 8) and the flow guide member 4 and the hollow separation portion 3 are both independent cylinders (the shape is cylindrical, the inside is hollow)

In this embodiment, as shown in fig. 18, the separation part 3 is disposed at the upper end of the flow guide member 4, the top cover 41 is disposed at the upper part of the separation part, and the liquid outlet holes 2 are disposed on the side wall and the bottom surface of the separation part. And the upper end of the flow guide part is inserted into the hollow structure of the separation part from the opening at the bottom of the separation part, the outflow port 4A at the top end of the flow guide part is higher than the bottom of the hollow structure of the separation part and lower than the top of the hollow structure of the separation part, so that the part of the flow guide part protruding out of the separation part (namely the part of the flow guide part positioned in the hollow structure of the separation part) forms a backflow shielding structure 4B.

Example 3

This embodiment is different from embodiment 1 in that, as shown in fig. 3:

1. the guide component 4 with a hollow structure is connected with the upper end part of the cutter shaft 8 through threads, the guide component and the separation part 3 are integrally arranged, the integral appearance of the guide component and the separation part is in an inverted circular truncated cone shape, and the upper end (side wall) of the guide component is provided with a plurality of liquid outlet holes 2 (the separation part 3 with the hollow structure is formed); because the diversion component and the separation part are integrally arranged, the separation part and the cutter shaft can be mutually connected in the embodiment;

2. the baffle 16 arranged at the diversion opening is of the structure shown in fig. 9 and made of flexible silica gel material, and one end of the baffle is embedded on the outer side wall of the diversion part beside the diversion opening through a clamping groove (or fixed through a screw); the diversion port is positioned below the liquid level;

3. a fin 12 structure capable of realizing the function of a centrifugal pump blade is arranged on the inner side wall of the flow passage 5 of the flow guide part;

4. the liquid outlet hole has the function of a filter screen;

place multiple traditional chinese medicine medicinal material in the staving in this embodiment to the staving bottom is provided with electric heater unit, for example: resistive or electromagnetic heaters, and the like.

The working process of the embodiment is as follows:

1. opening the upper cover, putting traditional Chinese medicine materials (such as traditional Chinese medicines for treating cold: 10 g of mulberry leaf, 10 g of chrysanthemum and 5 g of liquorice), and then adding a proper amount of clear water;

2. starting the crushing step, rotating the cutter forward at a high speed, colliding or shearing the crushed traditional Chinese medicine by the cutter to enable the crushed traditional Chinese medicine to be in tiny particles (so as to enable active ingredients in the traditional Chinese medicine to be more fully dissolved in water), rotating the flow guide part along with the cutter, and enabling the movable baffle 16 to cover the flow guide port so that the traditional Chinese medicine material residues cannot enter the flow guide port;

3. after the grinding is finished, stopping the rotation of the motor, starting the electric heating device to perform the boiling step, boiling water and keeping for a certain time (for example, 15 minutes) to finish the traditional Chinese medicine boiling step, and stopping heating;

4. starting a material residue collecting step, wherein the cutter rotates reversely at a high speed, the baffle plate is opened and exposes the flow guide port when the flow guide component rotates reversely along with the cutter, the baffle plate is made of flexible silica gel, so under the action of the resistance of the traditional Chinese medicine liquid, the baffle plate is possibly in a reverse folding state and basically has no guiding function, but when the fin rotates along with the flow guide component, the traditional Chinese medicine liquid in the flow channel is pushed to do circular motion, the traditional Chinese medicine liquid doing the circular motion generates centrifugal force and moves upwards and outwards along the inner side wall of the inclined flow guide component to reach the liquid outlet hole 2, due to the limitation of the filter screen and the liquid outlet hole, part, most or all of the traditional Chinese medicine material residues are left in the separating part, and the traditional Chinese medicine liquid after the traditional Chinese medicine material residues are separated is discharged out of the separating part from;

5. stopping the machine (stopping the motor), opening the upper cover, pouring out the Chinese medicinal liquid, removing the diversion component, cleaning, and preparing for the next preparation.

In the traditional Chinese medicine decocting process in the embodiment, because the traditional Chinese medicine materials are firstly pulverized (for example, pulverized into particles with the size of a few tenths of millimeters) and then decocted, compared with the traditional decocting method, the traditional Chinese medicine materials are integrally decocted, and the active ingredients of the traditional Chinese medicine are more fully dissolved; after the decoction of the traditional Chinese medicine liquid is finished, the traditional Chinese medicine material residues are automatically collected, so that a user can drink the traditional Chinese medicine conveniently. The automation degree of the whole decocting process is high, and the effective components of the traditional Chinese medicine are dissolved more fully. Meanwhile, the traditional Chinese medicine is firstly crushed and then boiled, so that the boiling time can be relatively shortened.

For example, the liquid outlet holes are circular, and the diameter of the holes is 0.05 mm.

In this embodiment, the hollow flow guide member 4 is screwed to the upper end of the cutter shaft 8. A plurality of liquid outlet holes 2 are arranged at the upper end (side wall) of the flow guide part, and a separation part 3 with a hollow structure is formed at the position; because the diversion component and the separation part are integrally arranged, the separation part and the cutter shaft can be mutually connected in the embodiment.

In the boiling step, the cutter can also be intermittently or continuously started to rotate so as to play a role in stirring and avoid bottom pasting.

In this embodiment, the diversion opening of the diversion component may be provided with a filter screen instead of a baffle, and the filter holes of the filter screen at the diversion opening are larger than the filter holes of the filter screen at the liquid outlet. When the cutter rotates in any direction, the traditional Chinese medicine starts to be crushed to generate material residues, the traditional Chinese medicine liquid in the barrel body flows at the same time, the filter screen at the flow guide port blocks larger material residues to further crush the material residues in the barrel body, the traditional Chinese medicine liquid with smaller material residues in the barrel body is guided into the flow guide part through the filter screen at the flow guide port, the traditional Chinese medicine liquid in the flow channel of the flow guide part is driven by the fins to do circular motion to generate centrifugal force and moves upwards and outwards along the inner side wall of the inclined flow guide part to reach the liquid outlet 2, due to the limitation of the filter screen and the liquid outlet, part, most or all of the traditional Chinese medicine material residues are left in the separation part, and the traditional Chinese medicine liquid after the traditional Chinese medicine material residues are separated is discharged out of the separation part from the liquid outlet.

Besides, the steps of decocting the traditional Chinese medicine materials in the embodiment can also be as follows:

① adding materials by opening the upper cover and adding water and Chinese medicinal materials into the barrel;

② preprocessing, namely, starting the machine, preparing the traditional Chinese medicine liquid with the traditional Chinese medicine and water into 60-100 ℃ by crushing the cutter and heating the traditional Chinese medicine liquid by an electric heating device, keeping the temperature for 0-180 minutes after the set temperature is reached, rotating the cutter forward in the crushing process, covering the flow guide port by the movable blocking piece 16, and blocking the traditional Chinese medicine liquid outside the separation part;

③ stopping the motor;

④ collecting the residue, wherein the liquid level of the feed liquid is higher than at least a part of the diversion port on the diversion component, the motor drives the cutter to rotate reversely, the baffle 16 opens and exposes the diversion port, the fin pushes the traditional Chinese medicine liquid in the flow channel to do circular motion when rotating along with the diversion component, and then the traditional Chinese medicine liquid doing circular motion generates centrifugal force and moves upwards and outwards along the inner side wall of the diversion component in an inclined shape to reach the liquid outlet 2, because of the limitation of the filter screen and the liquid outlet, a part, most or all of the traditional Chinese medicine residue is left in the separation part, and the traditional Chinese medicine liquid after separating the traditional Chinese medicine residue is discharged out of the separation part from the liquid outlet;

⑤ stopping the motor;

⑥ spin-drying the residue, wherein the liquid level of the feed liquid is below the liquid outlet of the separation part, the motor drives the cutter to rotate forward again, the separation part rotates with the cutter, the baffle plate covers the flow guide opening again, and the Chinese medicinal liquid is blocked outside the separation part again;

⑦ the motor stops rotating.

Example 4

This embodiment is different from embodiment 1 in that, as shown in fig. 4:

1. the machine body 11 is arranged above the barrel body 1, and the machine body also realizes the function of an upper cover for sealing the upper end of the barrel body, namely the lower end of the machine body forms a sealing mechanism at the moment, an output shaft of the motor 10 is arranged downwards, a cutter 7 is arranged at the lower end part of the cutter shaft 8 extending into the barrel body, a flow guide part 4 is rotatably sleeved at the outer edge of the cutter shaft between the cutter and the lower end part of the machine body, and the flow guide part is rotatably connected with the cutter shaft at;

2. the baffle plate arranged at the flow guide opening is in the structure shown in fig. 8, and one end 18 and the other end 17 are respectively positioned at the outer side and the inner side; the diversion port part is positioned below the liquid level;

3. liquid outlet holes are formed in the middle and the upper end of the flow guide part of the hollow structure to form a separation part, and when the separation part is used, the separation part is positioned below the liquid level;

4. the inner wall of the separation part at the liquid outlet is attached with a filter screen.

When the cutter rotates, the diversion component rotates freely, namely the time for starting to rotate and the rotating speed are determined by the rotation of the food liquid.

In the embodiment, the carrot, the white radish and other radishes are placed in the barrel body, and the radish residues cannot enter the flow guide port when the cutter rotates forwards; when the cutter rotates reversely, the flow guide part also rotates reversely freely, the foodstuff liquid is guided to enter the flow guide part and finally enters the separation part, and other processes of crushing and collecting the material slag are the same as those of the embodiment 1.

Example 5

This embodiment is different from embodiment 1 in that, as shown in fig. 5:

1. the hollow flow guide part 4 is fixed on the inner side wall of the barrel body through a support 13, and a certain gap is reserved between the lower end of the hollow flow guide part and the cutter shaft. Liquid outlet holes are formed in the outer side wall and the top surface of the upper end of the flow guide part, and therefore a separation part with a hollow structure is formed. The bracket is in a frame-shaped or strip-shaped structure, the barrel bodies above and below the bracket are communicated, and the bracket enables the flow guide part and the separating part to keep static when the cutter rotates;

2. the flow guide opening is arranged at the bottom surface of the flow guide part, and the flow guide opening can be a small hole formed in the bottom surface or a hole formed after the whole bottom surface is removed;

3. the separation part is entirely positioned above the liquid level;

4. a filter screen is attached to the inner wall of the separation part at the liquid outlet;

5. the tool itself in this embodiment is in the shape of an axial flow blade/impeller. When the cutter rotates forwards, the foodstuff liquid (in the rotation range of the cutter) flows from top to bottom; when the cutter rotates reversely, the foodstuff liquid flows from bottom to top.

In this embodiment, oranges are placed in the barrel.

The working process of the embodiment is as follows:

1. opening the upper cover, adding oranges, and adding a proper amount of clear water;

2. and starting the crushing step, enabling the cutter to rotate forwards at a high speed, enabling the cutter to collide or shear and crush the oranges, and keeping the flow guide component static. When the cutter rotates forwards, the foodstuff liquid flows from top to bottom and cannot enter the flow guide port;

3. after the crushing is finished, starting a material residue collecting step, enabling the cutter to rotate reversely at a high speed to enable the food liquid to flow from bottom to top, guiding the food liquid to enter the flow guide part through the flow guide port and further enter the separation part, wherein due to the limitation of the filter screen and the liquid outlet hole, part, most or all of the orange material residues are left in the separation part, and the orange juice after the orange material residues are separated is discharged out of the separation part through the liquid outlet hole;

4. stopping the motor, opening the upper cover, pouring out the orange juice, detaching the guide component, and cleaning to prepare for next juice preparation.

In this embodiment, because the separation part is in quiescent condition, so the feed liquid that gets into in the separation part relies on natural gravity to discharge from going out the liquid hole, even after filtering for a long time, still contains a large amount of liquid in the material sediment, is 1 ~ 5 times of material sediment self "dry weight" usually, and the liquid in these material sediment is difficult to be separated with the material sediment, has all wasted in the middle of the reality. This is an inherent drawback of using gravity filtration. So that the present embodiment cannot achieve a good slag/liquid separation effect.

Example 6

This embodiment is different from embodiment 1 in that, as shown in fig. 6:

1. the hollow flow guide part 4 is fixed on the inner side wall of the barrel body through a support 13, and a certain gap is reserved between the lower end of the hollow flow guide part and the cutter shaft. The bracket is in a frame-shaped or strip-shaped structure, the barrel bodies above and below the bracket are communicated, and the bracket enables the flow guide part to keep static when the cutter rotates;

2. the flow guide port is arranged at the bottom surface of the flow guide part, the cutter shaft is connected with a connecting rod 15, the connecting rod penetrates into the flow guide part from the flow guide port and penetrates out of the upper end of the flow guide part, and the end part of the connecting rod, which is positioned outside the upper end of the flow guide part, penetrates into an independent separating part with a hollow structure and is fixedly or detachably connected with the separating part. When the cutter rotates, the cutter shaft drives the separating part to rotate through the connecting rod, namely the separating part and the cutter rotate synchronously (the separating part and the flow guide component are arranged in a split way); one or more groups of axial flow blades can be arranged on the outer edge (in the flow guide part) of the connecting rod, so that the lifting action of an axial flow pump generated by the reverse rotation of the cutter is further enhanced when the connecting rod rotates reversely, and foodstuff liquid quickly enters the separation part for separation;

3. the separation part is cylindrical (the shape is cylindrical, the inside is a hollow structure), the bottom surface of the separation part is provided with an opening, the upper end part of the flow guide part (a gap is reserved between the flow guide part and the separation part) is embedded into the opening at intervals, the outer side wall and/or the top surface of the separation part are/is provided with liquid outlet holes, and the separation part is completely positioned above the liquid level;

In this embodiment, watermelon is placed in the barrel.

The working process of the embodiment is as follows:

1. opening the upper cover, putting the watermelon cut into blocks, and adding a proper amount of clear water;

2. starting the crushing step, enabling the cutter to rotate forwards at a high speed, enabling the cutter to collide or shear and crush the watermelon, and enabling the flow guide component to keep static. When the cutter rotates forwards, the foodstuff liquid flows from top to bottom (generates pressure on the foodstuff liquid from top to bottom) and cannot enter the flow guide port;

3. after the watermelon residue is crushed, starting a residue collecting step, enabling the cutter to reversely rotate at a high speed (generating pressure on the foodstuff liquid from bottom to top) to enable the foodstuff liquid to flow from bottom to top, guiding the foodstuff liquid to enter the flow guide part through the flow guide port and further enter the separation part, wherein due to the limitation of the filter screen and the liquid outlet hole, part, most or all of the watermelon residue is left in the separation part, and the watermelon juice after the watermelon residue is separated is discharged out of the separation part from the liquid outlet hole;

4. stopping the motor, opening the upper cover, pouring out the watermelon juice, removing the guide part, cleaning and preparing for next juice preparation.

Example 7

This embodiment is different from embodiment 1 in that, as shown in fig. 2:

1. the lower end part of the hollow flow guide component 4 is detachably connected to a support (or connected to the upper end part of a cutter shaft 8) arranged on a cutter 7 (in a threaded or socket-and-spigot manner and the like), the flow guide component 4 and the hollow separation part 3 are both independent cylinders, the diameter of the separation part is slightly larger (so as to retain more slag), an opening is formed in the bottom surface of the separation part, the opening is connected with the upper end part of the flow guide component through welding or threads, namely the separation part is arranged above the flow guide component;

2. a filter screen (for example, the aperture is 0.1mm) is arranged in the separation part at the liquid outlet hole 2;

3. the cross-sectional shape of the diversion opening 6 refers to fig. 9, but in this embodiment 7, the baffle 16 is not disposed at the diversion opening 6, the diversion opening 6 is open, a filter screen (not shown in fig. 9) is disposed at the diversion opening 6, and the aperture (for example, the aperture is 0.5mm) of the filter screen is larger than that of the filter screen at the liquid outlet;

correcting 21.03.2018 according to rules 91 4. a group of axial flow blades (positioned below the foodstuff liquid level) is arranged on the inner side wall of the flow guide component, and when the flow guide component is driven by a cutter to rotate reversely (in figure 9, the anticlockwise rotation is assumed to be reverse rotation), the foodstuff liquid in the flow guide component flows from bottom to top;

5. the bottom of the barrel body is provided with an electric heating device, such as: resistive or electromagnetic heaters, and the like.

A fish and a proper amount of clear water are put into the barrel body of the embodiment.

The working process of the embodiment is as follows:

1. opening the upper cover, putting the fish into the fish, and adding a proper amount of clear water;

2. starting the electric heating device to cook the fish and the water into fish soup;

[ 21.03.2018 is corrected according to the rule 91 ]3, the crushing step is started, the cutter rotates reversely at a high speed, the cutter collides or shears the crushed fish to generate fish bone particles, the flow guide part rotates along with the cutter, the axial flow blades arranged on the inner side wall of the flow guide part enable fish soup in the flow guide part to flow from bottom to top, and further enable the flow guide port to generate suction force to suck the fish soup in the barrel body into the flow guide part (because the flow guide port is provided with a filter screen, the larger fish bone particles cannot enter the flow guide part through the filter screen, the smaller fish bone particles can enter the flow guide port), and further flow into the separation part, the fish bone particles larger than the aperture of the filter screen are left in the separation part, and the fish soup after the fish bone particles are separated is discharged out of the separation part through the filter screen at the liquid outlet (in the embodiment, the crushing step and the material residue collecting step are performed simultaneously),

according to the rule 91, 21.03.2018 is corrected by continuously reversing the cutter at a high speed to crush fish meat and fish bones, fish bone particles (the part smaller than the aperture of a filter hole of a filter screen) in fish soup continuously enter a flow guide part through a flow guide port, then enter a separation part to leave the part larger than the aperture of the filter screen in the fish bone particles in the separation part, and other smaller fish bone particles (for example, the particle diameter is smaller than 0.1mm) and the fish soup are discharged out of the separation part through the filter screen at a liquid outlet hole again and continuously circulate until all the fish bone particles larger than the filter hole of the filter screen in the fish soup are left in the separation part;

4. stopping the machine (stopping the motor), opening the upper cover, pouring out the fish soup, removing the diversion component, cleaning and preparing for the next preparation.

[ correction 21.03.2018 according to rule 91 ] in this example, the fish bone in the fish soup was appropriately crushed to sufficiently dissolve the nutrient components such as calcium contained in the fish bone in the fish soup, and most of the fish bone fragments were separated from the fish soup (collected in the separation part) to enrich the fish soup in nutrients and to make the fish soup more smooth in taste (compared with the fish bone fragments that were not removed). Meanwhile, the cutter only needs to rotate in the same direction (for example, reversely, i.e., counterclockwise in fig. 9), so that the crushing step and the slag collecting step can be simultaneously completed.

In this embodiment, the lower end of the hollow flow guide member 4 is detachably connected to the support of the cutter 7 or the upper end of the cutter shaft 8 by means of screw threads or socket joints, and the flow guide member 4 and the hollow separation portion 3 are both independent cylinders.

Example 8

In this embodiment, as shown in fig. 2, a machine body 11 is a base and is disposed at a lower end of a barrel 1, an upper cover 14 is disposed at an upper end of the barrel, a motor 10 is disposed in the machine body, a motor shaft 9 of the motor is disposed upward and is connected to a knife shaft 8 in a knife holder, a knife 7 is mounted on the knife shaft, a lower end of a flow guide member 4 is clamped at an upper end of the knife shaft, and the flow guide member having a hollow structure is generally cylindrical (e.g., 12 mm in outer diameter and 10 mm. The upper end of the diversion component is a separation part 3, the diameter of the separation part of the hollow structure is slightly larger (more material slag can be reserved), an opening is formed in the bottom surface of the separation part, the opening is connected with the upper end part of the diversion component, namely, the separation part is arranged above the diversion component, and the diversion component of the hollow structure is communicated with the separation part of the hollow structure.

