CN213464840U - Automatic seasoning adding mechanism and food processor with same - Google Patents

Abstract

The utility model discloses an automatic add condiment mechanism and have its food processor, automatically, add condiment mechanism and include: the material box is provided with a discharge hole communicated with the material storage cavity; the feeding part is provided with a feeding port communicated with the feeding cavity, the feeding port is communicated with the discharging port, the feeding part is also provided with a fluid inlet and a feeding port communicated with the feeding cavity, and the feeding part is constructed in a way that fluid entering from the fluid inlet carries seasonings in the feeding cavity to flow to the feeding port. According to the utility model discloses an automatic add condiment mechanism through setting up magazine and throwing material spare, will throw material spare and construct into to carry the condiment flow direction dog-house of throwing the material intracavity by the fluid that gets into from fluid inlet, shortened the input distance of condiment, reduced the loss of condiment at the input in-process, the volume of throwing the material chamber is fixed, the add volume of condiment has been confirmed to play the reinforced effect of ration, overall structure is simple, design benefit has reduced manufacturing cost, user convenient operation.

Description

Automatic seasoning adding mechanism and food processor with same

Technical Field

The utility model belongs to the technical field of domestic appliance technique and specifically relates to an automatic add condiment mechanism and have its food processor is related to.

Background

In the related art, the development trend of food processor products towards automation is obvious in recent years, the automation of the existing products is mostly embodied in the automatic processing of food materials, and the automatic seasoning adding is still few.

In some automatic seasoning food processor products, for example, an electronic scale or a weighing sensor is usually used for weighing to quantify, which has a problem of large error, and the electronic scale or the weighing sensor playing a weighing role is prone to misalignment due to fatigue deformation, and has relatively poor reliability.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least. Therefore, the utility model provides an automatic add condiment mechanism and have its food processor, automatic add condiment mechanism can add condiment by ration, simple structure, and it is convenient to maintain.

The utility model discloses still provide a food processor who has above-mentioned automatic condiment mechanism that adds.

According to the utility model discloses automatic add condiment mechanism of first aspect, include: the material box is internally provided with a material storage cavity, and a material outlet communicated with the material storage cavity is arranged on the material box; the seasoning feeding device comprises a feeding part, wherein a feeding cavity is arranged in the feeding part, a feeding port communicated with the feeding cavity is arranged on the feeding part, the feeding port is communicated with a discharging port, a fluid inlet and a feeding port communicated with the feeding cavity are also arranged on the feeding part, and the feeding part is constructed in a manner that a fluid entering from the fluid inlet carries seasoning in the feeding cavity to flow to the feeding port.

According to the utility model discloses an automatic add condiment mechanism, through setting up the magazine and throwing the material piece, will throw the material piece and construct into and carry the condiment flow direction dog-house of throwing the material intracavity by the fluid that gets into from fluid inlet, the throw distance of condiment has been shortened, the loss of condiment at the input in-process has been reduced, the volume of throwing the material chamber is fixed, the add volume of condiment has been confirmed, thereby accomplish the reinforced effect of ration, the whole structure is simple, and the design is ingenious, the production cost is reduced, the manufacturing step is simplified, user operation is convenient, the fault rate is reduced.

In some embodiments, the feeding member is disposed below the magazine, the discharge port is formed at the bottom of the magazine, and the feeding port is formed at the top of the feeding member and vertically opposite to the discharge port.

In some embodiments, the fluid inlet and the feeding port are respectively formed on two opposite side walls of the feeding member, and the lower side edge of the feeding port is flush with the bottom wall of the feeding cavity; or the fluid inlet is formed in the top wall of the charging member and the charging port is formed in the bottom wall of the charging member.

In some embodiments, the material charging member is formed with first and second spaced apart connecting tube portions, the first connecting tube portion being connected at the fluid inlet and extending outwardly away from the material charging member, and the second connecting tube portion being connected at the material charging opening and extending outwardly away from the material charging member.

In some embodiments, the automatic seasoning mechanism further comprises: the quantitative device is arranged between the discharge port and the feeding port and is used for inputting quantitative seasonings into the feeding cavity.

In some embodiments, the batcher comprises: the quantitative device comprises a quantitative piece, wherein a quantitative groove is formed in the quantitative piece, the quantitative groove is provided with a material taking state and a material placing state, the opening of the quantitative groove faces towards the material storage cavity when the material taking state is achieved, the quantitative groove is suitable for seasonings in the material storage cavity to enter the quantitative groove, and the opening of the quantitative groove faces towards the material feeding cavity when the material placing state is achieved, and the seasonings in the quantitative groove are poured into the material feeding cavity.

In some embodiments, the batcher further comprises: the driving motor is connected with the quantifying piece and used for driving the quantifying groove to be switched between the material taking state and the material placing state.

Further, the quantitative part is a rotary part which is rotatably arranged at the position of the discharge hole, the rotary central axis of the rotary part is perpendicular to the central axis of the discharge hole, and the quantitative grooves are one or at least two which are arranged around the central axis of the quantitative part at intervals.

Further, the quantitative part is an impeller, the impeller comprises a plurality of blades arranged at intervals in the circumferential direction, the blades extend along the axial direction of the impeller, and the quantitative groove is formed between every two adjacent blades.

Further, the side wall and the bottom wall of the quantitative groove are in arc transition.

According to the utility model discloses food processor of second aspect, include according to the utility model discloses the automation of first aspect adds condiment mechanism.

According to the utility model discloses a food processor adds condiment mechanism through the automation that sets up above-mentioned first aspect to improve food processor's wholeness ability, reduced condiment quantitative error, satisfied food processor add condiment quantitative requirement.

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

Drawings

Fig. 1 is a schematic view of an automatic seasoning mechanism according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of a cross-sectional view of the automatic seasoning mechanism shown in FIG. 1;

FIG. 3 is a schematic diagram of an exploded view of the automatic seasoning mechanism shown in FIG. 1;

FIG. 4 is a schematic view of an impeller;

fig. 5 is a schematic view of a food processor.

