CN219205692U - Noodle and flour mixer - Google Patents

Abstract

The utility model discloses a noodle and noodle mixer, and belongs to the technical field of noodle production and processing. Comprises a dough kneading bin, a flour bin, a water injection pipe, a control board, a stirring assembly and a discharging bin; the flour bin and the water injection pipe are arranged on the dough mixing bin, a first electric valve is arranged between the flour bin and the dough mixing bin, and a second electric valve is arranged between the water injection pipe and the dough mixing bin; a weighing device is arranged in the first electric valve, and a flowmeter is arranged in the second electric valve; the control board is arranged on the dough kneading bin and is electrically connected with the first electric valve and the second electric valve respectively; the stirring component is arranged in the dough kneading bin; the discharging bin is arranged below the dough kneading bin and is communicated with the interior of the dough kneading bin. In the method, flour and water are respectively added into the flour mixing bin through the flour mixing bin and the water injection pipe, the added amount is recorded by a weighing device and a flowmeter and is fed back to a control board, and the proportion of the flour to the water is strictly controlled; the stirring assembly stirs the flour and water and takes out the formed dough from the discharge bin.

Description

Noodle and flour mixer

Technical Field

The utility model relates to the technical field of noodle production and processing, in particular to a noodle and noodle stirrer.

Background

Noodles are a common food. Originating in China, there have been four thousands of years of history of eating. The noodles are health care food which is simple to prepare, convenient to eat and rich in nutrition, can be used as staple food and fast food, and are accepted and favored by people in the world.

The noodles are mixed with water to obtain dough, and then processed into strips or sheets. Among the prior art, like the dough mixing device of dough mixer of application number 202121785167.5, can realize the even stirring to flour and mix, flour mixing efficiency is high, and the homogeneity is good, can improve noodless machining efficiency and quality. However, the key to dough formation is not only uniform stirring, but also the ratio of water to flour.

Disclosure of Invention

The utility model aims to provide a noodle and noodle mixer, which aims to record the amount of flour and the amount of water added into a noodle bin respectively by a weight device and a flowmeter, and strictly control the proportion of the flour to the water.

To achieve the above object, the present utility model provides a noodle and noodle mixer comprising:

the flour mixing bin, the flour bin, the water injection pipe, the control panel, the stirring assembly and the discharging bin; the flour bin and the water injection pipe are arranged on the flour mixing bin, a first electric valve is arranged between the flour bin and the flour mixing bin, and a second electric valve is arranged between the water injection pipe and the flour mixing bin; a weighing device is arranged in the first electric valve, and a flowmeter is arranged in the second electric valve; the control board is arranged on the dough kneading bin and is electrically connected with the first electric valve and the second electric valve respectively; the stirring assembly is arranged in the dough kneading bin; the discharging bin is arranged below the dough kneading bin and is communicated with the interior of the dough kneading bin.

Optionally, the stirring subassembly includes agitator motor, stirring gear train and a plurality of (mixing) shaft, agitator motor with stirring gear train is connected and is set up the dough kneading storehouse top, a plurality of (mixing) shaft with stirring gear train is connected and is set up dough kneading storehouse is interior.

Optionally, the stirring gear set comprises a driving gear, a plurality of driven gears and an outer ring, wherein the driving gear is connected with the stirring motor, and the driven gears are respectively connected with the stirring shafts; the outer side of the driving gear is connected with the driven gears, and the inner side of the outer ring is connected with the driven gears.

Optionally, each stirring shaft is provided with a plurality of stirring rods, and the plurality of stirring rod arrays are arranged on the corresponding stirring shafts.

Optionally, a plurality of stirring rods of adjacent stirring shafts are arranged on the corresponding stirring shafts in a staggered manner.

Optionally, a protection box is arranged at the top end of the dough kneading bin, and the stirring motor and the stirring gear set are arranged in the protection box.

Optionally, an adding pipe is further arranged on the dough kneading bin, a third electric valve is arranged between the adding pipe and the dough kneading bin, and the third electric valve is electrically connected with the control board.

Optionally, a first discharge hole is formed below the dough kneading bin, and a feed inlet is formed above the discharge bin; the dough kneading bin is communicated with the discharging bin through the first discharging hole and the inside of the feeding hole.

