CN212120174U - Novel pulping system controlled by artificial intelligence - Google Patents

Abstract

The utility model discloses a novel pulping system with artificial intelligent control, which comprises three separate pulping systems, wherein each separate pulping system comprises a funnel machine and a pulping machine, each pulping machine is provided with a slag notch and a pulp outlet, each pulping machine comprises a first pulping machine, a second pulping machine and a third pulping machine, each funnel machine comprises a first funnel machine, a second funnel machine and a third funnel machine, each slag notch comprises a first slag notch, a second slag notch and a third slag notch, each pulp outlet comprises a first pulp outlet, a second pulp outlet and a third pulp outlet, the first slag notch and the second slag notch of the first pulping machine and the second pulping machine are respectively and directly fixedly connected with the slag inlet of the first stirring machine and the slag inlet of the second stirring machine, a soybean dreg clear water discharge port is arranged below the first stirring machine and the second stirring machine, a feeding machine is arranged above the first pulping machine, the material feeding machine is characterized in that a screening machine is arranged above the material feeding machine and provided with a material feeding port, a water outlet and a material discharging port.

Description

Novel pulping system controlled by artificial intelligence

Technical Field

The utility model relates to a food processing technology field particularly, relates to an artificial intelligent control's novel thick liquid system that grinds.

Background

In the preparation process of bean curd, grinding is an important step, beans are ground into pulp and then cooked, and finally the bean curd is prepared.

An effective solution to the problems in the related art has not been proposed yet.

Disclosure of Invention

An object of the utility model is to provide an artificial intelligence control's novel defibrination system to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: an artificial intelligence control novel pulping system comprises three separate pulping systems, wherein each separate pulping system comprises a hopper machine and a pulping machine, the pulping machines are respectively provided with a slag hole and a pulp outlet, each pulping machine comprises a first pulping machine, a second pulping machine and a third pulping machine, each hopper machine comprises a first hopper machine, a second hopper machine and a third hopper machine, each slag hole comprises a first slag hole, a second slag hole and a third slag hole, each pulp outlet comprises a first pulp outlet, a second pulp outlet and a third pulp outlet, the first slag hole and the second slag hole of the first pulping machine and the second pulping machine are respectively and directly fixedly connected with the slag inlet of the first stirring machine and the second stirring machine, a soybean residue clear water discharge hole is arranged below the first stirring machine and the second stirring machine, a feeding machine is arranged above the first pulping machine, a screening machine is arranged above the feeding hopper machine, the screening machine is provided with a feeding port, a water outlet and a discharging port, a screening sheet is arranged inside the screening machine, and a plurality of holes are formed in the surface of the screening sheet.

Further, the sieve separator is connected with a discharge port of the pump through a feeding pipe, a feed inlet of the pump is connected with the water tank, a material box is arranged on the side face of the water tank, and an antifoaming agent device is arranged on the side face of the sieve separator.

Furthermore, water inlet pipes are arranged at the upper ends of the first hopper machine, the first stirrer and the second stirrer.

Furthermore, a first slurry tank is arranged below the first slurry outlet and the second slurry outlet, and a second slurry tank is arranged below the third slurry outlet.

Furthermore, a pump funnel machine is arranged below a bean dreg clear water discharge port of the second stirring machine, the pump funnel machine is connected with the pump through a water pipe, and a water outlet of a water outlet pipe of the pump is arranged above the third funnel machine.

Furthermore, a slurry water pipe is arranged at the bottom of the second slurry water tank and connected with a pump, a pump outlet is connected with a slurry outlet pipe of the pump, and a slurry outlet of the slurry outlet pipe of the pump is arranged above the first hopper machine.

Furthermore, inductors are arranged at the outlet of the feeding machine, the outlet of the first stirring machine, the outlet of the water pipe on the third hopper machine and the slurry outlet of the slurry outlet pipe of the pump machine.

Furthermore, the upper end of the screening sheet is positioned below the feeding port, the lower end of the screening sheet is positioned above the discharging port and has a certain distance, and the lower end of the screening sheet is provided with an anti-backflow curved surface device.

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

(1) the utility model discloses a thick liquid circulation system is constituteed to three disconnect-type thick liquid system and two mixers for the bean curd quality of the even preparation of thick liquid granule that grinds out is better, and overall structure is perfect, and satisfying production demand that can be fine improves the thick liquid efficiency of grinding when the quality is guaranteed.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic plane structure diagram of a novel pulping system controlled by artificial intelligence according to an embodiment of the invention;

reference numerals:

1. a first refiner; 2. a second refiner; 3. a third pulping machine; 4. a first hopper machine; 5. a second hopper machine; 6. a third hopper machine; 7. a first slag outlet; 8. a second slag outlet; 9. a third slag outlet; 10. a first slurry outlet; 11. a second slurry outlet; 12. a third slurry outlet; 13. a first mixer; 14. a second mixer; 15. a clear water outlet of the bean dregs; 16. feeding a material machine; 17. a screening machine; 18. screening slices; 19. a water tank; 20. a material box; 21. a defoamer device; 22. a first slurry tank; 23. a second slurry tank; 24. a pump hopper machine; 25. a slurry outlet pipe of the pump; 26. an inductor; 27. an anti-reflux curved surface device.