Reference numerals:

automatic seasoning adding mechanism 100:

a material box 1, a material storage cavity 11, a material outlet 12, a material box cover 13,

the first connection portion 14, the second connection portion 15,

a feeding part 2, a feeding cavity 21, a feeding port 22, a fluid inlet 23, a first connecting pipe part 24, a second connecting pipe part 25,

a first coupling projection 26, a second coupling projection 27, a third coupling projection 28, a feed opening 29,

the quantitative container 3, the quantitative member 31, the quantitative groove 311, the shaft hole 312, the driving motor 32, the motor shaft 321,

the impeller 4, the vanes 41, the boss 42, the first bearing 43, the second bearing 44,

the food processor 1000, a feeding pipe 1001, a blanking port 1002 and a food processing cup 1003.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

An automatic seasoning mechanism 100 according to an embodiment of the first aspect of the present invention is described below with reference to fig. 1 to 5.

As shown in fig. 1, an automatic seasoning adding mechanism 100 according to an embodiment of the present invention includes: a material box 1 and a feeding part 2.

Specifically, storage cavity 11 has in magazine 1, storage cavity 11 locates in magazine 1, storage cavity 11 is used for depositing condiment, can store likepowder condiment in the storage cavity 11, cubic condiment and liquid condiment etc. seasoning is deposited in storage cavity 11, prevent that condiment from scurrying flavor, thereby avoid influencing the not delicious food that cooks out, be equipped with discharge gate 12 with storage cavity 11 intercommunication on magazine 1, discharge gate 12 links to each other and communicates with each other with storage cavity 11 for discharge the condiment in magazine 1, the condiment in magazine 1 is emitted by discharge gate 12, magazine 1 simple structure, the manufacturing of being convenient for.

The feeding part 2 is internally provided with a feeding cavity 21, the feeding cavity 21 is arranged in the feeding part 2 and is used for feeding seasonings discharged from a discharge port 12, the capacity of the feeding cavity 21 is fixed, so the amount of the fed seasonings is also fixed, the feeding part 2 is provided with a feeding port 22 communicated with the feeding cavity 21, the feeding port 22 is communicated with the discharge port 12, the feeding port 22 is connected and communicated with the feeding cavity 21, the discharge port 12 is also connected and communicated with the feeding port 22, the storage cavity 11, the discharge port 12, the feeding port 22 and the feeding cavity 21 are connected and communicated, the feeding distance of the seasonings is shortened, the loss of the seasonings in the feeding process is reduced, the feeding part 2 is also provided with a fluid inlet 23 and a feeding port 29 which are communicated with the feeding cavity 21, the feeding part 2 is provided with a fluid inlet 23 and a feeding port 29, the fluid inlet 23 is connected and communicated with the feeding cavity 21, the feeding port 29 is also connected and communicated with the feeding port 29, the feeding member 2 is constructed in a way that the fluid entering from the fluid inlet 23 carries the seasoning in the feeding cavity 21 to flow to the feeding port 29, the fluid enters the feeding member 2 from the fluid inlet 23, the seasoning flows in the feeding cavity 21, the fluid entering the feeding member 2 from the fluid inlet 23 flows to the feeding port 29, the seasoning in the feeding cavity 21 is carried to move to the feeding port 29, and the feeding member 2 is simple in structure and ingenious in design.

That is, the storage cavity 11 is disposed in the material box 1, the storage cavity 11 is used for storing seasonings, the storage cavity 11 can store powdery seasonings, massive seasonings, liquid seasonings and the like, the seasonings are stored in the storage cavity 11, the material box 1 is provided with a discharge port 12, the discharge port 12 is connected and communicated with the storage cavity 11 and is used for discharging the seasonings in the material box 1, the feeding cavity 21 is disposed in the feeding member 2 and is used for discharging the seasonings discharged from the discharge port 12, the feeding member 2 is provided with a feeding port 22, a fluid inlet 23 and a feeding port 29, the feeding port 22 is connected and communicated with the feeding cavity 21, the discharge port 12 is also connected and communicated with the feeding port 22, the fluid inlet 23 is connected and communicated with the feeding cavity 21, the feeding port 29 is also connected and communicated with the feeding port 21, and the fluid inlet 23 is also communicated with the feeding port 29.

As shown in fig. 1, a storage cavity 11 is defined by the inner side wall of the material box 1, the storage cavity 11 can be used for storing powder seasoning, block seasoning, liquid seasoning and the like, a discharge port 12 is arranged on the material box 1, the discharge port 12 is formed on the material box 1, the discharge port 12 is communicated with the storage cavity 11, a feeding cavity 21 is defined by the inner side wall of the feeding part 2, the feeding cavity 21 is used for storing seasoning thrown out of the material box 1 and throwing out the seasoning thrown out of the material box 1, a feeding port 22, a fluid inlet 23 and a feeding port 29 are arranged on the feeding part 2, the feeding port 22 is communicated with the discharge port 12, the fluid inlet 23 is communicated with the feeding port 29, and the feeding port 22, the fluid inlet 23 and the feeding port 29 are all communicated with the feeding cavity 21.

When the automatic seasoning adding mechanism 100 is used, firstly seasoning is placed in the storage cavity 11 of the material box 1, the placed seasoning can be liquid seasoning, powder seasoning, block seasoning and the like, the material box 1 is provided with a discharge port 12, the discharge port 12 is communicated with the storage cavity 11, the seasoning in the storage cavity 11 is discharged from the discharge port 12 on the material box 1, the material feeding part 2 is provided with a material feeding port 22, the discharge port 12 is communicated with the material feeding port 22, the seasoning discharged from the discharge port 12 of the material box 1 enters the material feeding port 22 of the material feeding part 2, the material feeding port 22 is communicated with the material feeding cavity 21, the seasoning enters the material feeding cavity 21 through the material feeding port 22, the material feeding part 2 is further provided with a fluid inlet 23 and a material feeding port 29, the material feeding port 22 is communicated with the material feeding cavity 21, the fluid inlet 23 is communicated with the material feeding port 29, and fluid enters the, the fluid entering the feeding member 2 from the fluid inlet 23 flows to the feeding port 29 and carries the seasonings in the feeding cavity 21 to move to the feeding port 29, so that the working process of automatically adding the seasonings is completed.