The separating part is in the shape of a circular truncated cone, the outer diameter of the separating part is 60 mm, the inner diameter of the separating part is 58 mm, the outer height of the separating part is 50 mm, and the inner height of the separating part is 48 mm (namely the wall thickness of the separating part is 1 mm). The top of the separation part is provided with a detachable top cover.

A plurality of liquid outlet holes 2 are formed on the outer edge (namely the side wall) of the separation part, the flow guide port 6 is arranged on the outer edge of the lower end (namely the lower part) of the flow guide part, and a movable baffle 16 (refer to fig. 9) is arranged on the inner side of the flow guide port.

The flow guide port is positioned below the liquid level of the foodstuff liquid, the separation part is positioned above the liquid level, the liquid outlet hole is circular, and the aperture is 0.02 mm.

The diversion component, the separation part and the cutter shaft rotate synchronously.

A group of axial flow blades (positioned below the foodstuff liquid level) are arranged on the inner side wall of the flow guide component, and when the flow guide component is driven by a cutter to rotate forwards (in the figure 9, anticlockwise rotation is set to be positive rotation), the axial flow blades enable foodstuff liquid in the flow guide component to flow from top to bottom (namely the axial flow blades generate pressure on the foodstuff liquid from top to bottom); when the flow guide component is driven by the cutter to rotate reversely, the foodstuff liquid in the flow guide component flows from bottom to top (namely, the axial flow blades generate pressure on the foodstuff liquid from bottom to top).

The bottom of the barrel body is provided with an electric heating device, such as: resistive or electromagnetic heaters, and the like.

This example is to make jellied bean curd (or tofu pudding).

The uncongealed beancurd and the uncongealed beancurd are intermediate products for making beancurd, and have no great difference in components. The uncongealed tofu comes out firstly, is soft and tender, is difficult to clamp by chopsticks and needs to be contained by a soup ladle; when the uncongealed beancurd is solidified a little more, the uncongealed beancurd is beancurd, and the taste is more smooth than the uncongealed beancurd.

Raw materials: soybean, water and water-soluble coagulant.

The working process of the embodiment is as follows:

1. the upper cover is opened, 100 g of soybeans are placed in the barrel body, then a proper amount of clear water is added, and 1-3 g of water-soluble coagulator (preferably in a solid particle or powder shape, such as one or a mixture of bittern particles, gypsum powder or gluconic acid-delta-lactone, and the like) is placed in the separation part.

2. When the food separating machine is started, the motor rotates forwards, the axial flow blades in the flow guide part rotate at the moment, and pressure is generated on the food liquid from top to bottom, namely the food liquid cannot flow upwards and cannot enter the separating part at the moment; simultaneously, the cutter rotates, and soybeans and water are made into cooked soybean milk according to the crushing and heating method (such as crushing and then heating for cooking, or heating for cooking and then crushing soybeans into cooked soybean milk) in the prior art, in the step, the movable blocking piece covers the flow guide opening, so that the food liquid (mixture of soybeans, water and soybean milk) cannot enter the flow guide opening;

3. stopping the motor from rotating;

4. then the motor is started to rotate reversely, the movable baffle piece is opened to expose the flow guide port, and simultaneously the axial flow blade in the flow guide component rotates along with the flow guide component, so that the cooked soybean milk in the flow guide component flows from bottom to top and enters the separation part, and due to the limitation of the liquid outlet hole, part or most of the bean dregs in the cooked soybean milk are collected in the separation part; simultaneously, the cooked soybean milk washes the water-soluble coagulant in the separation part, the water-soluble coagulant is dissolved in the cooked soybean milk and flows out of the liquid outlet hole together, and then enters the barrel body, the process is circulated continuously, so that the bean dregs in the cooked soybean milk are all collected in the separation part, and the water-soluble coagulant in the separation part is all dissolved in the cooked soybean milk;

5. stopping the motor from rotating;

6. the motor drives the cutter to rotate forwards again, and the separating part rotates along with the cutter; the movable blocking piece covers the flow guide opening, so that the cooked soybean milk cannot enter the flow guide opening; the cooked soybean milk contained in the bean dregs in the separation part is thrown out from the liquid outlet hole under the action of centrifugal force, so that the bean dregs are dried;

7. stopping the motor from rotating, and standing for 1-60 minutes, preferably 5-20 minutes, so that the cooked soybean milk is coagulated into uncongealed beancurd;

8. then the upper cover is opened, the uncongealed tofu is taken out by a soup ladle and the like, and the guiding component is removed for cleaning to prepare for the next preparation.

In this embodiment, the soybean may be replaced by other soybean such as black soybean and green soybean.

Example 9

In this embodiment, as shown in fig. 2, a machine body 11 is a base and is disposed at a lower end of a barrel 1, an upper cover 14 is disposed at an upper end of the barrel, a motor 10 is disposed in the machine body, a motor shaft 9 of the motor is disposed upward and is connected to a knife shaft 8 in a knife holder, a knife 7 is mounted on the knife shaft, a lower end of a flow guide member 4 is clamped at an upper end of the knife shaft, and the flow guide member having a hollow structure is generally cylindrical (e.g., 15 mm in outer diameter and 11 mm. The upper end of the diversion component is a separation part 3, the diameter of the separation part of the hollow structure is slightly larger (more material slag can be reserved), an opening is formed in the bottom surface of the separation part, the opening is connected with the upper end part of the diversion component, namely, the separation part is arranged above the diversion component, and the diversion component of the hollow structure is communicated with the separation part of the hollow structure. The separation part is detachably connected with the cutter shaft through a flow guide part and synchronously rotates along with the cutter shaft.

The separating portion was in the shape of a circular truncated cone with an outer diameter of 70 mm, an inner diameter of 66 mm, an outer height of 60 mm and an inner height of 56 mm (i.e., a wall thickness of the separating portion of 2 mm). The top of the separation part is provided with a detachable top cover, the upper end surface of the separation part is the top cover, and the top cover of the separation part is in a plane or pit shape. A plurality of liquid outlet holes 2 are formed on the outer edge (namely the side wall) of the separation part, and a flow guide port 6 is arranged on the outer edge of the lower end (namely the lower part) of the flow guide part.

or

the best setting direction of the feeding opening is that the included angle between the tangent planes of the positive rotation direction of the rotation radius position where the feeding opening is located is 0 degree, and the feeding opening direction faces the positive rotation direction at the moment. When the article is positively rotated, the article in the article placing space moves (or moves) in the direction far away from the feeding opening under the action of centrifugal force, inertia force and the like, and the article is remained in the article placing space and cannot be thrown out; and when the barrel body rotates reversely, the articles in the storage space are easily thrown out from the feeding opening under the action of centrifugal force and inertia force and fall into the barrel body.

When the arrangement direction of the feeding opening is slightly deviated to the axis direction (for example, deviated to 1 degree), the object in the object placing space can not be thrown out in the forward rotation process; and the material is thrown out when the material is reversed, but the direction of the feeding opening is slightly deviated to the axis direction, so the material is not as smooth when the material is thrown out as the included angle is 0 degree. By analogy, the more the shaft center direction is deviated, the less the shaft center direction is thrown out when the shaft center is reversed; when the deviation direction exceeds 30 degrees, the rotor is difficult to throw out or cannot throw out (namely cannot throw out when needing to be thrown out) in the reverse rotation.

Similarly, when the direction of the feeding opening is slightly deviated to the direction away from the axis (for example, deviated to 1 °), the articles in the storage space cannot be thrown out when the material feeding opening rotates forwards, but the opening direction is slightly outward, so the material feeding opening also tends to be thrown out when the material feeding opening rotates forwards; and is thrown out when reversed. By analogy, the more the arrangement direction of the feeding opening deviates to the direction away from the axis, the more easily the articles in the storage space are thrown out in the positive rotation; when the deviation direction is more than 30 degrees away from the axis, the rotor is thrown out in the forward rotation (namely when the rotor does not need to be thrown out, the rotor is thrown out).

In summary, the present invention defines the included angle between the direction of the feeding opening and the tangent plane of the normal rotation direction of the rotation radius position between-30 ° and 30 °. The specific structure of the unidirectional feeding device can be in various forms.

The articles arranged in the storage space can be different food additives selected according to actual use conditions, the food additives can be solid powder, granules, capsules or blocks and the like, and only the requirement that the food additives have free mobility in the storage space (the separation part or the flow guide part rotates) of the unidirectional feeding device is met. The food additive is preferably water-soluble. The water-soluble food additive selected in this example was a water-soluble coagulant.

The diversion component, the separation part and the cutter shaft rotate synchronously. In this embodiment, a unidirectional feeding device is disposed on the upper end surface of the separating portion, the opening direction of the unidirectional feeding device is consistent with the forward rotation direction of the cutter shaft, and the counterclockwise rotation direction of the cutter shaft is defined as forward rotation in this embodiment. As shown in fig. 10 and 11, the unidirectional feeding device may be of a "bent pocket baffle" structure, the bent pocket baffle includes a peripheral baffle 32 with a notch 37 (notch) disposed on the top cover 3A of the separation part and a radial baffle 33 facing the axial direction, and the peripheral baffle and the radial baffle together form a "bent pocket baffle" similar to an "L" shape. The adjacent position of the peripheral baffle and the radial baffle, namely the turning point of the L shape, forms an object placing space 34; and the peripheral and radial baffles each define a dispensing opening 36 between their ends remote from the abutment location.

The water-soluble coagulant 35 is placed in the storage space 34 of the bent pocket baffle on the top cover. When the motor rotates positively, namely the rotating direction of the separating part 3 is consistent with the arrangement direction of the feeding opening of the 'bent pocket baffle', the water-soluble coagulant is blocked by the bent pocket baffle and limited in the storage space, namely the turning point of the 'L', and cannot move relatively.

When the motor rotates reversely, the water-soluble coagulant moves relative to the top cover of the separating part in a circular motion and a radial motion under the dual actions of inertia and centrifugal force, so that the water-soluble coagulant moves to the feeding opening of the bent baffle plate and is thrown out through the notches on the peripheral baffle plates, falls into the cooked soybean milk in the barrel body and is dissolved.

The dispensing opening 36 of the "curved pocket baffle" in figure 10 may be in the same position as the slit in the peripheral baffle. As shown in fig. 11, the dispensing opening 36 and the peripheral baffle slit 37 may be in different locations. When the motor rotates reversely, the water-soluble coagulant in the storage space is thrown out from the feeding opening 36 and falls into the barrel body from the openings 37 of the peripheral baffle plates.

As shown in fig. 11, the "bent pocket baffle" on the top cover 3A may also be formed by a plurality of "L" -shaped "bent pocket baffles" distributed and combined along the circumference to form a "swastika" (ten thousand characters) shaped "bent pocket baffle" (corresponding to a plurality of structures shown in fig. 10 uniformly distributed and combined along the circumference), and the water-soluble coagulant 35 is placed in the placement space 34.

The side wall of the separating part is provided with a plurality of liquid outlet holes 2, the diversion port 6 is arranged on the outer edge of the lower end (namely the lower part) of the diversion part, and the outer side of the diversion port is provided with a movable baffle 16 (refer to fig. 9).

A group of axial flow blades (positioned below the foodstuff liquid level) are arranged on the inner side wall of the flow guide component, and when the flow guide component is driven by a cutter to rotate forwards (in the figure 9, anticlockwise rotation is positive rotation), the axial flow blades enable foodstuff liquid in the flow guide component to flow from top to bottom (generate pressure on the foodstuff liquid from top to bottom); when the flow guide component is driven by the cutter to rotate reversely, the foodstuff liquid in the flow guide component flows from bottom to top (generates pressure on the foodstuff liquid from bottom to top).

This example is to make jellied bean curd (or tofu pudding).

Raw materials: soybean, water and water-soluble coagulant.

The working process of the embodiment is as follows:

1. opening the upper cover, putting 90 g of soybeans into the barrel body, then adding a proper amount of clear water, putting 1-5 g of water-soluble coagulants (preferably in a solid particle or powder shape, such as one or a mixture of bittern particles, gypsum powder or gluconic acid-delta-lactone, and the like) into an object placing space of the unidirectional feeding device, wherein the liquid level is below a feeding opening of the unidirectional feeding device, and the water-soluble coagulants can also be in a liquid shape coated in a capsule, and the like);

2. starting a machine, crushing and heating soybeans according to a method in the prior art, and preparing cooked soybean milk from the soybeans and water (the soybeans are firstly crushed and then heated to cooked soybean milk, or the soybeans are firstly crushed and then cooked after the water is heated to a certain temperature, or the soybeans are cooked and then crushed to cooked soybean milk, and the like); in the process of making the cooked soybean milk, the rotation direction of the cutter is positive rotation, the rotation direction of the separating part is consistent with the direction of a feeding opening of the unidirectional feeding device, and the water-soluble coagulant in the storage space is limited in the storage space under the action of centrifugal force; at the moment, the axial flow blades in the flow guide part rotate to generate pressure on the food liquid from top to bottom, namely, the food liquid cannot flow upwards and cannot enter the separation part; in the step, the movable blocking piece covers the flow guide opening, so that the food liquid (mixture of the soybeans, the water and the soybean milk) can not enter the flow guide opening;

3. stopping the motor from rotating;

4. the liquid level of the feed liquid is higher than at least one part of the diversion port on the diversion component; the motor is started to rotate reversely, the rotating direction of the separating part is opposite to the direction of the feeding opening of the unidirectional feeding device, the water-soluble coagulant in the storage space is thrown out of the storage space through the feeding opening under the action of inertia and centrifugal force and falls into the soybean milk in the barrel body, and the water-soluble coagulant is dissolved in the soybean milk; meanwhile, the movable blocking piece is opened to expose the diversion port; the axial flow blades in the flow guide component rotate along with the flow guide component, so that the cooked soybean milk in the flow guide component flows from bottom to top and enters the separation part, part or most of bean dregs in the cooked soybean milk are collected in the separation part due to the limitation of the liquid outlet hole, the process is circulated continuously, so that the bean dregs in the cooked soybean milk are all collected in the separation part, and the water-soluble coagulant is all dissolved in the cooked soybean milk;

5. stopping the motor from rotating;

6. the liquid level of the feed liquid is positioned below the liquid outlet hole of the separation part, the cutter rotates forwards again, and the separation part rotates along with the cutter; at the moment, the axial flow blades in the flow guide component rotate to generate pressure on the cooked soybean milk from top to bottom, namely the cooked soybean milk cannot flow upwards and cannot enter the separation part; in the step, the movable blocking piece covers the flow guide opening, so that the cooked soybean milk cannot enter the flow guide opening; the cooked soybean milk contained in the bean dregs in the separation part is thrown out from the liquid outlet hole, so that the bean dregs are dried. Because the separation part and the cutter shaft rotate synchronously, and the rotation speed of the cutter shaft is usually thousands of revolutions per minute to tens of thousands of revolutions per minute, the bean dregs in the separation part are subjected to huge centrifugal force, so that the contained cooked soybean milk is thrown out by strong centrifugal force, and the water content of the bean dregs is far lower than that of the bean dregs filtered by gravity (the water content of the bean dregs is usually different by several times to dozens of times);

7. stopping the motor from rotating, and standing for 1-180 minutes, preferably 5-60 minutes, so that the cooked soybean milk is coagulated into uncongealed beancurd;

In addition, the concrete structure of the unidirectional feeding device can also be as follows:

as shown in fig. 12, the "curved pocket baffle" on the top cover 3A may also be an integrally formed spiral baffle 38, the inner arc surface of the spiral baffle is the storage space 34, the opening of the outward-emitting end of the spiral is the feeding opening 36, and the water-soluble coagulant 35 is placed in the storage space 34.

As shown in fig. 13, the "bent pocket baffle" on the top cover 3A may also be an integrally formed "U" shaped baffle 39, the bottom of the "U" shaped baffle is the storage space 34, the opening position of the "U" shape is the feeding opening 36, and the water-soluble coagulant 35 is placed in the storage space 34. It will be readily appreciated that the "U" shaped baffle described above may also be "V" shaped.

The unidirectional feeding device can also be a box-shaped or groove-shaped structure arranged at the outer side wall, the upper end surface or the lower end surface of the separation part or the outer side wall, the upper end surface or the lower end surface of the diversion part. As shown in fig. 14 and 15, the unidirectional feeding device is a groove-shaped structure disposed on the top cover, the groove-shaped structure includes a groove wall 42, a groove bottom 43, and a notch, the groove bottom and the groove wall combine to form the storage space 34, the notch far away from the storage space is the feeding opening 36, and the groove bottom between the feeding opening and the storage space is a slope.

As shown in fig. 16, the unidirectional feeding device is an inclined channel formed by the downward depression of the surface of the top cover 3A, the inside of the channel is a storage space 34, the opening of the channel is a feeding opening 36, and the direction of the channel from the bottom of the channel to the opening is toward the rotation direction (which is an acute angle) of the separating part when the motor rotates forward. When the motor rotates forwards, the water-soluble coagulant 35 is limited at the bottom of the channel, and when the motor rotates backwards, the water-soluble coagulant 35 moves obliquely upwards along the inner wall of the channel under the action of inertia force and is thrown out from the feeding opening 36.

As shown in fig. 17, the unidirectional feeding device is an inclined box 40 disposed on the outer side wall of the diversion component 4, the inner space of the box is an object placing space, the opening of the box is a feeding opening 36, and the opening is disposed obliquely upward (i.e., the included angle between the feeding opening direction and the horizontal plane is greater than 0 ° and less than 90 °). When the motor rotates forwards, the water-soluble coagulant 35 is limited in the box body; when the motor rotates reversely, the water-soluble coagulant moves obliquely upwards along the box wall and is thrown out from the feeding opening.

In this embodiment, the liquid level is located below the feeding opening of the unidirectional feeding device, so that water (or foodstuff liquid and the like) in the barrel is prevented from entering the storage space from the feeding opening.

The water-soluble coagulant may be in the form of a liquid.

Example 10

In this embodiment, as shown in fig. 2, a machine body 11 is a base and is disposed at a lower end of a barrel 1, an upper cover 14 is disposed at an upper end of the barrel, a motor 10 is disposed in the machine body, a motor shaft 9 of the motor is disposed upward and is connected to a knife shaft 8 in a knife holder, a knife 7 is mounted on the knife shaft, a lower end of a flow guide member 4 is clamped at an upper end of the knife shaft, and the flow guide member having a hollow structure is cylindrical as a whole. The upper end of the diversion part is a separation part 3, the diameter of the separation part of the hollow structure is slightly larger (more material slag can be reserved), an opening is formed in the bottom surface of the separation part, the upper end part of the diversion part of the integrated structure at the opening is arranged above the diversion part, namely, the separation part is arranged above the diversion part, and the diversion part of the hollow structure is communicated with the separation part of the hollow structure.

The side wall of the separating part is provided with a plurality of liquid outlet holes 2, and the flow guide port 6 is arranged on the outer edge of the lower end (namely the lower part) of the flow guide part. The position of the diversion port 6 is provided with a movable baffle plate, as the structure of figure 9, the baffle plate is made of thin stainless steel sheets, one end of the baffle plate is welded on the outer side wall of the diversion part beside the diversion port, and the other end of the baffle plate is movable and can be tilted.