Optionally, a second discharging hole is formed in one end, away from the feeding hole, of the discharging bin; the discharging screw is arranged in the discharging bin and connected with a discharging motor outside the discharging bin, and the discharging motor is arranged at one end far away from the second discharging hole.

Optionally, a fourth electromagnetic valve is arranged between the first discharging hole and the feeding hole and is used for blocking the dough kneading bin from being communicated with the inside of the discharging bin.

Compared with the prior art, the application has the following beneficial effects:

flour and water are respectively added into the flour bin and the flour bin through a flour bin and a water injection pipe, the added amount is recorded by a weighing device and a flowmeter and is fed back to a control board, the control board controls the first electric valve and the second electric valve to be opened and closed, and the proportion of the flour to the water is strictly controlled; the stirring assembly stirs the flour and water and takes out the formed dough from the discharge bin.

Drawings

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

FIG. 1 is a schematic view showing the structure of an embodiment of a noodle and noodle mixer according to the present utility model;

FIG. 2 is a cross-sectional view of an embodiment of a noodle and noodle mixer according to the present utility model;

FIG. 3 is a schematic view of an embodiment of the stirring assembly shown in FIG. 2.

Reference numerals illustrate:

1. dough kneading bin; 101. an observation window; 102. a first discharge port; 2. a flour bin; 3. a water injection pipe; 4. a control board; 5. a stirring assembly; 6. discharging the material bin; 601. a feed inlet; 602. a second discharge port; 7. a first electro valve; 8. a second electro valve; 9. a stirring motor; 10. a stirring gear set; 11. a stirring shaft; 12. a drive gear; 13. a driven gear; 14. an outer ring; 15. a stirring rod; 16. a protection box; 17. an addition tube; 18. a third electro valve; 19. a discharging screw; 20. a discharging motor; 21. and a fourth electromagnetic valve.

The achievement of the objects, functional features and advantages of the present utility model will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

The technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are only one device embodiment of the present utility model, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

It should be noted that all directional indicators (such as up, down, left, right, front, and rear … …) in the embodiments of the present utility model are merely used to explain the relative positional relationship, movement, etc. between the components in a particular posture (as shown in the drawings), and if the particular posture is changed, the directional indicator is changed accordingly.

Furthermore, the description of "first," "second," etc. in this disclosure is for descriptive purposes only and is not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present utility model.

Referring to fig. 1 to 3, the present utility model proposes a noodle and noodle mixer.

In one embodiment of the utility model, the noodle and noodle mixer comprises a dough mixing bin 1, a flour bin 2, a water injection pipe 3, a control board 4, a mixing assembly 5 and a discharging bin 6; the flour bin 2 and the water injection pipe 3 are arranged on the flour mixing bin 1, a first electric valve 7 is arranged between the flour bin 2 and the flour mixing bin 1, and a second electric valve 8 is arranged between the water injection pipe 3 and the flour mixing bin 2; a weighing device is arranged in the first electric valve 7, and a flowmeter is arranged in the second electric valve 8; the control board 4 is arranged on the dough kneading bin 1 and is respectively and electrically connected with the first electric valve 7 and the second electric valve 8; the stirring assembly 5 is arranged in the dough kneading bin 1; the discharging bin 6 is arranged below the dough kneading bin 1 and is communicated with the interior of the dough kneading bin 1.

In the present application, the dough kneading bin 1 is in a truncated cone shape, and the diameter at the upper part is larger than the diameter at the lower part.

The control board 4 is provided with a controller, a processor and a display screen, and the controller, the processor and the display screen are respectively and electrically connected with the control board and controlled by the controller. The controller controls the first electro valve 7 to open and close.

Because the weight of the whole bag of flour may deviate from the weight marked on the package, and the flour flies or adheres to the inner wall of the packaging bag or the machine when the flour is poured, it is difficult to accurately know how much flour is added.