According to the utility model discloses automatic add condiment mechanism 100, through setting up magazine 1 and throwing material 2, it constructs to be carried by the fluid that gets into from fluid entry 23 and throws the condiment flow direction dog-house 29 in the material chamber 21 to throw material 2, the throw distance of condiment has been shortened, the loss of condiment at the input in-process has been reduced, the volume of throwing material chamber 21 is fixed, the add volume of condiment has been confirmed, thereby accomplish the reinforced effect of ration, the whole structure is simple, and the design is ingenious, the production cost is reduced, the manufacturing step is simplified, and the user operation is convenient, the fault rate is reduced.

Alternatively, the fluid may use gas, water vapor, or the like.

Preferably, the seasoning may be in the form of a solid powder or small granules, such as: solid powdery seasonings such as pepper powder, chili powder, cumin powder and starch or granular seasonings such as salt, chicken essence, monosodium glutamate and white granulated sugar.

In some embodiments of the present invention, the feeding member 2 is disposed below the magazine 1, the discharge port 12 is formed at the bottom of the magazine 1, and the feeding port 22 is formed at the top of the feeding member 2 and is opposite to the discharge port 12. That is to say, magazine 1 is located the top of throwing material 2, and throwing material 2 is located the below of magazine 1, and discharge gate 12 can form in the bottom of magazine 1, and pan feeding mouth 22 can form in the top of throwing material 2, and discharge gate 12 and pan feeding mouth 22 relative from top to bottom, has shortened the input distance of condiment, has reduced the loss of condiment.

As shown in fig. 2, the feeding part 2 is arranged below the material box 1, the material box 1 is arranged above the feeding part 2, a discharge port 12 is formed at the bottom of the material box 1, a material storage cavity 11 is limited by the inner side wall of the material box 1, the material storage cavity 11 is communicated with the discharge port 12, a feeding port 22 is formed at the top of the feeding part 2, the feeding port 22 is communicated with the feeding cavity 21, in the up-down direction, the discharge port 12 is opposite to the feeding port 22, the seasonings fall from the discharge port 12 by means of the gravity of the seasonings and fall into the feeding cavity 21 through the feeding port 22, the seasonings fall into the feeding cavity 21 from the material storage cavity 11 is facilitated, the structure is simple, the installation is convenient, the seasonings are prevented from overflowing, and the influence on the service life of the food processor 1000 is avoided.

In some embodiments of the present invention, the fluid inlet 23 and the feeding port 29 are formed on two opposite side walls of the feeding member 2, the fluid inlet 23 is formed on one side wall of the feeding member 2, the feeding port 29 is formed on one side wall of the feeding member 2 opposite to the side wall forming the fluid inlet 23, and the lower side edge of the feeding port 29 is flush with the bottom wall of the feeding cavity 21. In short, the fluid inlet 23 and the feeding port 29 are both formed on the side wall of the feeding member 2, and the fluid inlet 23 is opposite to the feeding port 29, so that the fluid flow is smooth, the frictional resistance of the fluid is reduced, and the condition that the flow speed of the fluid carrying the seasoning is reduced due to the non-smooth flow is avoided, so that solid powdery seasoning is retained on the side wall of the feeding cavity 21, and the seasoning dosage is influenced.

For example, as shown in fig. 2, the fluid inlet 23 and the feeding member 2 are respectively formed on the left side and the right side of the feeding member 2, the fluid inlet 23 is formed on the left side wall of the feeding member 2, the feeding port 29 is formed on the right side wall of the feeding member 2, the fluid inlet 23 is opposite to the feeding port 29, which is beneficial to smooth flow of fluid, and thus, the condition that the flow speed of fluid carrying seasoning is reduced due to non-smooth flow is avoided, so that solid powdered seasoning is retained on the bottom wall of the feeding cavity 21, which affects the quantitative determination of seasoning, and there is no height difference between the lower edge of the feeding port 29 and the bottom wall of the feeding cavity 21, so that the quantitative seasoning can completely flow out of the feeding port 29 under the drive of the fluid, which avoids the inaccuracy of quantitative seasoning, and reduces the error of seasoning quantitative determination.

In other embodiments of the invention, the fluid inlet 23 is formed in the top wall of the dosage element 2 and the dosage opening 29 is formed in the bottom wall of the dosage element 2. That is to say, a fluid inlet 23 is formed on the top wall of the feeding member 2, a feeding port 29 is formed on the bottom wall of the feeding member 2, the fluid enters the feeding cavity 21 from the fluid inlet 23 on the top wall of the feeding member 2, and then the fluid carries the seasoning in the feeding cavity 21 to enter the feeding port 29 on the bottom wall of the feeding member 2, so that under the combined action of the fluid and the gravity of the seasoning, the solid powdery seasoning is prevented from being retained on the bottom wall of the feeding cavity 21, the error of seasoning quantification is reduced, the failure rate of the automatic seasoning adding mechanism 100 is reduced, and the stability of the automatic seasoning adding mechanism 100 is improved.

Further, as shown in fig. 2, the diameter of the fluid inlet 23 is smaller than that of the feeding port 29, so that under certain pressure and space, the fluid pressure at the fluid inlet 23 is greater than that at the feeding port 29, and the fluid at the place with higher pressure pushes the fluid at the place with lower pressure to flow towards the direction with lower pressure, so as to increase the flow rate of the fluid, thereby preventing the fluid carrying the seasoning from reducing the flow rate due to poor flow, so that solid powdered seasoning is retained on the bottom wall of the feeding chamber 21, and further reducing the seasoning dosage error.