The flow guide port is positioned below the liquid level of the foodstuff liquid; the separation part is positioned above the liquid level, the liquid outlet hole is circular, and the aperture is 0.01 mm.

A group of helical blades (positioned below the foodstuff liquid level) is arranged on the inner side wall of the flow guide component, and when the flow guide component is driven by a cutter to rotate forwards (in the figure 9, anticlockwise rotation is positive rotation), the helical blades enable foodstuff liquid in the flow guide component to flow downwards from top to bottom; when the flow guide component is driven by the cutter to rotate reversely, the foodstuff liquid in the flow guide component flows from bottom to top.

This example is for making freshly ground coffee.

Raw materials: roasted coffee beans, water.

The working process of the embodiment is as follows:

1. the preparation method comprises the following steps: opening the upper cover, and putting a proper amount of clean water and 20 grams of coffee beans into the barrel body;

2. a heating step: starting up the machine, starting heating to ensure that the temperature of water reaches 92 ℃;

3. crushing and preparing coffee liquid: starting the motor to rotate positively, and crushing coffee beans by the cutter to form coffee liquid; the movable blocking piece covers the flow guide opening, so that the coffee liquid cannot enter the flow guide opening (or the separation part);

4. stopping the motor from rotating;

5. a slag collection step: the liquid level of the feed liquid is higher than at least one part of the diversion port on the diversion component; the motor is started to rotate reversely, the movable blocking piece is opened by 30 degrees (namely, the blocking piece covers the position of the flow guide opening and is tilted by 30 degrees), the flow guide opening is exposed, and meanwhile, the movable blocking piece guides the coffee liquid to enter the flow guide part; meanwhile, the helical blade in the flow guide component rotates along with the flow guide component, so that the coffee liquid in the flow guide component flows from bottom to top and enters the separation part; due to the limitation of the liquid outlet hole, a part or most of coffee grounds in the coffee liquid are remained in the separation part, and the coffee liquid after the coffee grounds are separated is discharged out of the separation part from the liquid outlet hole; the process is circulated continuously, so that the coffee grounds in the coffee liquid are all left in the separation part;

6. stopping the motor from rotating;

7. and (3) spin-drying: the liquid level of the feed liquid is positioned below the liquid outlet hole of the separation part, the motor is started to rotate forwards, the flow guide part rotates along with the cutter, and the movable separation blade covers the flow guide opening again, so that the coffee liquid cannot enter the flow guide opening; coffee liquid contained in the coffee grounds in the separation part is thrown out of the liquid outlet holes under the action of centrifugal force, so that the coffee grounds in the separation part are dried;

8. stopping the motor, opening the upper cover, pouring out coffee liquid, detaching the flow guide component, cleaning and preparing for the next preparation.

The reason why the liquid level of the feed liquid is located below the liquid outlet hole of the separation part (at least in the spin-drying step) in this embodiment is to ensure that the coffee grounds in the separation part can be smoothly spin-dried during rotation. Therefore, the liquid level of the feed liquid, i.e., the liquid level of the coffee liquid, is located below the liquid outlet of the separation part.

However, it is preferable that "the liquid surface of the feed liquid is located below the bottom surface of the separation part". This is because when there is not a liquid outlet to the separation portion bottom surface, perhaps, only when just there is a liquid outlet in the upper position of separation portion lateral wall, though guarantee that liquid outlet is higher than foodstuff liquid level and just can realize that the material sediment spin-dries. However, if the lower portion of the separating portion is located below the liquid level, the separating portion may cause the separating portion to drive the food liquid in the barrel to excessively rotate when the separating portion rotates, which is a poor scheme, and the food liquid is likely to "splash" in the barrel. Therefore, the most preferable embodiment is "the liquid surface of the feed liquid is located below the bottom surface of the separation part".

Example 11

In this embodiment, as shown in fig. 2, a machine body 11 is a base and is disposed at a lower end of a barrel 1, an upper cover 14 is disposed at an upper end of the barrel, a motor 10 is disposed in the machine body, a motor shaft 9 of the motor is disposed upward and is connected to a knife shaft 8 in a knife holder, a knife 7 is mounted on the knife shaft, a lower end of a flow guide member 4 is clamped at an upper end of the knife shaft, and the flow guide member having a hollow structure is generally cylindrical (e.g., 15 mm in outer diameter and 11 mm. The upper end of the diversion component is a separation part 3, the diameter of the separation part of the hollow structure is slightly larger (more material slag can be reserved), an opening is formed in the bottom surface of the separation part, the opening is connected with the upper end part of the diversion component, namely, the separation part is arranged above the diversion component, and the diversion component of the hollow structure is communicated with the separation part of the hollow structure.

The outer side wall of the flow guide component is provided with a one-way feeding device, and the one-way feeding device is provided with an article accommodating space and a feeding opening for accommodating articles; the included angle between the feeding opening direction of the unidirectional feeding device and the horizontal plane is more than or equal to 0 degree and less than 90 degrees; the included angle between the feeding opening direction of the unidirectional feeding device and the section of the reverse direction of the rotation radius position of the unidirectional feeding device is-30 degrees to-30 degrees; when the unidirectional feeding device rotates reversely along with the flow guide component, the articles are limited in the storage space; when the unidirectional feeding device rotates along with the flow guide component, the articles in the storage space are thrown out from the feeding opening;

the baffle plate arranged at the flow guide opening is in the structure shown in fig. 8, and one end 18 and the other end 17 are respectively positioned at the outer side and the inner side;

the working process of the embodiment is as follows:

1. the preparation method comprises the following steps: opening the upper cover, putting a proper amount of clear water into the barrel body, putting 15 g of coffee beans into the storage space of the unidirectional feeding device, wherein the liquid level is below the feeding opening of the unidirectional feeding device;

2. a heating step: starting up the machine, starting heating to ensure that the temperature of water reaches 90 ℃;

3. crushing and coffee making: the motor is started to rotate positively (in the embodiment, the counterclockwise rotation direction is positive rotation), the coffee beans are thrown into the water in the barrel body and are further crushed by the cutter to form coffee liquid containing a large amount of coffee grounds; the baffle plate 18 rotating along with the flow guide member prevents the coffee liquid from entering the separation part;

4. stopping the motor from rotating;

5. collecting material slag: the motor drives the cutter to rotate reversely, coffee liquid enters the flow guide part of the hollow structure from the flow guide port under the guide effect of the baffle plate 18 and enters the separation part of the hollow structure through the flow channel in the flow guide part, coffee grounds in the coffee liquid are collected in the separation part, and the coffee liquid after the coffee grounds are separated is discharged out of the separation part from the liquid outlet hole;

6. stopping the motor from rotating;

7. and (3) material residue spin-drying: the motor drives the cutter to rotate forwards again, the flow guide component rotates along with the cutter, and the coffee liquid is blocked outside the separation part by the blocking piece again; coffee liquid contained in the coffee grounds in the separation part is thrown out of the liquid outlet hole under the action of centrifugal force, so that the coffee grounds are dried;

Example 12

Coffee liquid is made from the pre-made coffee powder (in this embodiment, coffee beans do not need to be ground with a cutter)

This embodiment is different from embodiment 9 in that, as shown in fig. 2:

1. a filter screen is not arranged at the flow guide port;

2. the baffle plate arranged at the flow guide opening is in the structure shown in fig. 8, and one end 18 and the other end 17 are respectively positioned at the outer side and the inner side;

the working process of the embodiment is as follows:

1. 25 g of coffee powder is put into the separation part, and a proper amount of water is put into the barrel body;

2. starting the machine, heating to ensure that the water temperature reaches 88 ℃;

3. the motor is started to rotate reversely (rotate clockwise) to enable the flow guide component to rotate along with the cutter, water in the barrel body guided by the baffle at the flow guide opening enters the flow guide component and further enters the separation part, and the water flushes coffee powder in the separation part to form coffee liquid; the coffee grounds in the coffee powder, which are larger than the liquid outlet holes, are left in the separating part, and the coffee liquid after the coffee grounds are separated is discharged from the liquid outlet holes and enters the barrel body.

The above process is continuously circulated along with the continuous high-speed reversal of the cutter, so that the effective components in the coffee powder are fully dissolved in the water to form coffee liquid, and the coffee residues in the coffee powder are left in the separation part;

4. stopping the motor from rotating;

5. and (3) spin-drying: the motor is started to rotate positively, the flow guide component rotates along with the cutter, and the blocking piece blocks coffee liquid from entering the flow guide component; coffee liquid contained in the coffee grounds in the separation part is thrown out of the liquid outlet holes under the action of centrifugal force, so that the coffee grounds in the separation part are dried;

6. stopping the motor, opening the upper cover, pouring out coffee liquid, detaching the flow guide component, cleaning and preparing for the next preparation.

Example 13

The structure of the embodiment is shown in fig. 3:

1. the guide component 4 with a hollow structure is connected with the upper end part of the cutter shaft 8 through threads, the guide component and the separation part 3 are integrally arranged, the integral appearance of the guide component and the separation part is in an inverted circular truncated cone shape, and the upper end (side wall) of the guide component is provided with a plurality of liquid outlet holes 2 (the separation part 3 with the hollow structure is formed);

2. the baffle is not arranged at the flow guide opening, but the filter screen is arranged, and the aperture of the filter holes of the filter screen is larger than that of the liquid outlet holes on the separation part (for example, the aperture of the filter holes of the filter screen is 0.1mm, and the aperture of the liquid outlet holes is 0.05 mm);

4. the liquid outlet holes have the function of a filter screen (for example, the liquid outlet holes are circular, and the hole diameter is 0.05 mm).

Place the coffee beans in the staving in this embodiment to the staving bottom is provided with electric heater unit, for example: resistive or electromagnetic heaters, and the like.

The working process is as follows:

1. opening the upper cover, putting coffee beans into the barrel body, and then adding a proper amount of clear water;

2. starting an electric heating device to carry out a heating step so that the temperature of water reaches about 90 ℃;

3. starting a crushing step, wherein the liquid level is higher than at least one part of the diversion port on the diversion component, and the liquid level is positioned below the liquid outlet; the cutter rotates forwards (or backwards) at a high speed, and when the fins rotate along with the flow guide part, the fins push water in the flow channel to do circular motion so as to generate centrifugal force, and the water moves upwards and outwards along the inner side wall of the inclined flow guide part to reach the liquid outlet hole 2 and is discharged out of the separation part from the liquid outlet hole; meanwhile, the coffee beans are crushed by the cutter to be in tiny particles, coffee grounds smaller than the aperture of the filter screen enter the flow guide port and further enter the separation part to reach the liquid outlet hole 2, the coffee grounds are collected in the separation part due to the limitation of the liquid outlet hole, and coffee liquid after the coffee grounds are separated is discharged out of the separation part from the liquid outlet hole; along with continuous circulation, all coffee grounds in the coffee liquid are collected in the separation part;

4. stopping the motor, opening the upper cover, pouring out the coffee liquid, removing the diversion component, cleaning and preparing for the next preparation.

In this embodiment, no matter whether the motor rotates forward or backward, the fins can push the water or coffee in the flow channel to move circularly when rotating along with the flow guiding component, so as to generate centrifugal force, and the water or coffee moves upwards and outwards along the inner side wall of the inclined flow guiding component to reach the liquid outlet hole 2 and is discharged out of the separation part from the liquid outlet hole.

Example 14

In this embodiment, as shown in fig. 19, the machine body 11 is a base and is disposed at the lower end of the barrel, the upper end of the barrel is provided with the upper cover 14, the motor 10 is disposed in the machine body, the motor shaft 9 of the motor is disposed upward and is connected with the knife shaft 8 in the knife holder, and the knife 7 is mounted on the knife shaft. The upper end of the knife shaft is connected with a connecting rod 15, and the top end of the connecting rod is fixed with the separation part 3 with a hollow structure. When the cutter rotates, the cutter shaft drives the separating part to rotate through the connecting rod, namely, the separating part and the cutter rotate synchronously, the outer part of the separating part is cylindrical, the inner part of the separating part is hollow, namely, in the shape of a circular pipe, and the top inside the circular pipe is of a closed structure. Set up out liquid hole 2 at the lateral wall and/or the top surface of separation portion, the lower extreme of separation portion sets up the inlet, and water conservancy diversion part and separation portion structure as an organic whole in this embodiment, and water conservancy diversion part is the inlet of separation portion promptly, sets up axial blade 31 at inlet department, and axial blade 31 forms a class pump mechanism.

When the separating device works, the bottom of the separating part can be kept flush with the liquid level of the feed liquid in the barrel body or slightly higher than the liquid level, and at least one part of the axial flow blade is below the liquid level of the feed liquid.

When the cutter shaft rotates, the separating part drives the axial flow blades to rotate, and when the separating part is driven by the connecting rod to rotate positively, the axial flow blades apply pressure from top to bottom on the food liquid, and at the moment, the food liquid cannot enter the separating part; and when the separation portion is driven the reversal by the connecting rod, axial compressor blade applys from lower supreme pressure to foodstuff liquid to in the foodstuff liquid that drives the barrel body enters into the separation portion from up down, the material sediment in the foodstuff liquid is collected in the separation portion under the restriction of liquid outlet hole, and liquid is then thrown away the separation portion by liquid outlet hole.

The liquid level of the feed liquid can be slightly higher than the bottom of the separation part, and the axial flow blades are below the liquid level of the feed liquid.

The positive rotation direction of the cutter shaft rotation is set to be clockwise or anticlockwise according to actual conditions.

Example 15

In this embodiment, as shown in fig. 2, the machine body 11 is a base and is disposed at the lower end of the barrel body 1, the upper end of the barrel body is provided with the upper cover 14, the motor 10 is disposed in the machine body, the motor shaft 9 of the motor is disposed upward and is connected to the knife shaft 8 in the knife holder, and the knife shaft is provided with the knife 7, as shown in fig. 20, the knife shaft is connected to the flow guide member 4 through the transmission device 44, the flow guide member having a hollow structure is integrally cylindrical, the flow guide opening is not provided with a baffle, the transmission device is a bevel gear set composed of four bevel gears 44A, and when the knife shaft rotates, the bevel gear set drives the flow guide member to rotate. The upper end of the diversion part is a separation part 3, the diameter of the separation part of the hollow structure is slightly larger so as to retain more material slag, an opening is formed in the bottom surface of the separation part, the opening is connected with the upper end part of the diversion part, namely, the separation part is arranged above the diversion part, and the diversion part of the hollow structure is communicated with the separation part of the hollow structure.

The separating part is in the shape of a circular truncated cone, a detachable top cover is arranged at the top of the separating part, the upper end face of the separating part is the top cover, and the separating part and the flow guide component rotate synchronously. A plurality of liquid outlet holes 2 are formed on the outer edge (namely the side wall) of the separation part, and a flow guide port 6 is arranged on the outer edge of the lower end (namely the lower part) of the flow guide part.

The helical blade that the inside setting of water conservancy diversion part is connected with the water conservancy diversion part is as class pump mechanism, class pump mechanism and water conservancy diversion part synchronous revolution, and helical blade 45's the structure of arranging is the opposite structure for the helical blade's of water conservancy diversion part under the synchronous revolution condition of arbor structure this moment. That is, when the guide member rotates in the reverse direction, the similar pump mechanism applies pressure to the foodstuff liquid in the direction from the separating portion to the guide member, and when the guide member rotates in the forward direction, the similar pump mechanism applies pressure to the foodstuff liquid in the direction from the guide member to the separating portion. That is, when the cutter (arbor) rotates forward, the similar pump mechanism applies pressure to the foodstuff liquid from the separating part to the direction of the flow guide member, and when the cutter (arbor) rotates backward, the similar pump mechanism applies pressure to the foodstuff liquid from the flow guide member to the direction of the separating part.

This embodiment is the preparation sugarcane juice, and its working process includes:

1. a material adding step: opening the upper cover, and putting peeled sugarcane and water;

2. a crushing step: the cutter rotates forwards at a high speed, the cutter collides or shears the crushed sugarcane to form food liquid (mixture of the sugarcane bagasse and the sugarcane juice), the guide part rotates reversely relative to the cutter, namely the guide part rotates reversely, the spiral blade serving as a similar pump mechanism rotates synchronously along with the guide part, and the similar pump mechanism applies pressure to the food liquid from the separating part to the direction of the guide part, so that the food liquid cannot enter the guide opening;

3. stopping the motor from rotating;

4. collecting material slag: the liquid level of the feed liquid is higher than at least one part of the diversion port on the diversion component; the cutter rotates reversely at a high speed, the flow guide part rotates reversely relative to the cutter, namely the flow guide part rotates forwards, the similar pump mechanism applies pressure to the foodstuff liquid from the flow guide part to the direction of the separation part, the guided foodstuff liquid enters the flow guide part through the flow guide port, the foodstuff liquid further enters the separation part, the bagasse stays in the separation part due to the limitation of the filter screen and the liquid outlet hole, and the sugarcane juice after separating the bagasse is discharged out of the separation part from the liquid outlet hole;

5. stopping the motor from rotating;

6. and (3) material residue spin-drying: the liquid level of the feed liquid is positioned below the liquid outlet hole of the separation part, the cutter rotates forwards at a high speed, the flow guide part rotates reversely relative to the cutter, namely the flow guide part rotates reversely, the separation part and a helical blade serving as a similar pump mechanism rotate synchronously along with the flow guide part, the similar pump mechanism applies pressure to the sugarcane juice from the separation part to the flow guide part, so that the sugarcane juice cannot enter the flow guide hole, and the sugarcane juice contained in the sugarcane bagasse in the separation part is thrown out from the liquid outlet hole under the action of centrifugal force, so that the sugarcane residue in the separation part is dried;

7. the motor stops rotating.

Example 16

The separating portion was in the shape of a circular truncated cone with an outer diameter of 70 mm, an inner diameter of 66 mm, an outer height of 60 mm and an inner height of 56 mm (i.e., a wall thickness of the separating portion of 2 mm). The top of the separation part is provided with a detachable top cover, the upper end surface of the separation part is the top cover, and the top cover of the separation part is in a plane or pit shape. A plurality of liquid outlet holes 2 are formed on the outer edge (namely the side wall) of the separation part, the flow guide port 6 is arranged on the outer edge of the lower end (namely the lower part) of the flow guide part, and a baffle 16 is arranged on the side of the flow guide port to form the structure shown in the figure 7;

the working process of the embodiment is as follows:

① feeding step, placing water into the barrel, and placing 20 g coffee bean on the upper end surface (i.e. top cover) of the separation part;

② heating step, starting the machine, heating by an electric heating device to make the water temperature reach 50 ℃;

③ preprocessing step, heating continuously and making the water temperature rise to 90 ℃, the liquid level is higher than at least a part of the diversion port on the diversion component, the cutter rotates reversely, the separation part and the diversion component rotate synchronously with the cutter, the coffee beans on the upper end face of the separation part are thrown out and fall into the barrel body and are smashed in the water by the cutter to form coffee liquid with coffee residues, meanwhile, the coffee liquid in the barrel body enters the diversion component with the hollow structure from the diversion port under the guiding action of the baffle 16, the coffee residues which are smaller than the filter screen filtering holes at the diversion port and the coffee liquid in the coffee liquid enter the diversion component with the hollow structure together with the coffee liquid and then enter the separation part with the hollow structure through the flow passage in the diversion component, the liquid in the coffee liquid is discharged out of the separation part from the liquid outlet, and the coffee residues which are larger than the filter screen filtering holes at the liquid outlet are collected in the separation part;

④ stopping the motor;

⑤ spin-drying the coffee grounds, wherein the liquid level of the coffee liquid is below the liquid outlet hole of the separation part, the cutter rotates forward, the separation part rotates along with the cutter, and the coffee liquid is blocked outside the separation part by the blocking sheet;

⑥ the motor stops rotating.