In this embodiment, the flour is poured into the flour bin 2, the weight of the flour at the moment is recorded by the weighing device in the first electric valve 7, the controller controls the first electric valve 7 to be opened for a period of time and then closed, and the weight of the flour is recorded by the weighing device for the second time. The weighing device transmits the weight information of the flour twice to the processor through an electric signal, the processor compares the weight information of the flour twice to calculate how much flour is added, and the result is converted into the electric signal and transmitted to the display screen. The water injection pipe 3 is connected with an external water source, the controller controls the second electric valve 8 to be opened, the flowmeter of the second electric valve 8 records the flow of water and converts the flow into an electric signal to be transmitted to the processor, and the processor calculates the opening time of the second electric valve 8 according to the total amount of flour and the flow of water and converts the result into the electric signal to be transmitted to the display screen. The ratio of flour to water was strictly controlled to be 100 to 1.

The side wall of the dough kneading cabin 1 is provided with an observation window 101 for observing the condition in the dough kneading cabin 1. After flour and water are added into the dough kneading bin 1, a stirring assembly 5 is started to stir for ten minutes, and the molded dough is taken out from the discharging bin 6.

Referring to fig. 3, in an embodiment of the present utility model, the stirring assembly 5 includes a stirring motor 9, a stirring gear set 10, and a plurality of stirring shafts 11, wherein the stirring motor 9 is connected to the stirring gear set 10 and disposed at the top end of the dough kneading bin 1, and the plurality of stirring shafts 11 are connected to the stirring gear set 10 and disposed in the dough kneading bin 1.

In an embodiment of the present utility model, the stirring gear set 10 includes a driving gear 12, a plurality of driven gears 13, and an outer ring 14, the driving gear 12 is connected to the stirring motor 9, and the plurality of driven gears 13 are respectively connected to the plurality of stirring shafts 11; the outer side of the driving gear 12 is connected with the driven gears 13, and the inner side of the outer ring 14 is connected with the driven gears 13.

In the embodiment, the model of the stirring motor 9 is YD180M-6/4, and the power is 11kW. The stirring motor 9 drives the driving gear 12 to rotate, the driving gear 12 drives the driven gears 13 to rotate, and the stirring shafts 11 rotate and simultaneously rotate around the circumference of the driving gear 12, so that the dough can be sufficiently stirred.

In an embodiment of the present utility model, a plurality of stirring rods 15 are disposed on each stirring shaft 11, and the plurality of stirring rods 15 are disposed on the corresponding stirring shaft 11 in an array.

In one embodiment of the present utility model, the stirring rods 15 of the adjacent stirring shafts 11 are arranged on the corresponding stirring shafts 11 in a staggered manner.

In this embodiment, the stirring rods 15 are vertically arranged on the corresponding stirring shafts 11 in an array, and the stirring rods 15 of the adjacent stirring shafts 11 are arranged in a staggered manner, so that the dough can be sufficiently stirred.

In one embodiment of the present utility model, a protection box 16 is arranged at the top end of the dough kneading bin 1, and the stirring motor 9 and the stirring gear set 10 are arranged in the protection box 16.

In an embodiment of the present utility model, an adding pipe 17 is further disposed on the dough kneading bin 1, a third electric valve 18 is disposed between the adding pipe 17 and the dough kneading bin 1, and the third electric valve 18 is electrically connected with the control board 4. The control board 4 controls the third electric valve 18 to open, and additives are added into the dough kneading bin 1 through the adding pipe 17 to improve the dough quality and the dough flavor.

In this embodiment, a proper amount of sodium polyacrylate is added into the dough kneading bin 1 through the adding pipe 17, and the sodium polyacrylate is added into the flour, so that the protein cohesive force in the raw material flour can be enhanced, starch particles are mutually combined and dispersed and permeated into the network structure of the protein, a dough with compact texture is formed, the surface is smooth and glossy, a stable dough colloid is formed, the exudation of soluble starch is prevented, the extensibility of the dough is improved, and the frost cracking is reduced.

In an embodiment of the present utility model, a first discharge port 102 is provided below the dough kneading bin 1, and a feed port 601 is provided above the discharge bin 6; the dough kneading bin 1 is communicated with the discharging bin 6 through the first discharging hole 102 and the feeding hole 601.

In an embodiment of the present utility model, a fourth electromagnetic valve 21 is disposed between the first discharging hole 102 and the feeding hole 601, and the fourth electromagnetic valve 21 is used for blocking the dough kneading chamber 1 from communicating with the discharging chamber 6.

In the present embodiment, the fourth electromagnetic valve 21 is electrically connected to the control board 4. The fourth electromagnetic valve 21 is opened by the control board 4, and the formed dough falls into the discharging bin 6 from the dough kneading bin 1.