In an embodiment of the present invention, the feeding member 2 is formed with a first connecting pipe portion 24 and a second connecting pipe portion 25 which are spaced apart from each other, the first connecting pipe portion 24 is connected to the position of the fluid inlet 23, the first connecting pipe portion 24 extends outward away from the feeding member 2, the second connecting pipe portion 25 is connected to the position of the feeding opening 29, and the second connecting pipe portion 25 extends outward away from the feeding member 2. That is, the material feeding member 2 is provided with a first connecting pipe portion 24 and a second connecting pipe portion 25, the first connecting pipe portion 24 and the second connecting pipe portion 25 are arranged at intervals, the first connecting pipe portion 24 is connected with the fluid inlet 23, the second connecting pipe portion 25 is connected with the material feeding port 29, and the first connecting pipe portion 24 and the second connecting pipe portion 25 both extend outwards away from the material feeding member 2. Therefore, the first connecting pipe portion 24 and the second connecting pipe portion 25 are simple in structure, convenient to manufacture, and low in production cost.

As shown in fig. 2, the material feeding member 2 is formed with a first connecting pipe portion 24 and a second connecting pipe portion 25, the first connecting pipe portion 24 is formed on the left side of the material feeding member 2, the first connecting pipe portion 24 is connected with the fluid inlet 23, and the first connecting pipe portion 24 extends toward the left side away from the material feeding member 2, the second connecting pipe portion 25 is formed on the right side of the material feeding member 2, the second connecting pipe portion 25 is connected with the material feeding port 29, and the second connecting pipe portion 25 extends toward the right side away from the material feeding member 2. Therefore, the structure of the feeding part 2 is simplified, the production difficulty of the feeding part 2 is reduced, and the production cost of the feeding part 2 is reduced.

When seasoning is contained in the seasoning throwing chamber 21 of the seasoning throwing member 2, fluid enters the seasoning throwing chamber 21 from the fluid inlet 23 through the first connecting pipe part 24 and contacts the seasoning in the throwing chamber 21, and the fluid carrying the seasoning in the throwing chamber 21 enters the food processing chamber of the food processor 1000 from the material inlet 29 through the second connecting pipe. Therefore, the step of putting the seasonings is completed, and the seasoning box is simple to operate and convenient to use.

Further, as shown in fig. 2, the first connecting pipe portion 24 and the second connecting pipe portion 25 are both communicated with the feeding chamber 21, the inner diameter of the first connecting pipe portion 24 is smaller than the inner diameter of the second connecting pipe portion 25, the inner diameter of the first connecting pipe portion 24 is smaller, and the inner diameter of the second connecting pipe portion 25 is larger, so that under the condition that the pressure and the space are fixed, the fluid pressure in the first connecting pipe portion 24 is larger than the fluid pressure in the second connecting pipe portion 25, and the fluid at the position with the larger pressure pushes the fluid at the position with the smaller pressure to flow towards the direction with the smaller pressure, so as to increase the flow velocity of the fluid, thereby preventing the fluid carrying the seasoning from reducing the flow velocity due to the unsmooth flow, causing solid powdered seasoning to be retained on the bottom wall of the feeding chamber 21 and the inner wall of the second connecting pipe portion 25, and reducing the quantitative error of the seasoning.

Further, as shown in fig. 2, the inner diameter of the first connecting tube portion 24 is smaller than the inner diameter of the second connecting tube portion 25, and the central axis of the first connecting tube portion 24 is collinear with the central axis of the second connecting tube portion 25, so that the lowest portion of the inner wall of the second connecting tube portion 25 has a height difference with the bottom wall of the charging chamber 21, and the lowest portion of the inner wall of the second connecting tube portion 25 is higher than the bottom wall of the charging chamber 21. Thus, fluid flow from the first connecting tube portion 24 to the second connecting tube portion 25 is facilitated, fluid flow smoothness is increased, and fluid flow speed in the automatic seasoning apparatus 100 is not affected.

Referring to fig. 3, a first connecting protrusion 26, a second connecting protrusion 27 and a third connecting protrusion 28 are formed on the charging member 2, a first connecting portion 14, a second connecting portion 15 and a third connecting portion (not shown) are formed on the material box 1, the first connecting protrusion 26 on the charging member 2 is matched with the first connecting portion 14 on the material box 1, the second connecting protrusion 27 on the charging member 2 is matched with the second connecting portion 15 on the material box 1, and the third connecting protrusion 28 on the charging member 2 is matched with the third connecting portion on the material box 1 for connecting and fixing the charging member 2 and the material box 1. From this, throw the connected mode of material 2 and magazine 1 simple, simple to operate, and throw material 2 and magazine 1 zonulae occludens, avoided steam etc. to get into in the storage cavity 11 of magazine 1, prevented that the condiment in the storage cavity 11 from weing rotten.

In some embodiments of the present invention, the automatic seasoning adding mechanism 100 further comprises: the quantitative device 3 is arranged between the discharge port 12 and the feeding port 22, and is used for inputting quantitative seasonings into the feeding cavity 21. That is, the doser 3 is located between the outlet 12 of the magazine 1 and the inlet 22 of the batch pan 2, the doser 3 serving to deliver a defined amount of seasoning to the batch chamber 21 of the batch pan 2. Therefore, the amount of the seasoning entering the feeding cavity 21 is constant, thereby meeting the quantitative seasoning adding requirement of the automatic seasoning adding mechanism 100.

As shown in fig. 2, the quantitative device 3 is located below the discharge port 12 of the material box 1, the quantitative device 3 is located above the feeding port 22 of the material feeding member 2, and the quantitative device 3 is used for conveying quantitative seasonings to the material feeding cavity 21 of the material feeding member 2. The seasoning falls into the batcher 3 from the storage cavity 11 of the material box 1 through the discharge port 12, and the batcher 3 inputs the quantitative seasoning into the feeding cavity 21 of the feeding part 2 through the feeding port 22, so that the quantitative operation of seasoning adding is completed, the structure is simple, and the use is convenient.