In this embodiment, a unidirectional feeding device may be disposed on the outer side wall, the upper end surface, or the lower end surface of the separation portion, or a unidirectional feeding device may be disposed on the outer side wall, the upper end surface, or the lower end surface of the diversion component (the structure of the unidirectional feeding device refers to embodiment 9). When in use, coffee beans are put into the unidirectional feeding device, and the coffee liquid can be prepared.

In the above embodiments, only a few examples of the separation part located above the air guide part and the separation part located on the outer side wall of the air guide part are described. But in practical use, the food liquid can be separated by the separation part which is positioned below the flow guide part and is wholly positioned below the liquid level; however, when the separation part is located below the liquid surface, the separated sludge is still immersed in the liquid food material. The separation effect is not as good as if the separation part is located above the liquid level. Further, the above embodiment has described only the case where the cutter is located below the air guide member, and actually, the cutter may be located in the air guide member, in the separation portion, or above the separation portion, and the operation convenience is inferior to the case where the cutter is located below the air guide member only when the cutter is located in the air guide member, in the separation portion, or above the separation portion.

In the invention, a flow guide part can be arranged on the structure of the cutter shaft, the cutter and the like, the cutter rotates towards a certain direction to drive the food liquid to rotate, and simultaneously the cutter and/or a similar pump mechanism drive the food liquid to enter the flow guide part from a flow guide port and further enter the separation part. For the existing structure, only a flow guide part and a separation part are mainly added, the structure is very simple, but the collecting effect of the material slag is good. Can pour out foodstuff liquid from the staving after the material sediment is collected, then pull down water conservancy diversion part etc. again, can continue to use after the sanitization.

Claims

The utility model provides a food processor with function is collected to material sediment, includes motor, arbor, cutter, staving and organism, and the motor setting is in the organism, and motor drive is located the cutter of staving, and the cutter is handled the foodstuff in the staving when rotating and is formed the foodstuff liquid that has the material sediment, its characterized in that: a flow guide part and a separation part are arranged in the barrel body, and the flow guide part and the separation part are of an integral connection structure, a fixed connection structure or a detachable connection structure;

the flow guide part is provided with a flow guide port, the separation part is provided with a liquid outlet hole, and the flow guide part is communicated with the separation part;

when the cutter rotates towards any one direction of the forward rotation direction or the reverse rotation direction, the flow guide component rotates synchronously, asynchronously, reversely or freely along with the rotation of the cutter;

the barrel body of the food processor also comprises a pump-like mechanism;

when the cutter is reversed, foodstuff liquid in the barrel is driven by the cutter and/or the similar pump mechanism to enter the flow guide part from the flow guide port and enter the separation part through the flow channel in the flow guide part, liquid in the foodstuff liquid is discharged out of the separation part from the liquid outlet hole, and at least part of material slag in the foodstuff liquid is collected in the separation part.
The food processor with the slag collecting function according to claim 1, wherein: the side wall, the bottom surface or the top surface of the flow guide component is provided with the flow guide opening, and the installation mode of the flow guide component is selected from any one of the following (1), (2), (3), (4) or (5):

(1) the flow guide component and the cutter are of an integral connecting structure, a fixed connecting structure or a detachable connecting structure, and the flow guide component and the cutter rotate synchronously;

or

(2) The flow guide part and the cutter shaft are of an integral connecting structure, a fixed connecting structure or a detachable connecting structure, and the flow guide part and the cutter shaft synchronously rotate;

or

(3) The diversion component and the cutter shaft are in a rotary connection structure, and when the cutter shaft rotates, the diversion component freely rotates relative to the cutter shaft, synchronously rotates with the cutter shaft, asynchronously rotates with the cutter shaft or reversely rotates with the cutter shaft;

or

(4) The bottom in the barrel body is provided with a cutter holder for mounting a cutter, the flow guide part and the top in the barrel body, the inner side wall of the barrel body, the bottom in the barrel body or the cutter holder in the barrel body are in a rotary connection structure, and when the cutter shaft rotates, the flow guide part freely rotates relative to the cutter shaft, synchronously rotates with the cutter shaft, asynchronously rotates with the cutter shaft or reversely rotates with the cutter shaft;

or

(5) The upper end of the barrel body is provided with a sealing mechanism, the flow guide part is rotatably connected with the sealing mechanism of the barrel body, and when the cutter shaft rotates, the flow guide part freely rotates relative to the cutter shaft, synchronously rotates with the cutter shaft, asynchronously rotates with the cutter shaft or reversely rotates with the cutter shaft.
The food processor with the slag collecting function according to claim 1 or 2, characterized in that: the relation between the separation part and the flow guide member is selected from any one of (1), (2) or (3):

(1) the separation part is arranged at the upper end, the lower end, the middle part or the two ends of the flow guide part and synchronously rotates with the flow guide part;

(2) the separation part is arranged on the outer side wall of the flow guide part and synchronously rotates with the flow guide part;

(3) the separation part is arranged on the inner side wall of the flow guide component and synchronously rotates with the flow guide component.
The food processor with the slag collecting function according to claim 3, wherein: the side wall, the top surface or the bottom surface of the separation part is provided with a liquid outlet, a filter screen is arranged at the liquid outlet, and the filter screen is arranged in the separation part or the liquid outlet forms the filter screen; the filter screen is arranged at the flow guide opening, and the filter holes of the filter screen at the flow guide opening are larger than the filter holes of the filter screen at the liquid outlet.
The food processor with the slag collecting function according to claim 1, wherein: the motor drives a cutter positioned in the barrel body through a cutter shaft;

the flow guide part is of a hollow structure and is provided with a flow guide port, the separation part is of a hollow structure and is provided with a liquid outlet hole, and the hollow structure of the flow guide part is communicated with the hollow structure of the separation part;

the diversion port is positioned below the liquid level of the feed liquid, or the liquid level of the feed liquid is higher than at least one part of the diversion port on the diversion component;

when the cutter rotates forwards, the foodstuff liquid in the barrel is blocked outside the separation part by the cutter and/or the pump mechanism; when the cutter is reversed, foodstuff liquid in the barrel enters the flow guide part of the hollow structure from the flow guide port under the driving of the cutter and/or the similar pump mechanism and enters the separation part of the hollow structure through the flow channel in the flow guide part, liquid in the foodstuff liquid is discharged out of the separation part from the liquid outlet hole, and at least part of material slag in the foodstuff liquid is collected in the separation part.
The food processor with the function of collecting the material slag according to the claim 1, 2, 4 or 5, characterized in that: the pump mechanism is selected from at least one of (1) or (2):

(1) the pump mechanism is as follows: any one or more of at least one axial flow blade, at least one helical blade, at least one axial flow impeller or at least one helical impeller is arranged on the inner side wall of the flow guide component, the outer side wall of the flow guide component, the inner side wall of the separation part or the outer side wall of the separation part;

(2) the pump mechanism is as follows: the flow guide part or the separation part is internally provided with a flow guide part which is fixedly or detachably connected with the cutter shaft or the cutter: any one or any combination of at least one axial flow blade, at least one helical blade, at least one axial flow impeller, or at least one helical impeller.
The food processor with the function of collecting the material slag according to the claim 1, 2, 4 or 5, characterized in that: the relation between the machine body and the barrel body is selected from any one of the following (1) or (2):

(1) the motor is arranged in the machine body below or on the side of the barrel body, the motor directly or through a transmission mechanism drives the cutter to rotate, and the upper cover arranged at the upper end of the barrel body forms a sealing mechanism at the top of the barrel body;

or

(2) The motor is arranged in the machine body above the barrel body, the motor directly drives the cutter to rotate or drives the cutter to rotate through the transmission mechanism, and the lower end of the machine body forms a sealing mechanism at the top of the barrel body.
The food processor with the function of collecting the material slag according to the claim 1, 2, 4 or 5, characterized in that:

when the separation part is arranged above the flow guide part, a cutter is arranged above the separation part, in the flow guide part or below the flow guide part;

or

When the separation part is arranged below the flow guide part, a cutter is arranged above the flow guide part, in the separation part or below the separation part;

or

When the outer side wall of the flow guide part is provided with the separation part, a cutter is arranged above, in or below the flow guide part;

or

When the separation part is arranged on the inner side wall of the flow guide part, a cutter is arranged above, in or below the flow guide part;

or

When the separation part is one part of the flow guide part, a cutter is arranged above the flow guide part, in the flow guide part or below the flow guide part.
The food processor with the slag collecting function according to claim 1, wherein: the outer side wall, the upper end face or the lower end face of the separating part is provided with a one-way feeding device, and the one-way feeding device is provided with an article accommodating space and a feeding opening for accommodating articles; the included angle between the feeding opening direction of the unidirectional feeding device and the horizontal plane is more than or equal to 0 degree and less than 90 degrees; the included angle between the feeding opening direction of the unidirectional feeding device and the tangent plane of the forward rotation direction of the rotating radius position of the unidirectional feeding device is-30 degrees to-30 degrees; when the unidirectional feeding device rotates along with the separating part, the articles are limited in the storage space; when the unidirectional feeding device rotates along with the separating part reversely, the articles in the storage space are thrown out from the feeding opening;

or

The outer side wall, the upper end surface or the lower end surface of the flow guide part is provided with a one-way feeding device, and the one-way feeding device is provided with an article accommodating space and a feeding opening for accommodating articles; the included angle between the feeding opening direction of the unidirectional feeding device and the horizontal plane is more than or equal to 0 degree and less than 90 degrees; the included angle between the feeding opening direction of the unidirectional feeding device and the tangent plane of the forward rotation direction of the rotating radius position of the unidirectional feeding device is-30 degrees to-30 degrees; when the unidirectional feeding device rotates along with the flow guide component, the articles are limited in the storage space; when the unidirectional feeding device rotates reversely along with the diversion component, the articles in the storage space are thrown out from the feeding opening.
The food processor with the slag collecting function according to claim 1 or 9, wherein: the separation part is positioned at the upper end of the flow guide part, and the top end of the flow guide part is inserted into the hollow structure of the separation part; the position of the outflow port of the flow guide component is higher than the bottom in the hollow structure of the separation part and lower than the top in the hollow structure of the separation part; the part of the flow guide component, which is positioned in the hollow structure of the separation part, forms a backflow shielding structure, and a containing groove for material slag is formed between the backflow shielding structure and the hollow structure of the separation part.
The utility model provides a food processor with function is collected to material sediment, includes motor, arbor, cutter, staving and organism, and the motor setting is in the organism, and motor drive is located the cutter of staving, and the cutter is handled the foodstuff in the staving when rotating and is formed the foodstuff liquid that has the material sediment, its characterized in that: a flow guide part and a separation part are arranged in the barrel body, and the flow guide part and the separation part are of an integral connection structure, a fixed connection structure or a detachable connection structure;

the flow guide part is provided with a flow guide port, the separation part is provided with a liquid outlet hole, and the flow guide part is communicated with the separation part;

when the cutter rotates towards any one direction of the forward rotation direction or the reverse rotation direction, the flow guide component rotates synchronously, asynchronously, reversely or freely along with the rotation of the cutter;

a baffle is arranged at the flow guide opening of the flow guide part and used for preventing the foodstuff liquid from entering the flow guide part when the cutter rotates forwards; when the cutter rotates reversely, the baffle plate removes the barrier to the foodstuff liquid, and the foodstuff liquid enters the flow guide part;

the food processor barrel body also comprises a pump-like mechanism;

when the cutter is reversed, foodstuff liquid in the barrel is driven by the cutter and/or the similar pump mechanism to enter the flow guide part from the flow guide port and enter the separation part through the flow channel in the flow guide part, liquid in the foodstuff liquid is discharged out of the separation part from the liquid outlet hole, and at least part of material slag in the foodstuff liquid is collected in the separation part.
The food processor with a slag collecting function according to claim 11, wherein: the installation mode of the diversion component is selected from any one of the following (1), (2), (3), (4) or (5):

(1) the flow guide component and the cutter are of an integral connecting structure, a fixed connecting structure or a detachable connecting structure, and the flow guide component and the cutter rotate synchronously;

or

(2) The flow guide part and the cutter shaft are of an integral connecting structure, a fixed connecting structure or a detachable connecting structure, and the flow guide part and the cutter shaft synchronously rotate;

or

(3) The diversion component and the cutter shaft are in a rotary connection structure, and when the cutter shaft rotates, the diversion component freely rotates relative to the cutter shaft, synchronously rotates with the cutter shaft, asynchronously rotates with the cutter shaft or reversely rotates with the cutter shaft;

or

(4) The bottom in the barrel body is provided with a cutter holder for mounting a cutter, the flow guide part and the top in the barrel body, the inner side wall of the barrel body, the bottom in the barrel body or the cutter holder in the barrel body are in a rotary connection structure, and when the cutter shaft rotates, the flow guide part freely rotates relative to the cutter shaft, synchronously rotates with the cutter shaft, asynchronously rotates with the cutter shaft or reversely rotates with the cutter shaft;

or

(5) The upper end of the barrel body is provided with a sealing mechanism, the flow guide part is rotatably connected with the sealing mechanism of the barrel body, and when the cutter shaft rotates, the flow guide part freely rotates relative to the cutter shaft, synchronously rotates with the cutter shaft, asynchronously rotates with the cutter shaft or reversely rotates with the cutter shaft.
The food processor with a slag collecting function according to claim 11 or 12, wherein: the lateral wall, the bottom surface or the top surface of the flow guide component are provided with the flow guide opening, the flow guide component at the flow guide opening is provided with a baffle plate, and the structure of the baffle plate is selected from any one of (1), (2) or (3):

(1) the separation blade tilts towards the inner side or the outer side of the flow guide component and extends towards the direction of the flow guide port, the separation blade prevents the food liquid from entering the flow guide component when the cutter rotates forwards, and the separation blade guides the food liquid to enter the flow guide component when the cutter rotates backwards;

or

(2) The separation blade tilts towards the inner side or the outer side of the flow guide component and extends towards the direction opposite to the flow guide port, the separation blade prevents the food liquid from entering the flow guide component when the cutter rotates forwards, and the separation blade prevents the food liquid from entering the flow guide component when the cutter rotates backwards;

or

(3) The separation blade is movably arranged, the separation blade covers the flow guide opening when the cutter rotates forwards and blocks the food liquid from entering the flow guide part, and the separation blade is opened when the cutter rotates backwards and enables the food liquid to enter the flow guide part.
The food processor with a slag collecting function according to claim 11, wherein: the side wall, the bottom surface or the top surface of the flow guide part is provided with the flow guide opening, a baffle plate is arranged on the flow guide part at the flow guide opening, and the baffle plate structure is selected from any one of the following (1), (2), (3) or (4):

(1) the baffle plate and the flow guide component are fixedly arranged, the baffle plate tilts towards the inner side or the outer side of the flow guide component, the tilting angle of the baffle plate is larger than 0 degree and smaller than 90 degrees relative to the plane of the flow guide component where the tilting position of the baffle plate is located or the section of the curved surface of the flow guide component where the tilting position of the baffle plate is located, and the tilted baffle plate extends towards the flow guide opening; in the tilting angle range of the baffle plate, the tilting directions of the baffle plate correspond to the reverse rotation directions of the cutter; when the baffle plate rotates reversely along with the cutter, the guide foodstuff liquid enters the flow guide part; when the baffle plate rotates forwards along with the cutter, the food liquid is prevented from entering the flow guide part;

or

(2) The baffle plate and the flow guide component are fixedly arranged, the baffle plate tilts towards the inner side or the outer side of the flow guide component, the tilting angle of the baffle plate is more than or equal to 90 degrees and less than 180 degrees relative to the plane of the flow guide component where the tilting position of the baffle plate is located or the tangent plane of the curved surface of the flow guide component where the tilting position of the baffle plate is located, and the tilted baffle plate extends towards the opposite direction or the vertical direction of the flow guide port; in the tilting angle range of the baffle plate, the tilting direction of the baffle plate corresponds to the positive rotation direction of the cutter or is vertical to the positive rotation direction of the cutter; when the baffle plate rotates forwards along with the cutter, the food liquid is prevented from entering the flow guide part; when the baffle plate rotates reversely along with the cutter, the foodstuff liquid enters the flow guide part;

or

(3) The separation blade and the diversion part are movably arranged, and the separation blade selectively covers the diversion opening or is movably opened by tilting: the movable tilting opening angle is larger than 0 degree and smaller than 90 degrees relative to the plane of the flow guide component where the blocking piece tilting position is located or the section of the curved surface of the flow guide component where the blocking piece tilting position is located, and the movably tilting blocking piece extends towards the flow guide opening; in the angle range of the movable tilting opening of the blocking piece, the movable tilting direction of the blocking piece corresponds to the reverse rotation direction of the cutter; when the baffle plate rotates reversely along with the cutter, the baffle plate is movably tilted and opened, and the baffle plate guides the foodstuff liquid to enter the flow guide part; when the baffle plate rotates forwards along with the cutter, the baffle plate covers the flow guide opening and blocks the food liquid from entering the flow guide part;

or

(4) The separation blade and the diversion part are movably arranged, and the separation blade selectively covers the diversion opening or is movably opened by tilting: the angle of the movable tilting opening of the baffle plate is more than or equal to 90 degrees and less than 180 degrees relative to the plane of the flow guide component where the position of the baffle plate tilting is located or the tangent plane of the curved surface of the flow guide component where the position of the baffle plate tilting is located, and the movably tilting baffle plate extends towards the opposite direction or the vertical direction of the flow guide port; in the angle range of the movable tilting opening of the blocking sheet, the movable tilting direction of the blocking sheet corresponds to the positive rotation direction of the cutter or is vertical to the positive rotation direction of the cutter; when the separation blade rotates forwards along with the cutter, the separation blade covers the flow guide opening and prevents the food liquid from entering the flow guide part; when the separation blade rotates reversely along with the cutter, the separation blade is movably tilted and opened, and foodstuff liquid enters the flow guide component.
The food processor with the slag collecting function according to claim 11, 12 or 14, wherein: the relation between the separation part and the flow guide member is selected from any one of (1), (2) or (3):

(1) the separation part is arranged at the upper end, the lower end, the middle part or the two ends of the flow guide part and synchronously rotates with the flow guide part;

(2) the separation part is arranged on the outer side wall of the flow guide part and synchronously rotates with the flow guide part;

(3) the separation part is arranged on the inner side wall of the flow guide component and synchronously rotates with the flow guide component.
The food processor with a slag collecting function according to claim 15, wherein: the side wall, the top surface or the bottom surface of the separation part is provided with a liquid outlet, a filter screen is arranged at the liquid outlet, and the filter screen is arranged in the separation part or the liquid outlet forms the filter screen; the filter screen is arranged at the flow guide opening, and the filter holes of the filter screen at the flow guide opening are larger than the filter holes of the filter screen at the liquid outlet.
The food processor with a slag collecting function according to claim 11, wherein: the motor drives a cutter positioned in the barrel body through a cutter shaft;

the flow guide part is of a hollow structure and is provided with a flow guide port, the separation part is of a hollow structure and is provided with a liquid outlet hole, and the hollow structure of the flow guide part is communicated with the hollow structure of the separation part;

the diversion port is positioned below the liquid level of the feed liquid, or the liquid level of the feed liquid is higher than at least one part of the diversion port on the diversion component;

when the cutter is reversed, foodstuff liquid in the barrel enters the flow guide part of the hollow structure from the flow guide port under the driving of the cutter and/or the similar pump mechanism and enters the separation part of the hollow structure through the flow channel in the flow guide part, liquid in the foodstuff liquid is discharged out of the separation part from the liquid outlet hole, and at least part of material slag in the foodstuff liquid is collected in the separation part.
The food processor with a slag collecting function according to claim 11, 12, 14, 16 or 17, wherein: the pump mechanism is selected from at least one of (1), (2) or (3):