In an embodiment of the present utility model, a second discharge port 602 is formed at an end of the discharge bin 6 away from the feed port 601; the discharging bin 6 is internally provided with a discharging screw 19, the discharging screw 19 is connected with a discharging motor 20 outside the discharging bin 6, and the discharging motor 20 is arranged at one end far away from the second discharging hole 602.

In this embodiment, the discharging motor 20 drives the discharging screw 19 to rotate, and the dough moves toward the second discharging hole 602 under the driving of the discharging screw 19.

When in use, flour and water are respectively added into the flour mixing bin 1 through the flour mixing bin 2 and the water injection pipe 3, and the proportion of the flour to the water is controlled to be 100 to 1; an additive is added into the dough kneading chamber 1 through the addition pipe 17. The stirring assembly 5 is started to stir for ten minutes, the fourth electromagnetic valve 21 is opened by the control board 4, and the formed dough falls into the discharging bin 6 from the dough mixing bin 1. The dough is driven by the discharging screw 19 to move towards the direction of the second discharging hole 602, and the formed dough is taken out from the second discharging hole 602.

The foregoing description is only of the preferred embodiments of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structural changes made by the description of the present utility model and the accompanying drawings or direct/indirect application in other related technical fields are included in the scope of the utility model.

Claims (10)

1. The noodle and noodle mixer is characterized by comprising a dough kneading bin, a flour bin, a water injection pipe, a control board, a mixing assembly and a discharging bin; the flour bin and the water injection pipe are arranged on the flour mixing bin, a first electric valve is arranged between the flour bin and the flour mixing bin, and a second electric valve is arranged between the water injection pipe and the flour mixing bin; a weighing device is arranged in the first electric valve, and a flowmeter is arranged in the second electric valve; the control board is arranged on the dough kneading bin and is electrically connected with the first electric valve and the second electric valve respectively; the stirring assembly is arranged in the dough kneading bin; the discharging bin is arranged below the dough kneading bin and is communicated with the interior of the dough kneading bin.

2. The noodle and noodle mixer of claim 1 wherein said mixing assembly comprises a mixing motor, a mixing gear set and a plurality of mixing shafts, said mixing motor being connected to said mixing gear set and disposed at said mixing bin top end, said plurality of mixing shafts being connected to said mixing gear set and disposed within said mixing bin.

3. The noodle and noodle mixer of claim 2 wherein said mixing gear set comprises a drive gear, a plurality of driven gears and an outer ring, said drive gear being connected to said mixing motor, said plurality of driven gears being connected to said plurality of mixing shafts, respectively; the outer side of the driving gear is connected with the driven gears, and the inner side of the outer ring is connected with the driven gears.

4. A noodle and noodle mixer as defined in claim 2, wherein each stirring shaft is provided with a plurality of stirring rods, and wherein said plurality of stirring rod arrays are provided on the corresponding stirring shafts.

5. The noodle and noodle mixer of claim 4 wherein a plurality of stirring bars of adjacent stirring shafts are offset on corresponding stirring shafts.

6. The noodle and noodle mixer of claim 2 wherein a protective case is provided on the top end of said dough kneading bin, and said agitator motor and said agitator gear set are disposed in said protective case.

7. The noodle and noodle mixer of claim 1, wherein the noodle-mixing bin is further provided with an addition pipe, a third electric valve is provided between the addition pipe and the noodle-mixing bin, and the third electric valve is electrically connected with the control board.

8. The noodle and noodle mixer of claim 1, wherein a first discharge port is provided below the dough kneading bin, and a feed port is provided above the discharge bin; the dough kneading bin is communicated with the discharging bin through the first discharging hole and the inside of the feeding hole.

9. The noodle and noodle mixer of claim 8 wherein a second outlet is provided at the end of said outlet remote from said inlet; the discharging screw is arranged in the discharging bin and connected with a discharging motor outside the discharging bin, and the discharging motor is arranged at one end far away from the second discharging hole.

10. The noodle and noodle mixer of claim 8, wherein a fourth solenoid valve is disposed between said first outlet and said inlet, said fourth solenoid valve being adapted to block communication between said dough mixing chamber and said outlet.

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