In some embodiments of the present invention, the batcher 3 includes: the quantifying groove 311 is formed in the quantifying piece 31, the quantifying groove 311 has a material taking state and a material placing state, the quantifying groove 311 is opened towards the material storage cavity 11 when in the material taking state, the quantifying groove 311 is opened to enable seasonings in the material storage cavity 11 to enter the quantifying groove 311 when in the material taking state, the quantifying groove 311 is opened towards the material placing cavity 21 when in the material placing state, and the quantifying groove 311 is opened to enable the seasonings in the quantifying groove 311 to be poured into the material placing cavity 21 when in the material placing state. Thus, the dosing member 31 is simple in construction and easy to manufacture and maintain.

That is, the quantitative section 3 includes a quantitative member 31, a quantitative groove 311 is formed on the quantitative member 31, and the quantitative groove 311 has two states: a material taking state and a material placing state. When the quantitative groove 311 is in a material taking state, the quantitative groove 311 faces the material storage cavity 11 of the material box 1, the opening of the quantitative groove 311 is suitable for the seasonings in the material storage cavity 11 to enter the quantitative groove 311, when the quantitative groove 311 is in a material discharging state, the quantitative groove 311 faces the material feeding cavity 21 of the material feeding part 2, and the opening of the quantitative groove 311 is suitable for pouring the seasonings in the quantitative groove 311 into the material feeding cavity of the material feeding part 2. The user can switch between the material taking state and the material placing state by manually switching the quantifying groove 311, so that the failure rate of the quantifying device 3 is reduced, and the quantifying device is simple to operate and convenient to use.

In other embodiments of the present invention, the quantitative part 31 further includes a driving motor 32, and the driving motor 32 is connected to the quantitative part 31 for driving the quantitative groove 311 to switch between the material taking state and the material placing state. That is, the quantitative member 31 is connected to the driving motor 32, and the driving motor 32 is used for driving the quantitative groove 311 of the quantitative member 31 to switch between the material taking state and the material discharging state. Therefore, the batcher 3 is simple in structure, installation steps are simplified, and maintenance difficulty is reduced.

As shown in fig. 2, the dosing unit 3 is located between the material box 1 and the material feeding member 2, the dosing unit 3 includes a dosing member 31 and a driving motor 32, the dosing member 31 is located on the left side of the driving motor 32, the driving motor 32 is located on the right side of the dosing member 31, and a positioning groove is formed on the dosing member 31. When the quantitative groove 311 is in a material taking state, the opening of the quantitative groove 311 faces upwards to the material storage cavity 11 of the material box 1, the opening of the quantitative groove 311 is suitable for seasonings in the material storage cavity 11 to fall into the quantitative groove 311, when the quantitative groove 311 is in a material placing state, the opening of the quantitative groove 311 faces downwards to the material feeding cavity 21 of the material feeding part 2, the opening of the quantitative groove 311 is suitable for pouring seasonings in the quantitative groove 311 into the material feeding cavity 21 of the material feeding part 2, the driving motor 32 is provided with a motor shaft 321, the quantitative part 31 comprises a transmission part, the quantitative part 31 is connected with the driving motor 32 through the motor shaft 321 and the transmission part, and the driving motor 32 is used for driving the quantitative groove 311 of the quantitative part 31 to be switched between the material taking state. Therefore, the quantitative part 31 is convenient to install, the batcher 3 is simple in structure, and the failure rate is low.

In some embodiments of the present invention, the quantitative member 31 is a rotary member rotatably disposed at the position of the discharge port 12, the rotation central axis of the rotary member is perpendicular to the central axis of the discharge port 12, and the quantitative groove 311 is one or at least two arranged around the central axis of the quantitative member 31 at intervals. That is, the quantitative member 31 is formed as a rotary member, the quantitative member 31 is provided at the position of the discharge port 12 of the storage chamber 11, the quantitative member 31 is rotatably provided at the discharge port 12 of the storage chamber 11, a rotation central axis of the rotary member is perpendicular to a central axis of the discharge port 12, the rotary member rotates about the rotation central axis, the quantitative groove 311 may be formed as one, the quantitative groove 311 may also be formed as at least two, and at least two quantitative grooves 311 are arranged at intervals around the central axis of the quantitative member 31. Therefore, the quantitative piece 31 is simple in structure, and the quantitative piece 31 can rotate at the discharge hole 12 of the storage cavity 11 conveniently and is convenient to mount.

As shown in fig. 2, the quantitative member 31 is formed as a rotary member, the quantitative member 31 is provided at the position of the discharge port 12 of the storage chamber 11, the quantitative member 31 is rotatably provided at the discharge port 12 of the storage chamber 11, the rotation central axis of the rotary member is perpendicular to the central axis of the discharge port 12, the rotary member rotates around the rotation central axis, the quantitative grooves 311 are formed in eight numbers, the eight quantitative grooves 311 are uniformly spaced around the central axis of the quantitative member 31, the rotary member is formed with a shaft hole 312 penetrating through the rotary member from left to right, and the shaft hole 312 is adapted to be connected to a motor shaft 321 of the driving motor 32.

Thus, when the driving motor 32 drives the motor 32 to rotate, the motor shaft 321 drives the quantitative member 31 to rotate, the quantitative member 31 rotates downwards after being loaded with seasonings towards the quantitative groove 311 of the discharge port 12, the seasonings in the quantitative groove 311 are poured into the feeding cavity 21 of the feeding member 2 along with the pouring of the quantitative groove 311, the fluid enters the feeding cavity 21 from the fluid inlet 23 through the first connecting pipe part 24 and contacts with the seasonings in the feeding cavity 21, and the fluid carrying the seasonings in the feeding cavity 21 enters the food processing cavity of the food processing machine 1000 from the feeding port 29 through the second connecting pipe. Therefore, the step of putting seasonings is completed, the structure is simple, and the use is convenient.