(1) the pump mechanism is a baffle plate which is arranged at the flow guide opening and used for guiding the feed liquid to enter the flow guide part;

(2) the pump mechanism is as follows: any one or more of at least one bulge, at least one pit, at least one fin, at least one convex edge, at least one fold, at least one axial flow blade, at least one centrifugal blade, at least one mixed flow blade, at least one spiral blade, at least one paddle blade, at least one axial flow impeller, at least one centrifugal impeller, at least one mixed flow impeller, at least one spiral impeller or at least one paddle impeller which are arranged on the inner side wall of the flow guide part, the outer side wall of the flow guide part, the inner side wall of the separation part or the outer side wall of the separation part;

(3) the pump mechanism is as follows: the flow guide part or the separation part is internally provided with a flow guide part which is fixedly or detachably connected with the cutter shaft or the cutter: any one or any plurality of at least one axial flow blade, at least one centrifugal blade, at least one mixed flow blade, at least one helical blade, at least one axial flow impeller, at least one centrifugal impeller, at least one mixed flow impeller or at least one helical impeller.
The food processor with a slag collecting function according to claim 11, 12, 14, 16 or 17, wherein: the relation between the machine body and the barrel body is selected from any one of the following (1) or (2):

(1) the motor is arranged in the machine body below or on the side of the barrel body, the motor directly or through a transmission mechanism drives the cutter to rotate, and the upper cover arranged at the upper end of the barrel body forms a sealing mechanism at the top of the barrel body;

or

(2) The motor is arranged in the machine body above the barrel body, the motor directly drives the cutter to rotate or drives the cutter to rotate through the transmission mechanism, and the lower end of the machine body forms a sealing mechanism at the top of the barrel body.
The food processor with a slag collecting function according to claim 11, 12, 14, 16 or 17, wherein:

when the separation part is arranged above the flow guide part, a cutter is arranged above the separation part, in the flow guide part or below the flow guide part;

or

When the separation part is arranged below the flow guide part, a cutter is arranged above the flow guide part, in the separation part or below the separation part;

or

When the outer side wall of the flow guide part is provided with the separation part, a cutter is arranged above, in or below the flow guide part;

or

When the separation part is arranged on the inner side wall of the flow guide part, a cutter is arranged above, in or below the flow guide part;

or

When the separation part is one part of the flow guide part, a cutter is arranged above the flow guide part, in the flow guide part or below the flow guide part.
The utility model provides a food processor with function is collected to material sediment, includes motor, arbor, cutter, staving and organism, and the motor setting is in the organism, and motor drive is located the cutter of staving, and the cutter is handled the foodstuff in the staving when rotating and is formed the foodstuff liquid that has the material sediment, its characterized in that: a flow guide part and a separation part are arranged in the barrel body, and the flow guide part and the separation part are of an integral connection structure, a fixed connection structure or a detachable connection structure;

the flow guide part is provided with a flow guide port, the separation part is provided with a liquid outlet hole, and the flow guide part is communicated with the separation part;

when the cutter rotates towards any one direction of the forward rotation direction or the reverse rotation direction, the flow guide component rotates synchronously, asynchronously, reversely or freely along with the rotation of the cutter;

the food processor barrel body also comprises a pump-like mechanism;

when the cutter rotates towards any one of the positive rotation direction or the reverse rotation direction, food liquid in the barrel can enter the flow guide component from the flow guide port under the driving of the cutter and/or the driving of the similar pump mechanism and enter the separation part through the flow channel in the flow guide component, the liquid in the food liquid is discharged out of the separation part from the liquid outlet hole, and at least one part of slag in the food liquid is collected in the separation part.
The food processor with a slag collecting function according to claim 21, wherein: the side wall, the bottom surface or the top surface of the flow guide component is provided with the flow guide opening, and the installation mode of the flow guide component is selected from any one of the following (1), (2), (3), (4) or (5):

(1) the flow guide component and the cutter are of an integral connecting structure, a fixed connecting structure or a detachable connecting structure, and the flow guide component and the cutter rotate synchronously;

or

(2) The flow guide part and the cutter shaft are of an integral connecting structure, a fixed connecting structure or a detachable connecting structure, and the flow guide part and the cutter shaft synchronously rotate;

or

(3) The diversion component and the cutter shaft are in a rotary connection structure, and when the cutter shaft rotates, the diversion component freely rotates relative to the cutter shaft, synchronously rotates with the cutter shaft, asynchronously rotates with the cutter shaft or reversely rotates with the cutter shaft;

or

(4) The bottom in the barrel body is provided with a cutter holder for mounting a cutter, the flow guide part and the top in the barrel body, the inner side wall of the barrel body, the bottom in the barrel body or the cutter holder in the barrel body are in a rotary connection structure, and when the cutter shaft rotates, the flow guide part freely rotates relative to the cutter shaft, synchronously rotates with the cutter shaft, asynchronously rotates with the cutter shaft or reversely rotates with the cutter shaft;

or

(5) The upper end of the barrel body is provided with a sealing mechanism, the flow guide part is rotatably connected with the sealing mechanism of the barrel body, and when the cutter shaft rotates, the flow guide part freely rotates relative to the cutter shaft, synchronously rotates with the cutter shaft, asynchronously rotates with the cutter shaft or reversely rotates with the cutter shaft.
A food processor with a slag collecting function according to claim 21 or 22, wherein: the relation between the separation part and the flow guide member is selected from any one of (1), (2) or (3):

(1) the separation part is arranged at the upper end, the lower end, the middle part or the two ends of the flow guide part and synchronously rotates with the flow guide part;

(2) the separation part is arranged on the outer side wall of the flow guide part and synchronously rotates with the flow guide part;

(3) the separation part is arranged on the inner side wall of the flow guide component and synchronously rotates with the flow guide component.
A food processor with a slag collecting function according to claim 23, wherein: the side wall, the top surface or the bottom surface of the separation part is provided with a liquid outlet, a filter screen is arranged at the liquid outlet, and the filter screen is arranged in the separation part or the liquid outlet forms the filter screen; the filter screen is arranged at the flow guide opening, and the filter holes of the filter screen at the flow guide opening are larger than the filter holes of the filter screen at the liquid outlet.
The food processor with a slag collecting function according to claim 21, wherein: the motor drives a cutter positioned in the barrel body through a cutter shaft;

the flow guide part is of a hollow structure and is provided with a flow guide port, the separation part is of a hollow structure and is provided with a liquid outlet hole, and the hollow structure of the flow guide part is communicated with the hollow structure of the separation part;

the diversion port is positioned below the liquid level of the feed liquid, or the liquid level of the feed liquid is higher than at least one part of the diversion port on the diversion component;

when the cutter rotates towards any one of the positive rotation direction or the reverse rotation direction, food liquid in the barrel can enter the flow guide part of the hollow structure from the flow guide port under the driving of the cutter and/or the driving of the similar pump mechanism and enter the separation part of the hollow structure through the flow channel in the flow guide part, liquid in the food liquid is discharged out of the separation part from the liquid outlet hole, and at least part of material slag in the food liquid is collected in the separation part.
A food processor with a sludge collection function according to claim 21, 22, 24 or 25, wherein: the pump mechanism is selected from at least one of (1) or (2):

(1) the pump mechanism is as follows: any one or more of at least one bulge, at least one pit, at least one fin, at least one convex edge, at least one fold, at least one centrifugal blade, at least one mixed flow blade, at least one centrifugal impeller or at least one mixed flow impeller is arranged on the inner side wall of the flow guide part, the outer side wall of the flow guide part, the inner side wall of the separation part or the outer side wall of the separation part;

(2) the pump mechanism is as follows: the flow guide part or the separation part is internally provided with a flow guide part which is fixedly or detachably connected with the cutter shaft or the cutter: any one or any plurality of at least one centrifugal blade, at least one mixed flow blade, at least one centrifugal impeller or at least one mixed flow impeller.
A food processor with a sludge collection function according to claim 21, 22, 24 or 25, wherein: the relation between the machine body and the barrel body is selected from any one of the following (1) or (2):

(1) the motor is arranged in the machine body below or on the side of the barrel body, the motor directly or through a transmission mechanism drives the cutter to rotate, and the upper cover arranged at the upper end of the barrel body forms a sealing mechanism at the top of the barrel body;

or

(2) The motor is arranged in the machine body above the barrel body, the motor directly drives the cutter to rotate or drives the cutter to rotate through the transmission mechanism, and the lower end of the machine body forms a sealing mechanism at the top of the barrel body.
A food processor with a sludge collection function according to claim 21, 22, 24 or 25, wherein:

when the separation part is arranged above the flow guide part, a cutter is arranged above the separation part, in the flow guide part or below the flow guide part;

or

When the separation part is arranged below the flow guide part, a cutter is arranged above the flow guide part, in the separation part or below the separation part;

or

When the outer side wall of the flow guide part is provided with the separation part, a cutter is arranged above, in or below the flow guide part;

or

When the separation part is arranged on the inner side wall of the flow guide part, a cutter is arranged above, in or below the flow guide part;

or

When the separation part is one part of the flow guide part, a cutter is arranged above the flow guide part, in the flow guide part or below the flow guide part.
The utility model provides a food processor with function is collected to material sediment, includes motor, arbor, cutter, staving and organism, and the motor setting is in the organism, and motor drive is located the cutter of staving, and the cutter is handled the foodstuff in the staving when rotating and is formed the foodstuff liquid that has the material sediment, its characterized in that: a flow guide part and a separation part are arranged in the barrel body, and the flow guide part and the separation part are of an integral connection structure, a fixed connection structure or a detachable connection structure;

the flow guide part is provided with a flow guide port, the separation part is provided with a liquid outlet hole, and the flow guide part is communicated with the separation part;

when the cutter rotates towards any one direction of the forward rotation direction or the reverse rotation direction, the flow guide component rotates synchronously, asynchronously, reversely or freely along with the rotation of the cutter;

when the cutter reverses, foodstuff liquid in the barrel enters the diversion part from the diversion port under the drive of the cutter and enters the separation part through the flow channel in the diversion part, liquid in the foodstuff liquid is discharged out of the liquid outlet hole outside the separation part, and at least part of material slag in the foodstuff liquid is collected in the separation part.
A food processor with a slag collection function according to claim 29, wherein: the side wall, the bottom surface or the top surface of the flow guide component is provided with the flow guide opening, and the installation mode of the flow guide component is selected from any one of the following (1), (2), (3), (4) or (5):

(1) the flow guide component and the cutter are of an integral connecting structure, a fixed connecting structure or a detachable connecting structure, and the flow guide component and the cutter rotate synchronously;

or

(2) The flow guide part and the cutter shaft are of an integral connecting structure, a fixed connecting structure or a detachable connecting structure, and the flow guide part and the cutter shaft synchronously rotate;

or

(3) The diversion component and the cutter shaft are in a rotary connection structure, and when the cutter shaft rotates, the diversion component freely rotates relative to the cutter shaft, synchronously rotates with the cutter shaft, asynchronously rotates with the cutter shaft or reversely rotates with the cutter shaft;

or

(4) The bottom in the barrel body is provided with a cutter holder for mounting a cutter, the flow guide part and the top in the barrel body, the inner side wall of the barrel body, the bottom in the barrel body or the cutter holder in the barrel body are in a rotary connection structure, and when the cutter shaft rotates, the flow guide part freely rotates relative to the cutter shaft, synchronously rotates with the cutter shaft, asynchronously rotates with the cutter shaft or reversely rotates with the cutter shaft;

or

(5) The upper end of the barrel body is provided with a sealing mechanism, the flow guide part is rotatably connected with the sealing mechanism of the barrel body, and when the cutter shaft rotates, the flow guide part freely rotates relative to the cutter shaft, synchronously rotates with the cutter shaft, asynchronously rotates with the cutter shaft or reversely rotates with the cutter shaft.
A food processor with a slag collection function according to claim 29, wherein: the motor drives a cutter positioned in the barrel body through a cutter shaft;

the flow guide part is of a hollow structure and is provided with a flow guide port, the separation part is of a hollow structure and is provided with a liquid outlet hole, and the hollow structure of the flow guide part is communicated with the hollow structure of the separation part;

the diversion port is positioned below the liquid level of the feed liquid, or the liquid level of the feed liquid is higher than at least one part of the diversion port on the diversion component;

when the cutter rotates forwards, the foodstuff liquid in the barrel is blocked outside the separating part by the cutter; when the cutter reverses, foodstuff liquid in the barrel enters the flow guide part of the hollow structure from the flow guide port under the driving of the cutter and enters the separation part of the hollow structure through the flow channel in the flow guide part, liquid in the foodstuff liquid is discharged out of the separation part from the liquid outlet hole, and at least part of material slag in the foodstuff liquid is collected in the separation part.
The utility model provides a food processor with function is collected to material sediment, includes motor, arbor, cutter, staving and organism, and the motor setting is in the organism, and motor drive is located the cutter of staving, and the cutter is handled the foodstuff in the staving when rotating and is formed the foodstuff liquid that has the material sediment, its characterized in that: a flow guide part and a separation part are arranged in the barrel body, and the flow guide part and the separation part are of an integral connecting structure, a fixed connecting structure, a detachable connecting structure or a rotary connecting structure;

the flow guide part is provided with a flow guide port, the separation part is provided with a liquid outlet hole, and the flow guide part is communicated with the separation part;

the separation part and the cutter or the cutter shaft are of an integral connecting structure, a fixed connecting structure or a detachable connecting structure, and when the cutter rotates towards any one of the forward rotation direction or the reverse rotation direction, the separation part rotates synchronously along with the rotation of the cutter; or the separating part and the cutter or the cutter shaft are in a rotary connection structure, and when the cutter rotates in any one of the forward rotation direction or the reverse rotation direction, the separating part rotates synchronously, asynchronously, reversely or freely along with the rotation of the cutter;

the food processor barrel body also comprises a pump-like mechanism;

when the cutter is reversed, foodstuff liquid in the barrel is driven by the cutter and/or the similar pump mechanism to enter the flow guide part from the flow guide port and enter the separation part through the flow channel in the flow guide part, liquid in the foodstuff liquid is discharged out of the separation part from the liquid outlet hole, and at least part of material slag in the foodstuff liquid is collected in the separation part.
A food processor with a slag collection function according to claim 32, wherein: the motor drives a cutter positioned in the barrel body through a cutter shaft;

the flow guide part is of a hollow structure and is provided with a flow guide port, the separation part is of a hollow structure and is provided with a liquid outlet hole, and the hollow structure of the flow guide part is communicated with the hollow structure of the separation part;

the diversion port is positioned below the liquid level of the feed liquid, or the liquid level of the feed liquid is higher than at least one part of the diversion port on the diversion component;

when the cutter rotates forwards, the foodstuff liquid in the barrel is blocked outside the separation part by the cutter and/or the pump mechanism; when the cutter is reversed, foodstuff liquid in the barrel enters the flow guide part of the hollow structure from the flow guide port under the driving of the cutter and/or the similar pump mechanism and enters the separation part of the hollow structure through the flow channel in the flow guide part, liquid in the foodstuff liquid is discharged out of the separation part from the liquid outlet hole, and at least part of material slag in the foodstuff liquid is collected in the separation part.
A food processor with a slag collecting function according to claim 32 or 33, characterized in that: the pump mechanism is selected from at least one of (1) or (2):

(1) the pump mechanism is as follows: any one or more of at least one axial flow blade, at least one helical blade, at least one axial flow impeller or at least one helical impeller is arranged on the inner side wall of the flow guide component, the outer side wall of the flow guide component, the inner side wall of the separation part or the outer side wall of the separation part;

(2) the pump mechanism is as follows: the flow guide part or the separation part is internally provided with a flow guide part which is fixedly or detachably connected with the cutter shaft or the cutter: any one or any combination of at least one axial flow blade, at least one helical blade, at least one axial flow impeller, or at least one helical impeller.
The utility model provides a food processor with function is collected to material sediment, includes motor, arbor, cutter, staving and organism, and the motor setting is in the organism, and motor drive is located the cutter of staving, and the cutter is handled the foodstuff in the staving when rotating and is formed the foodstuff liquid that has the material sediment, its characterized in that: a flow guide part and a separation part are arranged in the barrel body, and the flow guide part and the separation part are of an integral connecting structure, a fixed connecting structure, a detachable connecting structure or a rotary connecting structure;

the flow guide part is provided with a flow guide port, the separation part is provided with a liquid outlet hole, and the flow guide part is communicated with the separation part;

the separation part and the cutter or the cutter shaft are of an integral connecting structure, a fixed connecting structure or a detachable connecting structure, and when the cutter rotates towards any one of the forward rotation direction or the reverse rotation direction, the separation part rotates synchronously along with the rotation of the cutter; or the separating part and the cutter or the cutter shaft are in a rotary connection structure, and when the cutter rotates in any one of the forward rotation direction or the reverse rotation direction, the separating part rotates synchronously, asynchronously, reversely or freely along with the rotation of the cutter;

a baffle is arranged at the flow guide opening of the flow guide part and used for preventing the foodstuff liquid from entering the flow guide part when the cutter rotates forwards; when the cutter rotates reversely, the baffle plate removes the barrier of the foodstuff liquid, and the foodstuff liquid enters the flow guide part;

the food processor barrel body also comprises a pump-like mechanism;

when the cutter is reversed, foodstuff liquid in the barrel is driven by the cutter and/or the similar pump mechanism to enter the flow guide part from the flow guide port and enter the separation part through the flow channel in the flow guide part, liquid in the foodstuff liquid is discharged out of the separation part from the liquid outlet hole, and at least part of material slag in the foodstuff liquid is collected in the separation part.
A food processor with a slag collection function according to claim 35, wherein: the side wall, the bottom surface or the top surface of the flow guide component is provided with the flow guide opening, and the baffle structure at the flow guide opening is selected from any one of (1), (2) or (3):

(1) the separation blade tilts towards the inner side or the outer side of the flow guide component and extends towards the direction of the flow guide port, the separation blade prevents the food liquid from entering the flow guide component when the cutter rotates forwards, and the separation blade guides the food liquid to enter the flow guide component when the cutter rotates backwards;

or

(2) The baffle piece tilts towards the inner side or the outer side of the flow guide part and extends towards the direction opposite to the flow guide port, the baffle piece blocks the feed liquid from entering the flow guide part when the cutter rotates forwards, and the baffle piece blocks the feed liquid from entering the flow guide part when the cutter rotates backwards;

or

(3) The separation blade is movably arranged, the separation blade covers the flow guide opening when the cutter rotates forwards and blocks the food liquid from entering the flow guide part, and the separation blade is opened when the cutter rotates backwards and enables the food liquid to enter the flow guide part.
A food processor with a slag collection function according to claim 35, wherein: the side wall, the bottom surface or the top surface of the flow guide component is provided with the flow guide opening, the flow guide component at the flow guide opening is provided with a baffle plate, and the baffle plate structure is selected from any one of the following (1), (2), (3) or (4):