In an embodiment of the present invention, the quantitative member 31 is an impeller 4, the impeller 4 includes a plurality of blades 41 arranged at intervals in the circumferential direction, the blades 41 extend along the axial direction of the impeller 4, and a quantitative groove 311 is formed between two adjacent blades 41. That is to say, the quantitative member 31 can be selected as the impeller 4, the impeller 4 includes a plurality of blades 41, and the plurality of blades 41 are arranged at intervals in the circumferential direction of the impeller 4, the blades 41 extend from the left side of the impeller 4 to the right side of the impeller 4, the quantitative groove 311 is formed between every two adjacent blades 41, the impeller 4 has a simple structure, the production cost of the automatic seasoning adding mechanism 100 is reduced, the impeller 4 has a good structure, and the service life of the automatic seasoning adding mechanism 100 is prolonged because the impeller 4 is installed in the automatic seasoning adding mechanism 100.

As shown in fig. 4, the impeller 4 includes eight blades 41, the eight blades 41 are arranged at intervals in the circumferential direction of the impeller 4, the eight blades 41 all extend from the left side of the impeller 4 to the right side of the impeller 4, the quantitative groove 311 is formed between every two adjacent blades 41, a shaft hole 312 penetrating through the rotating member from left to right is formed in the middle of the impeller 4, the shaft hole 312 is adapted to be connected to a motor shaft 321 of the driving motor 32, the shaft hole 312 is formed as a hexagonal through hole, the shaft hole 312 is connected to the motor shaft 321 through a shaft sleeve 42, an inner wall of the shaft sleeve 42 is adapted to be sleeved on the motor shaft 321, an outer wall of the shaft sleeve 42 is adapted to be penetrated through the shaft hole 312, a length in the axial direction of the shaft sleeve 42 is greater than a length in the axial direction of the impeller 4, and a first bearing 43 and a second bearing 44 are respectively sleeved on both ends of, the bearing plays a role in sealing the material storage cavity 11 and facilitating the rotation of the impeller 4. Therefore, the impeller 4 is simple in structure and convenient to manufacture, the failure rate of the automatic seasoning adding mechanism 100 is reduced, and the use stability of the automatic seasoning adding mechanism 100 is improved.

In other embodiments of the utility model, quantitative piece 31 can also be for turning over the board, turn over the board and form middle sunken, the arc plate shape that both ends upwards extended, when turning over the board and being in and getting the material state, the opening that turns over the board upwards towards the storage cavity 11 of magazine 1, the opening that turns over the board is suitable for the condiment of storage cavity 11 to fall into and turns over the board, when turning over the board and being in the blowing state, the opening that turns over the board is downwards towards throwing material cavity 21 of throwing material 2, the opening that turns over the board is suitable for will turning over the interior condiment of board and pour into throwing material cavity 21 of throwing material 2 in, quantitative piece 31 links to each other with driving motor 32, driving motor 32 is used for driving quantitative groove 311 of quantitative piece 31.

Optionally, the quantifying member 31 may also be in a shape of a hemisphere, the quantifying groove 311 is formed on the quantifying member 31, when the quantifying groove 311 is in a material taking state, the quantifying groove 311 faces the material storage cavity 11 of the material box 1, an opening of the quantifying groove 311 is suitable for the seasoning in the material storage cavity 11 to enter the quantifying groove 311, when the quantifying groove 311 is in a material taking state, the quantifying groove 311 faces the feeding cavity 21 of the feeding member 2, an opening of the quantifying groove 311 is suitable for pouring the seasoning in the quantifying groove 311 into the material cavity of the feeding member 2, the quantifying member 31 is connected to the driving motor 32, and the driving motor 32 is used for driving the quantifying groove 311 of the quantifying member 31 to switch between the material taking state and the material discharging state.

In an embodiment of the present invention, the circular arc transition between the sidewall and the bottom wall of the quantitative trough 311, the seasoning is not easily blocked in the quantitative trough 311, which is convenient for cleaning. Therefore, the seasonings in the quantitative groove 311 can fall into the feeding cavity 21 completely, and the loss of the seasonings in the feeding process is reduced.

As shown in fig. 4, the side wall and the bottom wall of the quantitative groove 311 are in arc transition, and one end of the blade 41 of the impeller 4 far away from the shaft hole 312 of the impeller 4 is in arc transition. Therefore, the abrasion of the batcher 3 to the discharge hole 12 of the material storage cavity 11 and the feeding hole 22 of the feeding part 2 is reduced, the service life of the automatic seasoning adding mechanism 100 is prolonged, no sanitary dead angle exists, and the automatic seasoning adding mechanism is convenient to clean.

In an embodiment of the present invention, the magazine 1 further includes a magazine lid 13, as shown in fig. 1, the magazine lid 13 is adapted to cover the opening at the upper end of the storage cavity 11 for sealing the storage cavity 11, so as to avoid the influence of dust and impurities on the quality of the seasoning, and prevent the moisture from entering the seasoning in the storage cavity 11 and being affected by the damp.

An automatic seasoning mechanism 100 according to an embodiment of the present invention will be described with reference to fig. 1 to 5.

As shown in fig. 1, the automatic seasoning mechanism 100 includes: a material box 1 and a feeding part 2. Storage cavity 11 has in magazine 1, storage cavity 11 locates in magazine 1, storage cavity 11 is used for depositing condiment, storage cavity 11 is in the ascending cross-section of vertical direction, storage cavity 11's upper portion at least half cross sectional area equals, storage cavity 11's lower part cross sectional area reduces gradually to the same with discharge gate 12 area, thus, the condiment of being convenient for is whole to fall into discharge gate 12, throw and have feeding cavity 21 in material 2, throw material cavity 21 and locate in throwing material 2, be used for throwing the condiment of being emitted by discharge gate 12, the capacity of throwing material cavity 21 is fixed, the condiment of consequently putting into is also quantitative, discharge gate 12 is linked together with storage cavity 11, be used for emitting the condiment in magazine 1.

The feeding port 22 is communicated with the discharging port 12, the feeding port 22 is communicated with the feeding cavity 21, the discharging port 12 is also connected and communicated with the feeding port 22, the feeding member 2 is provided with a fluid inlet 23 and a feeding port 29, the fluid inlet 23 is connected and communicated with the feeding cavity 21, the feeding port 29 is also connected and communicated with the feeding cavity 21, the fluid inlet 23 is also communicated with the feeding port 29, the feeding member 2 is constructed in a way that fluid entering from the fluid inlet 23 carries seasoning in the feeding cavity 21 to flow to the feeding port 29, the fluid enters the feeding member 2 from the fluid inlet 23, the seasoning flows to the feeding port 29 in the feeding cavity 21, the fluid entering the feeding member 2 from the fluid inlet 23 carries the seasoning in the feeding cavity 21 to move to the feeding port 29, and the feeding member 2 has a simple structure and is ingenious in design.

As shown in fig. 2, the fluid inlet 23 and the feeding port 29 are respectively formed on the left side and the right side of the feeding member 2, the fluid inlet 23 is formed on the left side wall of the feeding member 2, the feeding port 29 is formed on the right side wall of the feeding member 2, the fluid inlet 23 is opposite to the feeding port 29, which is beneficial to smooth fluid flow, the first connecting pipe portion 24 is formed on the left side of the feeding member 2, the second connecting pipe portion 25 is formed on the right side of the feeding member 2, the first connecting pipe portion 24 is connected with the fluid inlet 23, the second connecting pipe portion 25 is connected with the feeding port 29, the first connecting pipe portion 24 extends towards the left side away from the feeding member 2, and the second connecting pipe portion 25 extends towards the right side away from the feeding member 2, which has a simple structure, reduces the production difficulty of the feeding member 2, and reduces the production cost of the feeding member 2.

The quantitative device 3 is arranged between the material box 1 and the feeding part 2, the quantitative device 3 comprises a quantitative part 31 and a driving motor 32, the quantitative part 31 is arranged on the left side of the driving motor 32, the driving motor 32 is arranged on the right side of the quantitative part 31, and a positioning groove is formed on the quantitative part 31. When the quantitative groove 311 is in a material taking state, the opening of the quantitative groove 311 faces upwards to the material storage cavity 11 of the material box 1, the opening of the quantitative groove 311 is suitable for seasonings in the material storage cavity 11 to fall into the quantitative groove 311, when the quantitative groove 311 is in a material placing state, the opening of the quantitative groove 311 faces downwards to the material feeding cavity 21 of the material feeding part 2, the opening of the quantitative groove 311 is suitable for pouring seasonings in the quantitative groove 311 into the material feeding cavity 21 of the material feeding part 2, the driving motor 32 is provided with a motor shaft 321, the quantitative part 31 comprises a transmission part, the quantitative part 31 is connected with the driving motor 32 through the motor shaft 321 and the transmission part, and the driving motor 32 is used for driving the quantitative groove 311 of the quantitative part 31 to be switched between the material taking state.

The quantitative part 31 is an impeller 4, the impeller 4 comprises eight blades 41, the eight blades 41 are arranged at intervals in the circumferential direction of the impeller 4, the eight blades 41 all extend from the left side of the impeller 4 to the right side of the impeller 4, a quantitative groove 311 is formed between every two adjacent blades 41, a shaft hole 312 penetrating through the rotary part from left to right is formed in the middle of the impeller 4, the shaft hole 312 is suitable for being connected with a motor shaft 321 of a driving motor 32, the shaft hole 312 is a hexagonal through hole, the shaft hole 312 is connected with the motor shaft 321 through a shaft sleeve 42, the inner wall of the shaft sleeve 42 is suitable for being sleeved on the motor shaft 321, the outer wall of the shaft sleeve 42 is suitable for the shaft hole 312 to pass through, the axial length of the shaft sleeve 42 is larger than that of the impeller 4, a first bearing 43 and a second bearing 44 are respectively sleeved at two ends of the shaft sleeve 42, the first bearing 43 is sleeved, the bearing plays a role in sealing the material storage cavity 11 and facilitating the rotation of the impeller 4.

The user opens the material box cover 13, place condiment in the storage cavity 11 of the material box 1, cover the material box 1, when the automatic condiment adding mechanism 100 works, condiment falls into the discharge port 12 from the storage cavity 11, then condiment falls into the quantitative groove 311 of the impeller 4 from the discharge port 12, then the driving motor 32 drives the motor 32 to rotate, the motor shaft 321 drives the impeller 4 to rotate, the quantitative groove 311 of the impeller 4 is turned over, then the condiment in the quantitative groove 311 falls into the feeding port 22, the condiment falls into the feeding cavity 21 of the feeding part 2 from the feeding port 22, then fluid enters the fluid inlet 23 through the first connecting pipe part 24, and the fluid carries the condiment in the feeding cavity 21 to be discharged from the feeding port 29.

According to the second aspect of the present invention, a food processor 1000 comprises the automatic seasoning adding mechanism 100 according to the first aspect of the present invention.

According to the utility model discloses food processor 1000 through setting up the automatic condiment adding mechanism 100 of the above-mentioned first aspect embodiment to the practicality of food processor 1000 has been improved.

In some embodiments of the present invention, the food processor 1000 further comprises: a feeding pipe 1001, a blanking port 1002 and a food processing cup 1003. Wherein, one end of the feeding pipe 1001 is sleeved with the second connecting pipe part 25, the other end of the feeding pipe 1001 is sleeved with the blanking port 1002 for conveying seasonings into the food processing cup 1003, and the blanking port 1002 is connected with the food processing cup 1003 for conveying seasonings into the food processing cup 1003. As shown in fig. 5, the lower end of a feeding pipe 1001 is sleeved with the second connecting pipe portion 25, the upper end of the feeding pipe 1001 is sleeved with a blanking port 1002 for conveying seasonings into a food processing cup 1003, the blanking port 1002 is connected with the food processing cup 1003 for conveying seasonings into the food processing cup 1003, three blanking ports 1002 are provided, and three blanking ports 1002 can be used for conveying three different seasonings, so that three automatic seasoning adding mechanisms 100 can be provided for loading different seasonings.