(1) the baffle plate and the flow guide component are fixedly arranged, the baffle plate tilts towards the inner side or the outer side of the flow guide component, the tilting angle of the baffle plate is larger than 0 degree and smaller than 90 degrees relative to the plane of the flow guide component where the tilting position of the baffle plate is located or the section of the curved surface of the flow guide component where the tilting position of the baffle plate is located, and the tilted baffle plate extends towards the flow guide opening; in the tilting angle range of the baffle plate, the tilting directions of the baffle plate correspond to the reverse rotation directions of the cutter; when the baffle plate rotates reversely along with the cutter, the guide foodstuff liquid enters the flow guide part; when the baffle plate rotates forwards along with the cutter, the food liquid is prevented from entering the flow guide part;

or

(2) The baffle plate and the flow guide component are fixedly arranged, the baffle plate tilts towards the inner side or the outer side of the flow guide component, the tilting angle of the baffle plate is more than or equal to 90 degrees and less than 180 degrees relative to the plane of the flow guide component where the tilting position of the baffle plate is located or the tangent plane of the curved surface of the flow guide component where the tilting position of the baffle plate is located, and the tilted baffle plate extends towards the opposite direction or the vertical direction of the flow guide port; in the tilting angle range of the baffle plate, the tilting direction of the baffle plate corresponds to the positive rotation direction of the cutter or is vertical to the positive rotation direction of the cutter; when the baffle plate rotates forwards along with the cutter, the food liquid is prevented from entering the flow guide part; when the baffle plate rotates reversely along with the cutter, the foodstuff liquid enters the flow guide part;

or

(3) The separation blade and the diversion part are movably arranged, and the separation blade selectively covers the diversion opening or is movably opened by tilting: the movable tilting opening angle is larger than 0 degree and smaller than 90 degrees relative to the plane of the flow guide component where the blocking piece tilting position is located or the section of the curved surface of the flow guide component where the blocking piece tilting position is located, and the movably tilting blocking piece extends towards the flow guide opening; in the angle range of the movable tilting opening of the blocking piece, the movable tilting direction of the blocking piece corresponds to the reverse rotation direction of the cutter; when the baffle plate rotates reversely along with the cutter, the baffle plate is movably tilted and opened, and the baffle plate guides the foodstuff liquid to enter the flow guide part; when the baffle plate rotates forwards along with the cutter, the baffle plate covers the flow guide opening and blocks the food liquid from entering the flow guide part;

or

(4) The separation blade and the diversion part are movably arranged, and the separation blade selectively covers the diversion opening or is movably opened by tilting: the angle of the movable tilting opening of the baffle plate is more than or equal to 90 degrees and less than 180 degrees relative to the plane of the flow guide component where the position of the baffle plate tilting is located or the tangent plane of the curved surface of the flow guide component where the position of the baffle plate tilting is located, and the movably tilting baffle plate extends towards the opposite direction or the vertical direction of the flow guide port; in the angle range of the movable tilting opening of the blocking sheet, the movable tilting direction of the blocking sheet corresponds to the positive rotation direction of the cutter or is vertical to the positive rotation direction of the cutter; when the separation blade rotates forwards along with the cutter, the separation blade covers the flow guide opening and prevents the food liquid from entering the flow guide part; when the separation blade rotates reversely along with the cutter, the separation blade is movably tilted and opened, and foodstuff liquid enters the flow guide component.
A food processor with a slag collection function according to claim 35, wherein: the motor drives a cutter positioned in the barrel body through a cutter shaft;

the flow guide part is of a hollow structure and is provided with a flow guide port, the separation part is of a hollow structure and is provided with a liquid outlet hole, and the hollow structure of the flow guide part is communicated with the hollow structure of the separation part;

the diversion port is positioned below the liquid level of the feed liquid, or the liquid level of the feed liquid is higher than at least one part of the diversion port on the diversion component;

when the cutter is reversed, foodstuff liquid in the barrel enters the flow guide part of the hollow structure from the flow guide port under the driving of the cutter and/or the similar pump mechanism and enters the separation part of the hollow structure through the flow channel in the flow guide part, liquid in the foodstuff liquid is discharged out of the separation part from the liquid outlet hole, and at least part of material slag in the foodstuff liquid is collected in the separation part.
A food processor with a sludge collection function according to claim 35, 36, 37 or 38, wherein: the pump mechanism is selected from at least one of (1), (2) or (3):

(1) the pump mechanism is a baffle plate which is arranged at the flow guide opening and used for guiding the feed liquid to enter the flow guide part;

(2) the pump mechanism is as follows: any one or more of at least one bulge, at least one pit, at least one fin, at least one convex edge, at least one fold, at least one axial flow blade, at least one centrifugal blade, at least one mixed flow blade, at least one spiral blade, at least one paddle blade, at least one axial flow impeller, at least one centrifugal impeller, at least one mixed flow impeller, at least one spiral impeller or at least one paddle impeller which are arranged on the inner side wall of the flow guide part, the outer side wall of the flow guide part, the inner side wall of the separation part or the outer side wall of the separation part;

(3) the pump mechanism is as follows: the flow guide part or the separation part is internally provided with a flow guide part which is fixedly or detachably connected with the cutter shaft or the cutter: any one or any plurality of at least one axial flow blade, at least one centrifugal blade, at least one mixed flow blade, at least one helical blade, at least one axial flow impeller, at least one centrifugal impeller, at least one mixed flow impeller or at least one helical impeller.
The utility model provides a food processor with function is collected to material sediment, includes motor, arbor, cutter, staving and organism, and the motor setting is in the organism, and motor drive is located the cutter of staving, and the cutter is handled the foodstuff in the staving when rotating and is formed the feed liquid that has the material sediment, its characterized in that: a flow guide part and a separation part are arranged in the barrel body, and the flow guide part and the separation part are of an integral connecting structure, a fixed connecting structure, a detachable connecting structure or a rotary connecting structure;

the flow guide part is provided with a flow guide port, the separation part is provided with a liquid outlet hole, and the flow guide part is communicated with the separation part;

the separation part and the cutter or the cutter shaft are of an integral connecting structure, a fixed connecting structure or a detachable connecting structure, and when the cutter rotates towards any one of the forward rotation direction or the reverse rotation direction, the separation part rotates synchronously along with the rotation of the cutter; or the separating part and the cutter or the cutter shaft are in a rotary connection structure, and when the cutter rotates in any one of the forward rotation direction or the reverse rotation direction, the separating part rotates synchronously, asynchronously, reversely or freely along with the rotation of the cutter;

the food processor barrel body also comprises a pump-like mechanism;

when the cutter rotates towards any one of the positive rotation direction or the reverse rotation direction, food liquid in the barrel can enter the flow guide component from the flow guide port under the driving of the cutter and/or the driving of the similar pump mechanism and enter the separation part through the flow channel in the flow guide component, the liquid in the food liquid is discharged out of the separation part from the liquid outlet hole, and at least one part of slag in the food liquid is collected in the separation part.
A food processor with a slag collection function according to claim 40, wherein: the side wall, the top surface or the bottom surface of the separation part is provided with a liquid outlet, a filter screen is arranged at the liquid outlet, and the filter screen is arranged in the separation part or the liquid outlet forms the filter screen; the filter screen is arranged at the flow guide opening, and the filter holes of the filter screen at the flow guide opening are larger than the filter holes of the filter screen at the liquid outlet.
A food processor with a slag collection function according to claim 40, wherein: the motor drives a cutter positioned in the barrel body through a cutter shaft;

the flow guide part is of a hollow structure and is provided with a flow guide port, the separation part is of a hollow structure and is provided with a liquid outlet hole, and the hollow structure of the flow guide part is communicated with the hollow structure of the separation part;

the diversion port is positioned below the liquid level of the feed liquid, or the liquid level of the feed liquid is higher than at least one part of the diversion port on the diversion component;

when the cutter rotates towards any one of the positive rotation direction or the reverse rotation direction, food liquid in the barrel can enter the flow guide part of the hollow structure from the flow guide port under the driving of the cutter and/or the driving of the similar pump mechanism and enter the separation part of the hollow structure through the flow channel in the flow guide part, liquid in the food liquid is discharged out of the separation part from the liquid outlet hole, and at least part of material slag in the food liquid is collected in the separation part.
A food processor with a residue collection function according to claim 40, 41 or 42, wherein: the pump mechanism is selected from at least one of (1) or (2):

(1) the pump mechanism is as follows: any one or more of at least one bulge, at least one pit, at least one fin, at least one convex edge, at least one fold, at least one centrifugal blade, at least one mixed flow blade, at least one centrifugal impeller or at least one mixed flow impeller is arranged on the inner side wall of the flow guide part, the outer side wall of the flow guide part, the inner side wall of the separation part or the outer side wall of the separation part;

(2) the pump mechanism is as follows: the flow guide part or the separation part is internally provided with a flow guide part which is fixedly or detachably connected with the cutter shaft or the cutter: any one or any plurality of at least one centrifugal blade, at least one mixed flow blade, at least one centrifugal impeller or at least one mixed flow impeller.
The utility model provides a food processor with function is collected to material sediment, includes motor, arbor, cutter, staving and organism, and the motor setting is in the organism, and motor drive is located the cutter of staving, and the cutter is handled the foodstuff in the staving when rotating and is formed the foodstuff liquid that has the material sediment, its characterized in that: a flow guide part and a separation part are arranged in the barrel body, and the flow guide part and the separation part are of an integral connection structure, a fixed connection structure or a detachable connection structure;

the flow guide part is provided with a flow guide port, the separation part is provided with a liquid outlet hole, and the flow guide part is communicated with the separation part;

the separation part and the cutter or the cutter shaft are of an integral connecting structure, a fixed connecting structure or a detachable connecting structure, and when the cutter rotates towards any one of the forward rotation direction or the reverse rotation direction, the separation part rotates synchronously along with the rotation of the cutter; or the separating part and the cutter or the cutter shaft are in a rotary connection structure, and when the cutter rotates in any one of the forward rotation direction or the reverse rotation direction, the separating part rotates synchronously, asynchronously, reversely or freely along with the rotation of the cutter;

when the cutter reverses, foodstuff liquid in the barrel enters the diversion part from the diversion port under the drive of the cutter and enters the separation part through the flow channel in the diversion part, liquid in the foodstuff liquid is discharged out of the liquid outlet hole outside the separation part, and at least part of material slag in the foodstuff liquid is collected in the separation part.
A food processor with a slag collection function according to claim 44, wherein: the motor drives a cutter positioned in the barrel body through a cutter shaft;

the flow guide part is of a hollow structure and is provided with a flow guide port, the separation part is of a hollow structure and is provided with a liquid outlet hole, and the hollow structure of the flow guide part is communicated with the hollow structure of the separation part;

the diversion port is positioned below the liquid level of the feed liquid, or the liquid level of the feed liquid is higher than at least one part of the diversion port on the diversion component;

when the cutter rotates forwards, the foodstuff liquid in the barrel is blocked outside the separating part by the cutter; when the cutter reverses, foodstuff liquid in the barrel enters the flow guide part of the hollow structure from the flow guide port under the driving of the cutter and enters the separation part of the hollow structure through the flow channel in the flow guide part, liquid in the foodstuff liquid is discharged out of the separation part from the liquid outlet hole, and at least part of material slag in the foodstuff liquid is collected in the separation part.
The utility model provides a food processor with function is collected to material sediment, includes motor, arbor, cutter, staving and organism, and the motor setting is in the organism, and motor drive is located the cutter of staving, and the cutter is handled the foodstuff in the staving when rotating and is formed the foodstuff liquid that has the material sediment, its characterized in that: a flow guide part and a separation part are arranged in the barrel body,

the flow guide part is provided with a flow guide port, the separation part is provided with a liquid outlet hole, the flow guide part and the separation part are arranged in a split way, and the flow guide part and the separation part are opposite,

the separation part and the cutter or the cutter shaft are of an integral connecting structure, a fixed connecting structure or a detachable connecting structure, and when the cutter rotates towards any one of the forward rotation direction or the reverse rotation direction, the separation part rotates synchronously along with the rotation of the cutter; or the separating part and the cutter or the cutter shaft are in a rotary connection structure, and when the cutter rotates in any one of the forward rotation direction or the reverse rotation direction, the separating part rotates synchronously, asynchronously, reversely or freely along with the rotation of the cutter;

the food processor barrel body also comprises a pump-like mechanism;

when the cutter reverses, foodstuff liquid in the barrel enters the flow guide part from the flow guide port under the driving of the cutter and/or the driving of the similar pump mechanism and enters the separation part through the flow channel in the flow guide part, liquid in the foodstuff liquid is discharged out of the separation part from the liquid outlet hole, and at least part of material slag in the foodstuff liquid is collected in the separation part.
A food processor with a slag collection function according to claim 46, wherein: the motor drives a cutter positioned in the barrel body through a cutter shaft;

the flow guide component is of a hollow structure and is provided with a flow guide port, the separation part is of a hollow structure and is provided with a liquid outlet hole, the flow guide component and the separation part are arranged in a split mode, the flow guide component and the separation part are opposite, the upper end of the flow guide component is provided with an outflow port, the lower end of the separation part is provided with a liquid inlet, and the outflow port of the flow guide component corresponds to the liquid inlet of the separation part in position;

the diversion port is positioned below the liquid level of the feed liquid, or the liquid level of the feed liquid is higher than at least one part of the diversion port on the diversion component;

when the cutter rotates forwards, the foodstuff liquid in the barrel is blocked outside the separation part by the cutter and/or the pump mechanism; when the cutter is reversed, food liquid in the barrel enters the flow guide part of the hollow structure from the flow guide port under the driving of the cutter and/or the driving of the similar pump mechanism, passes through the flow channel in the flow guide part and then enters the separation part of the hollow structure through the outflow port and the liquid inlet, the liquid in the food liquid is discharged out of the separation part from the liquid outlet hole, and at least one part of slag in the food liquid is collected in the separation part.
A food processor with a residue collection function according to claim 46 or 47, wherein: the pump mechanism is selected from at least one of (1) or (2):

(1) the pump mechanism is as follows: any one or more of at least one axial flow blade, at least one helical blade, at least one axial flow impeller or at least one helical impeller is arranged on the inner side wall of the flow guide component, the outer side wall of the flow guide component, the inner side wall of the separation part or the outer side wall of the separation part;

(2) the pump mechanism is as follows: the flow guide part or the separation part is internally provided with a flow guide part which is fixedly or detachably connected with the cutter shaft or the cutter: any one or any combination of at least one axial flow blade, at least one helical blade, at least one axial flow impeller, or at least one helical impeller.
The utility model provides a food processor with function is collected to material sediment, includes motor, arbor, cutter, staving and organism, and the motor setting is in the organism, and motor drive is located the cutter of staving, and the cutter is handled the foodstuff in the staving when rotating and is formed the foodstuff liquid that has the material sediment, its characterized in that: a flow guide part and a separation part are arranged in the barrel body,

the flow guide part is provided with a flow guide port, the separation part is provided with a liquid outlet hole, the flow guide part and the separation part are arranged in a split way, and the flow guide part and the separation part are opposite,

the separation part and the cutter or the cutter shaft are of an integral connecting structure, a fixed connecting structure or a detachable connecting structure, and when the cutter rotates towards any one of the forward rotation direction or the reverse rotation direction, the separation part rotates synchronously along with the rotation of the cutter; or the separating part and the cutter or the cutter shaft are in a rotary connection structure, and when the cutter rotates in any one of the forward rotation direction or the reverse rotation direction, the separating part rotates synchronously, asynchronously, reversely or freely along with the rotation of the cutter;

a baffle is arranged at the flow guide opening of the flow guide part and used for preventing the foodstuff liquid from entering the flow guide part when the cutter rotates forwards; when the cutter rotates reversely, the baffle plate removes the barrier of the foodstuff liquid, and the foodstuff liquid enters the flow guide part;

the food processor barrel body also comprises a pump-like mechanism;

when the cutter is reversed, foodstuff liquid in the barrel is driven by the cutter and/or the similar pump mechanism to enter the flow guide part from the flow guide port and enter the separation part through the flow channel in the flow guide part, liquid in the foodstuff liquid is discharged out of the separation part from the liquid outlet hole, and at least part of material slag in the foodstuff liquid is collected in the separation part.
A food processor with a slag collection function according to claim 49, wherein: the motor drives a cutter positioned in the barrel body through a cutter shaft;

the flow guide component is of a hollow structure and is provided with a flow guide port, the separation part is of a hollow structure and is provided with a liquid outlet hole, the flow guide component and the separation part are arranged in a split mode, the flow guide component and the separation part are opposite, the upper end of the flow guide component is provided with an outflow port, the lower end of the separation part is provided with a liquid inlet, and the outflow port of the flow guide component corresponds to the liquid inlet of the separation part in position;

the diversion port is positioned below the liquid level of the feed liquid, or the liquid level of the feed liquid is higher than at least one part of the diversion port on the diversion component;

when the cutter is reversed, foodstuff liquid in the barrel enters the flow guide part of the hollow structure from the flow guide port under the driving of the cutter and/or the similar pump mechanism and enters the separation part of the hollow structure through the flow channel in the flow guide part, liquid in the foodstuff liquid is discharged out of the separation part from the liquid outlet hole, and at least part of material slag in the foodstuff liquid is collected in the separation part.
A food processor with a slag collection function according to claim 49 or 50, wherein: the pump mechanism is selected from at least one of (1), (2) or (3):

(1) the pump mechanism is a baffle plate which is arranged at the flow guide opening and used for guiding the feed liquid to enter the flow guide part;

(2) the pump mechanism is as follows: any one or more of at least one bulge, at least one pit, at least one fin, at least one convex edge, at least one fold, at least one axial flow blade, at least one centrifugal blade, at least one mixed flow blade, at least one spiral blade, at least one paddle blade, at least one axial flow impeller, at least one centrifugal impeller, at least one mixed flow impeller, at least one spiral impeller or at least one paddle impeller which are arranged on the inner side wall of the flow guide part, the outer side wall of the flow guide part, the inner side wall of the separation part or the outer side wall of the separation part;