Referring to fig. 5, the seasoning is quantitatively added into a food processor 1000, a material box 1 contains the seasoning, a driving motor 32 is used for driving an impeller 4 to rotate, the impeller 4 has two functions, one is to separate a material storage cavity 11 and a material feeding part 2, so that the seasoning in the material storage cavity 11 cannot fall into the material feeding part 2 by itself, the impeller 4 is driven by the driving motor 32 to rotate so that the seasoning in the material storage cavity 11 enters the material feeding part 2, the material feeding part 2 is used for quantitatively storing the seasoning coming down from the material storage cavity 11 and is connected with a gas circuit (or a water circuit) and a food processing cup 1003, and therefore, the material feeding part 2 at least comprises a material inlet 22, a fluid inlet 23, a material feeding port 29 and a material feeding cavity 21.

Preferably, in order to improve the flexibility of the movement of the impeller 4 and the blocking effect, a transmission assembly including, but not limited to, a shaft sleeve 42, a bearing, etc. may be added between the impeller 4 and the driving motor 32. The volume of each quantitative groove 311 is set as A, the feeding cavity 21 has the maximum volume B, and the volume B is not less than A.

When the automatic seasoning adding mechanism 100 needs to add seasoning to the food processing cup 1003, the driving motor 32 drives the impeller 4 to rotate, when the quantitative groove 311 rotates to face the feeding cavity 21, the seasoning automatically falls into the feeding cavity 21 under the action of gravity, the driving motor 32 can control the number of turns of rotation of the impeller 4 or the starting and stopping position of the impeller 4 by time or electric signals, so that the amount of the seasoning entering the feeding cavity 21 is controlled, when the required seasoning amount is reached, the driving motor 32 stops rotating, then air or water is fed into the feeding cavity 21, the seasoning in the feeding cavity 21 is conveyed to the food processing machine 1000, the seasoning is generally solid powder or small particles, the gas can be used as power, and for the water-soluble seasoning, the seasoning can also be conveyed to the food processing machine 1000 by water or water vapor.

Since the food processing cup 1003 is often in a high humidity environment, the drop opening 1002 should be opened at a position above the food processing cup 1003, and preferably, a check valve or a silicone piece may be installed inside the drop opening 1002 to prevent the food material in the food processing cup 1003 from flowing back into the feeding pipe 1001.

According to the utility model discloses food processor 1000 through setting up the automatic condiment adding mechanism 100 of above-mentioned first aspect embodiment, has improved food processor 1000's degree of automation, has optimized food processor 1000 culinary art food's delicious effect.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", and the like, indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally formed; the connection can be mechanical connection, electrical connection or communication; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (11)

1. An automatic seasoning adding mechanism, comprising:

the material box is internally provided with a material storage cavity, and a material outlet communicated with the material storage cavity is arranged on the material box;

the seasoning feeding device comprises a feeding part, wherein a feeding cavity is arranged in the feeding part, a feeding port communicated with the feeding cavity is arranged on the feeding part, the feeding port is communicated with a discharging port, a fluid inlet and a feeding port communicated with the feeding cavity are also arranged on the feeding part, and the feeding part is constructed in a manner that a fluid entering from the fluid inlet carries seasoning in the feeding cavity to flow to the feeding port.

2. The automatic seasoning mechanism of claim 1 wherein the batch charging member is disposed below the magazine, the discharge port is formed at the bottom of the magazine, and the inlet port is formed at the top of the batch charging member and vertically opposite to the discharge port.

3. The automatic seasoning mechanism of claim 1 wherein the fluid inlet and the dispensing port are formed on opposite side walls of the seasoning element, and the lower edge of the dispensing port is flush with the bottom wall of the seasoning chamber; or

The fluid inlet is formed in the top wall of the charging member, and the charging port is formed in the bottom wall of the charging member.

4. The automatic seasoning mechanism of claim 1 wherein the seasoning item has first and second spaced apart connecting tube portions formed thereon, the first connecting tube portion being connected at the fluid inlet and extending outwardly away from the seasoning item, and the second connecting tube portion being connected at the discharge opening and extending outwardly away from the seasoning item.

5. The automatic seasoning mechanism of any of claims 1 to 4 further comprising: the quantitative device is arranged between the discharge port and the feeding port and is used for inputting quantitative seasonings into the feeding cavity.

6. The automatic seasoning mechanism of claim 5 wherein the doser comprises:

the quantitative device comprises a quantitative piece, wherein a quantitative groove is formed in the quantitative piece, the quantitative groove is provided with a material taking state and a material placing state, the opening of the quantitative groove faces towards the material storage cavity when the material taking state is achieved, the quantitative groove is suitable for seasonings in the material storage cavity to enter the quantitative groove, and the opening of the quantitative groove faces towards the material feeding cavity when the material placing state is achieved, and the seasonings in the quantitative groove are poured into the material feeding cavity.

7. The automatic seasoning mechanism of claim 6 wherein the doser further comprises: the driving motor is connected with the quantifying piece and used for driving the quantifying groove to be switched between the material taking state and the material placing state.

8. The automatic seasoning adding mechanism as claimed in claim 7, wherein the quantitative member is a rotary member rotatably provided at the discharge port, and a central axis of rotation of the rotary member is perpendicular to a central axis of the discharge port, and the quantitative grooves are one or at least two spaced around the central axis of the quantitative member.

9. The automatic seasoning mechanism according to claim 8 wherein the quantitative member is an impeller including a plurality of blades arranged at intervals in a circumferential direction, the blades extending in an axial direction of the impeller, the quantitative groove being formed between adjacent two of the blades.

10. The automatic seasoning mechanism of claim 9 wherein the dosing channel has a radiused transition between the side wall and the bottom wall.

11. A food processor comprising an automatic seasoning mechanism according to any of claims 1 to 10.

Images