(3) the pump mechanism is as follows: the flow guide part or the separation part is internally provided with a flow guide part which is fixedly or detachably connected with the cutter shaft or the cutter: any one or any plurality of at least one axial flow blade, at least one centrifugal blade, at least one mixed flow blade, at least one helical blade, at least one axial flow impeller, at least one centrifugal impeller, at least one mixed flow impeller or at least one helical impeller.
The utility model provides a food processor with function is collected to material sediment, includes motor, arbor, cutter, staving and organism, and the motor setting is in the organism, and motor drive is located the cutter of staving, and the cutter is handled the foodstuff in the staving when rotating and is formed the foodstuff liquid that has the material sediment, its characterized in that: a flow guide part and a separation part are arranged in the barrel body,

the flow guide part is provided with a flow guide port, the separation part is provided with a liquid outlet hole, the flow guide part and the separation part are arranged in a split way, and the flow guide part and the separation part are opposite,

the separation part and the cutter or the cutter shaft are of an integral connecting structure, a fixed connecting structure or a detachable connecting structure, and when the cutter rotates towards any one of the forward rotation direction or the reverse rotation direction, the separation part rotates synchronously along with the rotation of the cutter; or the separating part and the cutter or the cutter shaft are in a rotary connection structure, and when the cutter rotates in any one of the forward rotation direction or the reverse rotation direction, the separating part rotates synchronously, asynchronously, reversely or freely along with the rotation of the cutter;

the food processor barrel body also comprises a pump-like mechanism;

when the cutter rotates towards any one of the positive rotation direction or the reverse rotation direction, food liquid in the barrel can enter the flow guide component from the flow guide port under the driving of the cutter and/or the driving of the similar pump mechanism and enter the separation part through the flow channel in the flow guide component, the liquid in the food liquid is discharged out of the separation part from the liquid outlet hole, and at least one part of material separating slag in the food liquid is collected in the separation part.
A food processor with a slag collection function according to claim 52, wherein: the motor drives a cutter positioned in the barrel body through a cutter shaft;

the flow guide component is of a hollow structure and is provided with a flow guide port, the separation part is of a hollow structure and is provided with a liquid outlet hole, the flow guide component and the separation part are arranged in a split mode, the flow guide component and the separation part are opposite, the upper end of the flow guide component is provided with an outflow port, the lower end of the separation part is provided with a liquid inlet, and the outflow port of the flow guide component corresponds to the liquid inlet of the separation part in position;

the diversion port is positioned below the liquid level of the feed liquid, or the liquid level of the feed liquid is higher than at least one part of the diversion port on the diversion component;

when the cutter rotates towards any one of the positive rotation direction or the reverse rotation direction, food liquid in the barrel can enter the flow guide part of the hollow structure from the flow guide port under the driving of the cutter and/or the driving of the similar pump mechanism and enter the separation part of the hollow structure through the flow channel in the flow guide part, liquid in the food liquid is discharged out of the separation part from the liquid outlet hole, and at least part of material slag in the food liquid is collected in the separation part.
A food processor with a residue collection function according to claim 52 or 53, wherein: the pump mechanism is selected from at least one of (1) or (2):

(1) the pump mechanism is as follows: any one or more of at least one bulge, at least one pit, at least one fin, at least one convex edge, at least one fold, at least one centrifugal blade, at least one mixed flow blade, at least one centrifugal impeller or at least one mixed flow impeller is arranged on the inner side wall of the flow guide part, the outer side wall of the flow guide part, the inner side wall of the separation part or the outer side wall of the separation part;

(2) the pump mechanism is as follows: the flow guide part or the separation part is internally provided with a flow guide part which is fixedly or detachably connected with the cutter shaft or the cutter: any one or any plurality of at least one centrifugal blade, at least one mixed flow blade, at least one centrifugal impeller or at least one mixed flow impeller.
The utility model provides a food processor with function is collected to material sediment, includes motor, arbor, cutter, staving and organism, and the motor setting is in the organism, and motor drive is located the cutter of staving, and the cutter is handled the foodstuff in the staving when rotating and is formed the foodstuff liquid that has the material sediment, its characterized in that: a flow guide part and a separation part are arranged in the barrel body,

the flow guide part is provided with a flow guide port, the separation part is provided with a liquid outlet hole, the flow guide part and the separation part are arranged in a split way, and the flow guide part and the separation part are opposite,

the separation part and the cutter or the cutter shaft are of an integral connecting structure, a fixed connecting structure or a detachable connecting structure, and when the cutter rotates towards any one of the forward rotation direction or the reverse rotation direction, the separation part rotates synchronously along with the rotation of the cutter; or the separating part and the cutter or the cutter shaft are in a rotary connection structure, and when the cutter rotates in any one of the forward rotation direction or the reverse rotation direction, the separating part rotates synchronously, asynchronously, reversely or freely along with the rotation of the cutter;

when the cutter reverses, foodstuff liquid in the barrel enters the diversion part from the diversion port under the drive of the cutter and enters the separation part through the flow channel in the diversion part, liquid in the foodstuff liquid is discharged out of the liquid outlet hole outside the separation part, and at least part of material slag in the foodstuff liquid is collected in the separation part.
A food processor with a slag collection function according to claim 55, wherein: the motor drives a cutter positioned in the barrel body through a cutter shaft;

the flow guide component is of a hollow structure and is provided with a flow guide port, the separation part is of a hollow structure and is provided with a liquid outlet hole, the flow guide component and the separation part are arranged in a split mode, the flow guide component and the separation part are opposite, the upper end of the flow guide component is provided with an outflow port, the lower end of the separation part is provided with a liquid inlet, and the outflow port of the flow guide component corresponds to the liquid inlet of the separation part in position;

the diversion port is positioned below the liquid level of the feed liquid, or the liquid level of the feed liquid is higher than at least one part of the diversion port on the diversion component;

when the cutter rotates forwards, the foodstuff liquid in the barrel is blocked outside the separating part by the cutter; when the cutter reverses, foodstuff liquid in the barrel enters the flow guide part of the hollow structure from the flow guide port under the driving of the cutter and enters the separation part of the hollow structure through the flow channel in the flow guide part, liquid in the foodstuff liquid is discharged out of the separation part from the liquid outlet hole, and at least part of material slag in the foodstuff liquid is collected in the separation part.
The working method of the food processor with the material slag collecting function comprises a motor, a cutter shaft, a cutter, a pump mechanism, a barrel body and a machine body, wherein the motor is arranged in the machine body and drives the cutter in the barrel body, and the cutter processes foodstuff in the barrel body to form foodstuff liquid with material slag when rotating; a flow guide part and a separation part are arranged in the barrel body,

the flow guide part is of a hollow structure and is provided with a flow guide port, the separation part is of a hollow structure and is provided with a liquid outlet hole, and the hollow structure of the flow guide part is communicated with or opposite to the hollow structure of the separation part;

the separation part and the cutter shaft are in an integral connection structure, a fixed connection structure or a detachable connection structure, or the separation part and the cutter shaft are in an integral connection structure, a fixed connection structure or a detachable connection structure through a flow guide part;

when the cutter shaft rotates in any direction, the separating part rotates synchronously along with the rotation of the cutter shaft;

when the cutter rotates forwards, the foodstuff liquid in the barrel is blocked outside the separating part; when the cutter rotates reversely, foodstuff liquid in the barrel body enters the flow guide part of the hollow structure from the flow guide port under the driving of the cutter and/or the similar pump mechanism and enters the separation part of the hollow structure through the flow channel in the flow guide part;

the working method of the food processor comprises the following steps:

① feeding step, namely, putting water and food materials into the barrel body, or only putting food materials with high water content into the barrel body, and putting water-soluble food additives into the separation part;

② preprocessing step, rotating the cutter forward, crushing foodstuff by the cutter to form foodstuff liquid, wherein the foodstuff liquid is blocked outside the separation part;

③ stopping the motor;

④ collecting and processing the material slag, wherein the liquid level of the food liquid is higher than at least a part of the diversion port on the diversion part, the cutter rotates reversely, the separation part rotates synchronously with the cutter, the food liquid in the barrel body enters the diversion part with the hollow structure from the diversion port under the drive of the cutter and/or the similar pump mechanism and enters the separation part with the hollow structure through the flow passage in the diversion part, the water-soluble food additive in the separation part is dissolved in the food liquid, the material slag in the food liquid is collected in the separation part, and the liquid which is separated from the material slag and dissolved with the water-soluble food additive is discharged out of the separation part from the liquid outlet;

⑤ stopping the motor;

⑥ spin-drying the material residue, wherein the liquid level of the food liquid is below the liquid outlet of the separation part, the motor drives the cutter to rotate forward again, and the separation part rotates together with the cutter;

⑦ and (4) post-processing steps of stopping the motor and standing.
A method of operating a food processor with a sludge collection function as claimed in claim 57, wherein: the food processor is provided with an electric heating device, and the working method of the food processor comprises the following steps:

① adding material, namely, putting water and soybean into the barrel body, and putting a water-soluble coagulant into the separation part;

② preprocessing step, starting machine, pulverizing with cutter, heating with electric heater to obtain cooked soybean milk, wherein the cutter is rotated forward during pulverizing process, and the food liquid is blocked outside the separating part;

③ stopping the motor;

④ collecting and processing the dregs, wherein the motor drives the cutter to rotate reversely, the separating part rotates synchronously with the cutter, the cooked soybean milk enters the flow guide part of the hollow structure from the flow guide port under the drive of the cutter and/or the similar pump mechanism and enters the separating part of the hollow structure through the flow channel in the flow guide part, the dregs in the cooked soybean milk are collected in the separating part under the blockage of the liquid outlet hole;

⑤ stopping the motor;

⑥ spin-drying the dregs, wherein the motor drives the cutter to rotate forward again, the separating part rotates along with the cutter, the cooked soybean milk is blocked outside the separating part, and the cooked soybean milk contained in the dregs in the separating part is thrown out from the liquid outlet hole to spin-dry the dregs;

⑦ post-processing step, stopping the motor, standing to coagulate the cooked soybean milk into jellied bean curd.
The working method of the food processor with the material slag collecting function comprises a motor, a cutter shaft, a cutter, a pump mechanism, a barrel body and a machine body, wherein the motor is arranged in the machine body and drives the cutter in the barrel body, and the cutter processes foodstuff in the barrel body to form foodstuff liquid with material slag when rotating; a flow guide part and a separation part are arranged in the barrel body,

the flow guide part is of a hollow structure and is provided with a flow guide port, the separation part is of a hollow structure and is provided with a liquid outlet hole, and the hollow structure of the flow guide part is communicated with or opposite to the hollow structure of the separation part;

the separation part and the cutter shaft are in an integral connection structure, a fixed connection structure or a detachable connection structure, or the separation part and the cutter shaft are in an integral connection structure, a fixed connection structure or a detachable connection structure through a flow guide part;

when the cutter shaft rotates in any direction, the separation part and the flow guide part synchronously rotate along with the rotation of the cutter shaft;

the outer side wall, the upper end face or the lower end face of the separating part is provided with a one-way feeding device, and the one-way feeding device is provided with an article accommodating space and a feeding opening for accommodating articles; the included angle between the feeding opening direction of the unidirectional feeding device and the horizontal plane is more than or equal to 0 degree and less than 90 degrees; the included angle between the feeding opening direction of the unidirectional feeding device and the tangent plane of the forward rotation direction of the rotating radius position of the unidirectional feeding device is-30 degrees to-30 degrees; when the unidirectional feeding device rotates along with the separating part, the articles are limited in the storage space; when the unidirectional feeding device rotates along with the separating part reversely, the articles in the storage space are thrown out from the feeding opening;

or

The outer side wall, the upper end surface or the lower end surface of the flow guide part is provided with a one-way feeding device, and the one-way feeding device is provided with an article accommodating space and a feeding opening for accommodating articles; the included angle between the feeding opening direction of the unidirectional feeding device and the horizontal plane is more than or equal to 0 degree and less than 90 degrees; the included angle between the feeding opening direction of the unidirectional feeding device and the tangent plane of the forward rotation direction of the rotating radius position of the unidirectional feeding device is-30 degrees to-30 degrees; when the unidirectional feeding device rotates along with the flow guide component, the articles are limited in the storage space; when the unidirectional feeding device rotates reversely along with the diversion component, the articles in the storage space are thrown out from the feeding opening;

when the cutter rotates forwards, the foodstuff liquid in the barrel is blocked outside the separating part; when the cutter rotates reversely, foodstuff liquid in the barrel body enters the flow guide part of the hollow structure from the flow guide port under the driving of the cutter and/or the similar pump mechanism and enters the separation part of the hollow structure through the flow channel in the flow guide part;

the working method of the food processor comprises the following steps:

① feeding step, namely, putting water and foodstuff into the barrel body, wherein the liquid level is positioned below the feeding opening of the unidirectional feeding device;

② preprocessing step, rotating the cutter forward, crushing foodstuff by the cutter to form foodstuff liquid, and blocking the foodstuff liquid outside the separation part;

③ stopping the motor;

④ collecting and processing the material slag, wherein the liquid level of the food liquid is higher than at least a part of the diversion port on the diversion component, the cutter rotates reversely, the separation part and the diversion component rotate synchronously with the cutter, the water-soluble food additive in the storage space of the unidirectional feeding device is thrown out and falls into the barrel, the water-soluble food additive is dissolved in the food liquid, the food liquid in the barrel enters the diversion component with the hollow structure from the diversion port under the drive of the cutter and/or the similar pump mechanism and enters the separation part with the hollow structure through the flow passage in the diversion component, the material slag in the food liquid is collected in the separation part, and the liquid which is separated from the material slag and dissolved with the water-soluble food additive is discharged out of the separation part from the liquid outlet;

⑤ stopping the motor;

⑥ spin-drying the material residue, wherein the liquid level of the food liquid is below the liquid outlet of the separation part, the motor drives the cutter to rotate forward again, and the separation part rotates together with the cutter;

⑦ and (4) post-processing steps of stopping the motor and standing.
The method of claim 59, wherein the food processor includes an electric heating device, the method comprising:

① feeding step, namely, putting water and soybeans into the barrel body, and putting a water-soluble coagulant into the storage space of the unidirectional feeding device;

② preprocessing step, wherein the soybean milk is prepared by crushing soybean with a cutter and heating with an electric heater, the cutter crushes the soybean with the water, the motor rotates forward, the food liquid is blocked outside the separating part, and the water-soluble food additive is limited in the space of the unidirectional feeding device;

③ stopping the motor;

④ collecting and processing the dregs, wherein the cutter rotates reversely, the separating part and the flow guide part rotate synchronously with the cutter, the water-soluble coagulant in the storage space of the unidirectional feeding device is thrown out and falls into the barrel, the water-soluble coagulant is dissolved in the cooked soybean milk, the cooked soybean milk enters the flow guide part of the hollow structure from the flow guide port under the drive of the cutter and/or the similar pump mechanism and enters the separating part of the hollow structure through the flow channel in the flow guide part, the bean dregs in the cooked soybean milk are collected in the separating part, and the cooked soybean milk which is separated from the bean dregs and dissolved with the water-soluble coagulant is discharged out of the separating part from the liquid outlet and then enters the barrel;

⑤ stopping the motor;

⑥ spin-drying the dregs, wherein the motor drives the cutter to rotate forward again, the separating part rotates along with the cutter, the cooked soybean milk is blocked outside the separating part, and the cooked soybean milk contained in the dregs in the separating part is thrown out from the liquid outlet hole to spin-dry the dregs;

⑦ post-processing step, stopping the motor, standing to coagulate the cooked soybean milk into jellied bean curd.
A working method of a food processor with a material residue collecting function comprises a motor, a cutter shaft, a cutter, a pump mechanism, an electric heating device, a barrel body and a machine body, wherein the motor is arranged in the machine body and drives the cutter in the barrel body, and foodstuff in the barrel body is processed into foodstuff liquid with material residues when the cutter rotates; a flow guide part and a separation part are arranged in the barrel body,

the flow guide part is of a hollow structure and is provided with a flow guide port, the separation part is of a hollow structure and is provided with a liquid outlet hole, and the hollow structure of the flow guide part is communicated with or opposite to the hollow structure of the separation part;

the separation part and the cutter shaft are in an integral connection structure, a fixed connection structure or a detachable connection structure, or the separation part and the cutter shaft are in an integral connection structure, a fixed connection structure or a detachable connection structure through a flow guide part;

when the cutter shaft rotates in any direction, the separating part rotates synchronously along with the rotation of the cutter;

when the cutter rotates forwards, the foodstuff liquid in the barrel is blocked outside the separating part; when the cutter rotates reversely, foodstuff liquid in the barrel body enters the flow guide part of the hollow structure from the flow guide port under the driving of the cutter and/or the similar pump mechanism and enters the separation part of the hollow structure through the flow channel in the flow guide part;

the working method of the food processor comprises the following steps:

① feeding step, namely, putting water and food into the barrel body, or only putting food with high water content into the barrel body;

② heating step, starting the machine, heating by an electric heating device to make the water temperature reach the preset temperature;

③ pulverizing, in which the motor drives the cutter to rotate forward, and the cutter pulverizes the foodstuff to form a foodstuff liquid with dregs, and the foodstuff liquid is blocked outside the separation part;

④ stopping the motor;

⑤ collecting material slag, wherein the liquid level of the food liquid is higher than at least a part of the diversion port on the diversion part, the motor drives the cutter to rotate reversely, the food liquid in the barrel body enters the diversion part of the hollow structure from the diversion port under the drive of the cutter and/or the similar pump mechanism and enters the separation part of the hollow structure through the flow passage in the diversion part, the material slag in the food liquid is collected in the separation part, and the liquid after the material slag is separated is discharged out of the separation part from the liquid outlet hole;

⑥ stopping the motor;

⑦ spin-drying the material residue, wherein the liquid level of the food liquid is below the liquid outlet of the separation part, the motor drives the cutter to rotate forward again, the separation part rotates along with the cutter, and the food liquid is blocked outside the separation part again;

⑧ the motor stops rotating.
A method of operating a food processor with a slag collection function according to claim 61, wherein the method of operating the food processor includes the steps of:

① adding step, adding water and coffee bean into the barrel;

② heating step, starting the machine, heating by an electric heating device to ensure that the temperature of water reaches 60-100 ℃;

③ grinding, namely driving a cutter to rotate forward by a motor, grinding coffee beans by the cutter to form coffee liquid, blocking the coffee liquid outside the separation part, and keeping the temperature at 60-100 ℃;

④ stopping the motor;

⑤ collecting the coffee residues, wherein the motor drives the cutter to rotate reversely, the coffee liquid enters the flow guide part of the hollow structure from the flow guide port under the drive of the cutter and/or the similar pump mechanism and enters the separation part of the hollow structure through the flow passage in the flow guide part, the coffee residues in the coffee liquid are collected in the separation part, and the coffee liquid after separating the coffee residues is discharged out of the separation part from the liquid outlet hole;

⑥ stopping the motor;

⑦ spin-drying the coffee grounds, wherein the motor drives the cutter to rotate forward again, the separating part rotates along with the cutter, and the coffee liquid is blocked outside the separating part again;

⑧ the motor stops rotating.
A working method of a food processor with a material residue collecting function comprises a motor, a cutter shaft, a cutter, a pump mechanism, an electric heating device, a barrel body and a machine body, wherein the motor is arranged in the machine body and drives the cutter in the barrel body, and foodstuff in the barrel body is processed into foodstuff liquid with material residues when the cutter rotates; a flow guide part and a separation part are arranged in the barrel body,

the flow guide part is of a hollow structure and is provided with a flow guide port, the separation part is of a hollow structure and is provided with a liquid outlet hole, and the hollow structure of the flow guide part is communicated with or opposite to the hollow structure of the separation part;

the separation part and the cutter shaft are in an integral connection structure, a fixed connection structure or a detachable connection structure, or the separation part and the cutter shaft are in an integral connection structure, a fixed connection structure or a detachable connection structure through a flow guide part;

when the cutter shaft rotates in any direction, the separation part and the flow guide part synchronously rotate along with the rotation of the cutter shaft;

the outer side wall, the upper end face or the lower end face of the separating part is provided with a one-way feeding device, and the one-way feeding device is provided with an article accommodating space and a feeding opening for accommodating articles; the included angle between the feeding opening direction of the unidirectional feeding device and the horizontal plane is more than or equal to 0 degree and less than 90 degrees; the included angle between the feeding opening direction of the unidirectional feeding device and the section of the reverse direction of the rotation radius position of the unidirectional feeding device is-30 degrees to-30 degrees; when the unidirectional feeding device rotates reversely along with the separating part, the articles are limited in the storage space; when the unidirectional feeding device rotates along with the separating part, the articles in the storage space are thrown out from the feeding opening;

or

The outer side wall, the upper end surface or the lower end surface of the flow guide part is provided with a one-way feeding device, and the one-way feeding device is provided with an article accommodating space and a feeding opening for accommodating articles; the included angle between the feeding opening direction of the unidirectional feeding device and the horizontal plane is more than or equal to 0 degree and less than 90 degrees; the included angle between the feeding opening direction of the unidirectional feeding device and the section of the reverse direction of the rotation radius position of the unidirectional feeding device is-30 degrees to-30 degrees; when the unidirectional feeding device rotates reversely along with the flow guide component, the articles are limited in the storage space; when the unidirectional feeding device rotates along with the flow guide component, the articles in the storage space are thrown out from the feeding opening;

when the cutter rotates forwards, the foodstuff liquid in the barrel is blocked outside the separating part; when the cutter rotates reversely, foodstuff liquid in the barrel body enters the flow guide part of the hollow structure from the flow guide port under the driving of the cutter and/or the similar pump mechanism and enters the separation part of the hollow structure through the flow channel in the flow guide part;

the working method of the food processor comprises the following steps:

① feeding step, namely, putting water into the barrel body, wherein the liquid level is below the feeding opening of the unidirectional feeding device;

② preprocessing step, starting the machine, heating by the electric heating device to make the water temperature reach the preset temperature, wherein the food is limited in the storage space of the unidirectional feeding device;

③ crushing step, in which the cutter rotates positively, the separating part and the flow guide part rotate synchronously with the cutter, the foodstuff in the storage space in the unidirectional feeding device is thrown out and falls into the barrel body, and the foodstuff is crushed in water by the cutter to form foodstuff liquid with material residues;

④ stopping the motor;

⑤ collecting the dregs, wherein the liquid level of the food liquid is higher than at least a part of the diversion port on the diversion part, the cutter is reversed, the food liquid in the barrel is driven by the cutter and/or the similar pump mechanism to enter the diversion part of the hollow structure from the diversion port and enter the separation part of the hollow structure through the flow passage in the diversion part, the dregs in the food liquid are collected in the separation part, and the liquid after the dregs are separated is discharged out of the separation part from the liquid outlet;

⑥ stopping the motor;

⑦ spin-drying the material residue, wherein the liquid level of the food liquid is below the liquid outlet of the separation part, the cutter rotates forward again, the separation part rotates along with the cutter, and the food liquid is blocked outside the separation part again;

⑧ the motor stops rotating.
A method of operating a food processor with a sludge collection function as claimed in claim 63, comprising the steps of:

① charging step, namely, putting water into the barrel body, and putting coffee beans into the storage space of the unidirectional charging device;

② preprocessing step, starting the machine, heating by an electric heating device to raise the temperature of water to 60-100 ℃, and limiting coffee beans in the storage space of the unidirectional feeding device;

③ grinding, namely rotating the cutter positively, enabling the separating part and the flow guide part to rotate synchronously with the cutter, throwing coffee beans in the storage space of the unidirectional feeding device out of the barrel body, and grinding the coffee beans in water by the cutter to form coffee liquid, wherein the coffee liquid is blocked outside the separating part, and keeping the temperature at 60-100 ℃;

④ stopping the motor;

⑤ collecting the dregs, wherein the liquid level of the food liquid is higher than at least a part of the diversion port on the diversion component, the motor drives the cutter to rotate reversely, the coffee liquid enters the diversion component of the hollow structure from the diversion port under the drive of the cutter and/or the similar pump mechanism and enters the separation part of the hollow structure through the flow passage in the diversion component, the coffee dregs in the coffee liquid are collected in the separation part, and the coffee liquid after separating the coffee dregs is discharged out of the separation part from the liquid outlet hole;

⑥ stopping the motor;

⑦ spin-drying the coffee grounds, namely, the liquid level of the food liquid is below the liquid outlet hole of the separation part, the motor drives the cutter to rotate forward again, the separation part rotates along with the cutter, and the coffee liquid is blocked outside the separation part again;

⑧ the motor stops rotating.
A working method of a food processor with a material residue collecting function comprises a motor, a cutter shaft, a cutter, a pump mechanism, an electric heating device, a barrel body and a machine body, wherein the motor is arranged in the machine body and drives the cutter in the barrel body, and foodstuff in the barrel body is processed into foodstuff liquid with material residues when the cutter rotates; a flow guide part and a separation part are arranged in the barrel body,

the flow guide part is of a hollow structure and is provided with a flow guide port, the separation part is of a hollow structure and is provided with a liquid outlet hole, and the hollow structure of the flow guide part is communicated with or opposite to the hollow structure of the separation part;

the separation part and the cutter shaft are in an integral connection structure, a fixed connection structure or a detachable connection structure, or the separation part and the cutter shaft are in an integral connection structure, a fixed connection structure or a detachable connection structure through a flow guide part;

when the cutter shaft rotates in any direction, the separating part rotates synchronously along with the rotation of the cutter;

when the cutter rotates forwards, the foodstuff liquid in the barrel is blocked outside the separating part; when the cutter rotates reversely, foodstuff liquid in the barrel body enters the flow guide part of the hollow structure from the flow guide port under the driving of the cutter and/or the similar pump mechanism and enters the separation part of the hollow structure through the flow channel in the flow guide part;

the working method of the food processor comprises the following steps:

① feeding step, namely, putting water and food into the barrel body, or only putting food with high water content into the barrel body;

② preprocessing, namely starting the machine, crushing the cutter and heating by an electric heating device to prepare the food and water into the food liquid with the temperature of 60-100 ℃, keeping the temperature for 0-180 minutes after the set temperature is reached, wherein the cutter is rotated forwards in the crushing process, and the food liquid is blocked outside the separation part;

③ stopping the motor;

④ collecting the residue, wherein the liquid level of the feed liquid is higher than at least a part of the diversion port on the diversion component;

the motor drives the cutter to rotate reversely, foodstuff liquid in the barrel enters the flow guide part of the hollow structure from the flow guide port under the driving of the cutter and/or the similar pump mechanism and enters the separation part of the hollow structure through the flow channel in the flow guide part, material residues in the foodstuff liquid are collected in the separation part, and the liquid is discharged out of the separation part from the liquid outlet hole after the material residues are separated; keeping the temperature at 60-100 ℃;

⑤ stopping the motor;

⑥ spin-drying the material residue, wherein the liquid level of the food liquid is below the liquid outlet of the separation part, the motor drives the cutter to rotate forward again, the separation part rotates along with the cutter, and the food liquid is blocked outside the separation part again;

⑦ the motor stops rotating.
A method of operating a food processor with a slag collection function according to claim 65, wherein the method of operating the food processor includes the steps of:

① adding materials, namely adding water and Chinese medicinal materials into the barrel body;

② preprocessing, namely, starting the machine, preparing the traditional Chinese medicine materials and water into traditional Chinese medicine liquid at the temperature of 60-100 ℃ by crushing the cutter and heating the traditional Chinese medicine liquid by an electric heating device, keeping the temperature for 0-180 minutes after the set temperature is reached, wherein the traditional Chinese medicine liquid is in positive rotation in the crushing process of the cutter, and the traditional Chinese medicine liquid is blocked outside the separation part;

③ stopping the motor;

④ collecting residue, wherein the liquid level of the Chinese medicinal liquid is higher than at least a part of the diversion port on the diversion component;

the motor drives the cutter to rotate reversely, the traditional Chinese medicine liquid in the barrel body enters the flow guide part with the hollow structure from the flow guide port under the driving of the cutter and/or the similar pump mechanism and enters the separation part with the hollow structure through the flow channel in the flow guide part, the traditional Chinese medicine material residues in the traditional Chinese medicine liquid are collected in the separation part, and the traditional Chinese medicine liquid after the traditional Chinese medicine material residues are separated is discharged out of the separation part from the liquid outlet; keeping the temperature at 60-100 ℃;

⑤ stopping the motor;

⑥ spin-drying the residue, wherein the liquid level of the Chinese medicinal liquid is below the liquid outlet of the separation part, the motor drives the cutter to rotate forward again, the separation part rotates with the cutter, and the Chinese medicinal liquid is blocked outside the separation part again;

⑦ the motor stops rotating.
The working method of the food processor with the material slag collecting function comprises a motor, a cutter shaft, a cutter, a pump mechanism, a barrel body and a machine body, wherein the motor is arranged in the machine body and drives the cutter in the barrel body, and the cutter processes foodstuff in the barrel body to form foodstuff liquid with material slag when rotating; a flow guide part and a separation part are arranged in the barrel body,

the flow guide part is of a hollow structure and is provided with a flow guide port, the separation part is of a hollow structure and is provided with a liquid outlet hole, and the hollow structure of the flow guide part is communicated with or opposite to the hollow structure of the separation part;

the separation part and the cutter shaft are in an integral connection structure, a fixed connection structure or a detachable connection structure, or the separation part and the cutter shaft are in an integral connection structure, a fixed connection structure or a detachable connection structure through a flow guide part;

when the cutter shaft rotates in any direction, the separating part rotates synchronously along with the rotation of the cutter shaft;

when the cutter rotates forwards, the foodstuff liquid in the barrel is blocked outside the separating part; when the cutter rotates reversely, foodstuff liquid in the barrel body enters the flow guide part of the hollow structure from the flow guide port under the driving of the cutter and/or the similar pump mechanism and enters the separation part of the hollow structure through the flow channel in the flow guide part;

the working method of the food processor comprises the following steps:

① feeding step, namely, putting water and food into the barrel body, or only putting food with high water content into the barrel body;

② crushing step, in which the cutter rotates forward to crush the foodstuff to form foodstuff liquid, the foodstuff liquid is blocked outside the separation part;

③ stopping the motor;

④ collecting material slag, wherein the liquid level of the food liquid is higher than at least a part of the diversion port on the diversion part, the cutter rotates reversely, the separation part rotates synchronously with the cutter, the food liquid in the barrel body enters the diversion part with the hollow structure from the diversion port under the drive of the cutter and/or the similar pump mechanism and enters the separation part with the hollow structure through the flow passage in the diversion part, the material slag in the food liquid is collected in the separation part, and the liquid after the material slag is separated is discharged out of the separation part from the liquid outlet;

⑤ stopping the motor;

⑥ spin-drying the material residue, wherein the liquid level of the food liquid is below the liquid outlet of the separation part, the motor drives the cutter to rotate forward again, and the separation part rotates together with the cutter;

⑦ the motor stops rotating.
The working method of the food processor with the material slag collecting function comprises a motor, a cutter shaft, a cutter, a pump mechanism, a barrel body and a machine body, wherein the motor is arranged in the machine body and drives the cutter in the barrel body, and the cutter processes foodstuff in the barrel body to form foodstuff liquid with material slag when rotating; a flow guide part and a separation part are arranged in the barrel body,

the flow guide part is of a hollow structure and is provided with a flow guide port, the separation part is of a hollow structure and is provided with a liquid outlet hole, and the hollow structure of the flow guide part is communicated with or opposite to the hollow structure of the separation part;

the separation part and the cutter shaft are in an integral connection structure, a fixed connection structure or a detachable connection structure, or the separation part and the cutter shaft are in an integral connection structure, a fixed connection structure or a detachable connection structure through a flow guide part;

when the cutter shaft rotates in any direction, the separating part rotates synchronously along with the rotation of the cutter shaft;

a filter screen is arranged at the flow guide opening, and the filter holes of the filter screen at the flow guide opening are larger than the filter holes of the filter screen at the liquid outlet hole or the liquid outlet hole;

when the cutter rotates, foodstuff liquid in the barrel body enters the flow guide part of the hollow structure from the flow guide port under the driving of the cutter and/or the similar pump mechanism and enters the separation part of the hollow structure through the flow channel in the flow guide part;

the working method of the food processor comprises the following steps:

① feeding step, namely, putting water and food into the barrel body, or only putting food with high water content into the barrel body;

② crushing and collecting dregs, wherein the liquid level is higher than at least a part of the diversion port on the diversion component, the cutter rotates, the cutter crushes foodstuff to form foodstuff liquid with dregs, meanwhile, the foodstuff liquid in the barrel body enters the diversion component with a hollow structure from the diversion port under the drive of the cutter and/or a similar pump mechanism, the dregs in the foodstuff liquid, which are smaller than the filtering holes of the filtering net at the diversion port, enter the diversion component with the hollow structure together with the foodstuff liquid in the process, then enter the separation part with the hollow structure through the flow passage in the diversion component, the liquid in the foodstuff liquid is discharged out of the separation part from the liquid outlet, and the dregs in the foodstuff liquid, which are larger than the filtering holes of the filtering net at the liquid outlet, are collected in the separation part;

③ the motor stops rotating.
The working method of the food processor with the material slag collecting function comprises a motor, a cutter shaft, a cutter, a pump mechanism, a barrel body and a machine body, wherein the motor is arranged in the machine body and drives the cutter in the barrel body, and the cutter processes foodstuff in the barrel body to form foodstuff liquid with material slag when rotating; a flow guide part and a separation part are arranged in the barrel body, the flow guide part is of a hollow structure and is provided with a flow guide port, the separation part is of a hollow structure and is provided with a liquid outlet hole, and the hollow structure of the flow guide part is mutually communicated or oppositely positioned with the hollow structure of the separation part;

the separation part and the cutter shaft are in an integral connection structure, a fixed connection structure or a detachable connection structure, or the separation part and the cutter shaft are in an integral connection structure, a fixed connection structure or a detachable connection structure through a flow guide part;

when the cutter shaft rotates in any direction, the separating part rotates synchronously along with the rotation of the cutter shaft;

a filter screen is arranged at the flow guide opening, and the filter holes of the filter screen at the flow guide opening are larger than the filter holes of the filter screen at the liquid outlet hole or the liquid outlet hole;

when the cutter rotates forwards, the foodstuff liquid in the barrel is blocked outside the separating part; when the cutter rotates reversely, foodstuff liquid in the barrel body enters the flow guide part of the hollow structure from the flow guide port under the driving of the cutter and/or the similar pump mechanism and enters the separation part of the hollow structure through the flow channel in the flow guide part;

the working method of the food processor comprises the following steps:

① feeding step, namely, water and food are put into the barrel body, or food with high water content is put into the barrel body;

② preprocessing step, wherein the liquid level is higher than at least one part of the diversion port on the diversion part, the machine is started, foodstuff and water are made into food material liquid at 60-100 ℃ by crushing the cutter and heating the food material liquid by the electric heating device, the food material liquid is kept for 0-180 minutes after reaching the set temperature, the food material liquid in the barrel is reversely rotated in the crushing process of the cutter, the food material liquid is driven by the cutter and/or a similar pump mechanism to enter the diversion part with a hollow structure from the diversion port, the material slag in the food material liquid, which is smaller than the filter screen filtering hole at the diversion port, and the food material liquid enters the diversion part with the hollow structure through the flow channel in the diversion part, the liquid in the food material liquid is discharged out of the separation part from the liquid outlet, and the material slag in the food material liquid, which is larger than the filter screen filtering hole at the liquid outlet, is collected in the separation;

③ stopping the motor;

④ spin-drying the material residue, wherein the liquid level of the food liquid is below the liquid outlet of the separation part, the motor drives the cutter to rotate forward, the separation part rotates along with the cutter, and the food liquid is blocked outside the separation part;

⑤ the motor stops rotating.
A working method of a food processor with a material residue collecting function comprises a motor, a cutter shaft, a cutter, a pump mechanism, an electric heating device, a barrel body and a machine body, wherein the motor is arranged in the machine body and drives the cutter in the barrel body, and foodstuff in the barrel body is processed into foodstuff liquid with material residues when the cutter rotates; a flow guide part and a separation part are arranged in the barrel body,

the flow guide part is of a hollow structure and is provided with a flow guide port, the separation part is of a hollow structure and is provided with a liquid outlet hole, and the hollow structure of the flow guide part is communicated with or opposite to the hollow structure of the separation part;

the separation part and the cutter shaft are in an integral connection structure, a fixed connection structure or a detachable connection structure, or the separation part and the cutter shaft are in an integral connection structure, a fixed connection structure or a detachable connection structure through a flow guide part;

when the cutter shaft rotates in any direction, the separation part and the flow guide part synchronously rotate along with the rotation of the cutter shaft;

a filter screen is arranged at the flow guide opening, and the filter holes of the filter screen at the flow guide opening are larger than the filter holes of the filter screen at the liquid outlet hole or the liquid outlet hole;

the outer side wall, the upper end face or the lower end face of the separating part is provided with a one-way feeding device, and the one-way feeding device is provided with an article accommodating space and a feeding opening for accommodating articles; the included angle between the feeding opening direction of the unidirectional feeding device and the horizontal plane is more than or equal to 0 degree and less than 90 degrees; the included angle between the feeding opening direction of the unidirectional feeding device and the tangent plane of the forward rotation direction of the rotating radius position of the unidirectional feeding device is-30 degrees to-30 degrees; when the unidirectional feeding device rotates along with the separating part, the articles are limited in the storage space; when the unidirectional feeding device rotates along with the separating part reversely, the articles in the storage space are thrown out from the feeding opening;

or

The outer side wall, the upper end surface or the lower end surface of the flow guide part is provided with a one-way feeding device, and the one-way feeding device is provided with an article accommodating space and a feeding opening for accommodating articles; the included angle between the feeding opening direction of the unidirectional feeding device and the horizontal plane is more than or equal to 0 degree and less than 90 degrees; the included angle between the feeding opening direction of the unidirectional feeding device and the tangent plane of the forward rotation direction of the rotating radius position of the unidirectional feeding device is-30 degrees to-30 degrees; when the unidirectional feeding device rotates along with the flow guide component, the articles are limited in the storage space; when the unidirectional feeding device rotates reversely along with the diversion component, the articles in the storage space are thrown out from the feeding opening;

or the upper end surface of the separation part is in a plane or pit shape;

when the cutter rotates forwards, the foodstuff liquid in the barrel is blocked outside the separating part; when the cutter rotates reversely, foodstuff liquid in the barrel body enters the flow guide part of the hollow structure from the flow guide port under the driving of the cutter and/or the similar pump mechanism and enters the separation part of the hollow structure through the flow channel in the flow guide part;

the working method of the food processor comprises the following steps:

① feeding step, namely, putting water into the barrel body, wherein the liquid level is below the feeding opening of the unidirectional feeding device, and foodstuff is put into the storage space of the unidirectional feeding device or foodstuff is put on the upper end surface of the separation part;

② heating step, starting the machine, heating by an electric heating device to make the water temperature reach 50-100 ℃;

③ preprocessing step, namely, the liquid level is higher than at least one part of the diversion port on the diversion part, the cutter rotates reversely, the separation part and the diversion part rotate synchronously along with the cutter, food in the storage space in the unidirectional feeding device or food placed on the upper end surface of the separation part is thrown out and falls into the barrel and is crushed in water by the cutter to form food liquid with material residues, meanwhile, the food liquid in the barrel enters the diversion part of the hollow structure from the diversion port under the driving of the cutter and/or a similar pump mechanism, the material residues in the food liquid, which are smaller than the filter holes of the filter screen at the diversion port, and the food liquid enter the diversion part of the hollow structure through the flow passage in the diversion part, the liquid in the food liquid is discharged out of the separation part from the liquid outlet, and the material residues in the food liquid, which are larger than the filter holes of the filter screen at the liquid outlet, are collected in the separation part, and the temperature is kept at 50-100 ℃;

④ stopping the motor;

⑤ spin-drying the material residue, wherein the liquid level of the food liquid is below the liquid outlet of the separation part, the cutter rotates forward, the separation part rotates along with the cutter, and the food liquid is blocked outside the separation part;

⑥ the motor stops rotating.