Detailed Description

The following, with reference to the drawings and the detailed description, further description of the present invention is made:

the first embodiment is as follows:

referring to fig. 1, according to the embodiment of the present invention, a novel manual intelligent control pulp grinding system includes a three separated pulp grinding system, the separated pulp grinding system includes a hopper machine and a pulp grinder, the pulp grinder is provided with a slag hole and a pulp outlet, the pulp grinder includes a first pulp grinder 1, a second pulp grinder 2 and a third pulp grinder 3, the hopper machine includes a first hopper machine 4, a second hopper machine 5 and a third hopper machine 6, the slag hole includes a first slag hole 7, a second slag hole 8 and a third slag hole 9, the pulp outlet includes a first pulp outlet 10, a second pulp outlet 11 and a third pulp outlet 12, the first slag hole 7 and the second slag hole 8 of the first pulp grinder 1 and the second pulp grinder 2 are respectively and directly connected to a slag inlet of a first mixer 13 and a second mixer 14, the first mixer 13, the second pulp grinder 2 is connected to a second pulp outlet, and the third pulp outlet is connected to a second pulp grinder, A bean dreg clear water discharge port 15 is arranged below the second stirring machine 14, a feeding machine 16 is arranged above the first hopper machine 4, a screening machine 17 is arranged above the feeding machine 16, the screening machine 17 is provided with a feeding port, a water outlet and a discharge port, a screening sheet 18 is arranged inside the screening machine 17, and a plurality of holes are formed in the surface of the screening sheet 18.

The utility model discloses a thick liquid circulation system is constituteed to three disconnect-type thick liquid system and two mixers for the bean curd quality of the even preparation of thick liquid granule that grinds out is better, and overall structure is perfect, and satisfying production demand that can be fine improves the thick liquid efficiency of grinding when the quality is guaranteed.

Example two:

referring to fig. 1, for a screening machine 17, the screening machine 17 is connected to a discharge port of a pump through a feeding pipe, a feed port of the pump is connected to a water tank 19, a material tank 20 is disposed on a side surface of the water tank 19, an antifoaming agent device 21 is disposed on a side surface of the screening machine 17, water inlet pipes are disposed at upper ends of a first hopper machine 4, a first mixer 13 and a second mixer 14, a first slurry water tank 22 is disposed below a first slurry outlet 10 and a second slurry outlet 11, a second slurry water tank 23 is disposed below a third slurry outlet 12, a pump hopper machine 24 is disposed below a clear water discharge port 15 of bean dregs of the second mixer 14, the pump hopper machine 24 is connected to the pump through a water pipe, a water outlet of a water outlet pipe of the pump machine is disposed above a third hopper machine 6, a slurry water pipe is disposed at a bottom of the second slurry water tank 23, and the slurry water pipe is connected to the pump, pump machine exit linkage pump machine play thick liquid pipe 25, the play thick liquid mouth setting of pump machine play thick liquid pipe 25 is in 4 tops of first funnel machine, the export of material feeding machine 16, first mixer 13, the water pipe export on the third funnel machine 6, the play thick liquid mouth department of pump machine play thick liquid pipe 25 are provided with inductor 26, the upper end of screening piece 18 is located pan feeding mouth below, and the lower extreme is located the discharge gate top and has the certain distance, and the lower extreme is equipped with anti-curved surface device that flows backwards 27.

For the convenience of understanding the technical solution of the present invention, the following detailed description is made on the working principle or the operation mode of the present invention in the practical process.

The utility model discloses an operation principle:

step 1: the cleaned soybeans are put into a material box 20 in advance to be soaked in water, a discharge valve is opened, the soybeans enter a water tank 19 through a water tank, a pump in the water tank 19 starts to operate, the soybeans are conveyed to a screening machine 17 through a feeding pipe, the soybeans enter the feeding machine 16 through a discharge port after being screened and selected 18, an inductor 26 is arranged at an outlet of the feeding machine 16, the soybeans touch the inductor when coming out of an outlet of the feeding machine 16 and entering a first hopper machine 4, the operation of the water pump of a water inlet pipe is controlled at the moment, clean water flows into the first hopper machine 4 from a first water inlet pipe above the first hopper machine 4, the clean water and the soybeans enter a first pulping machine 1 after being mixed, when the inductor is triggered, the first pulping machine 1 starts to operate, a mixture of the soybeans and the clean water passes through the first pulping machine 1 to obtain pulp water and soybean dregs, the pulp flows out of the pulp outlet to a first pulp water tank 22, the bean dregs flow into a dreg inlet of a first stirring machine 13 from a dreg outlet, the upper end of the first stirring machine 13 is connected with a water inlet pipe, the bean dregs and clean water enter the first stirring machine 13 to be stirred and then are fully mixed, and then enter a second hopper machine 5 through a bean dreg clean water discharge port 15, a sensor is also arranged at the discharge port of the first stirring machine 13 at the moment, and the sensor is triggered by the passing bean dreg clean water mixture, so that a second pulping machine 2 operates;

step 2: the mixture at the discharge port of the first stirrer 13 enters the second pulping machine 2 through the second hopper machine 5 to obtain slurry and bean dregs, the slurry flows out of the slurry outlet to the first slurry water tank 22, the bean dregs flow into the slag inlet of the second stirrer 14 from the slag outlet, the upper end of the second stirrer 14 is connected with a water inlet pipe, the bean dregs and the clear water are fully mixed after entering the second stirrer 14 for stirring, flow into the pump machine hopper 24 through the discharge port and enter the pump machine, and the pump machine operates to pump the bean dregs clear water mixture into the water inlet pipe to the third hopper machine 6;

and step 3: a sensor is arranged at the outlet of the water pipe on the third funnel machine 6, when the pumped clear bean dreg mixture flows out of the contact sensor from the outlet of the water pipe, the third pulping machine 3 operates to obtain the serous fluid and the bean dregs, the bean dregs are directly discharged from the slag outlet for other use, the serous fluid enters the second serous fluid tank 23, the bottom of the center of the second serous fluid tank 23 is connected with a serous fluid pipe, after the serous fluid enters the serous fluid pipe, a pulping pump operates to pump the serous fluid to the upper part of the first funnel machine 4 through a pump slurry outlet pipe 25, the sensor is arranged at the outlet of the pump slurry outlet pipe 25, when the serous fluid flows out of the contact sensor from the outlet of the pump slurry outlet pipe 25, the water inlet pipe above the first funnel machine 4 stops the inflow of the clear water, the serous fluid generated by the third pulping machine 3 and the soybeans are mixed and enter the first pulping machine 1 through the first funnel machine 4 to obtain the serous fluid and the bean dregs, and the obtained serous fluid enters the first, the bean dregs enter a first stirrer 13;

the three steps form a circulating system, so that the bean curd uniformly prepared by the ground slurry particles has better quality, the whole structure is perfect, the production requirement can be well met, and the grinding efficiency is improved while the quality is ensured.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides a novel defibrination system of artifical intelligent control, a serial communication port, including three disconnect-type defibrination system, disconnect-type defibrination system comprises funnel machine and fiberizer, the fiberizer all is equipped with the slag notch and goes out the thick liquid mouth, the fiberizer includes first fiberizer (1), second fiberizer (2), third fiberizer (3), the funnel machine includes first funnel machine (4), second funnel machine (5), third funnel machine (6), the slag notch includes first slag notch (7), second slag notch (8), third slag notch (9), it includes first thick liquid mouth (10), second thick liquid mouth (11), third thick liquid mouth (12) to go out the thick liquid mouth, first slag notch (7), second slag notch (8) of first fiberizer (1), second fiberizer (2) are respectively directly with first mixer (13), The income sediment mouth fixed connection of second mixer (14), first mixer (13), second mixer (14) below are equipped with bean dregs clear water discharge gate (15), first funnel machine (4) top is equipped with feed machine (16), feed machine (16) top is equipped with sieve separator (17), sieve separator (17) are equipped with pan feeding mouth, delivery port, discharge gate, sieve separator (17) inside is equipped with screening piece (18), screening piece (18) surface is equipped with a plurality of holes.

2. The novel artificial intelligence controlled grinding system according to claim 1, characterized in that the screening machine (17) is connected with the discharge port of the pump through a feeding pipe, the feed port of the pump is connected with a water tank (19), a material tank (20) is arranged on the side of the water tank (19), and an antifoaming agent device (21) is arranged on the side of the screening machine (17).

3. The novel refining system with artificial intelligence control as claimed in claim 1, characterized in that the upper ends of the first hopper machine (4), the first mixer (13) and the second mixer (14) are all provided with water inlet pipes.

4. An artificial intelligence controlled novel refining system according to claim 1, characterized in that a first slurry tank (22) is arranged under the first and second slurry outlets (10, 11), and a second slurry tank (23) is arranged under the third slurry outlet (12).

5. The novel grinding system controlled by the artificial intelligence is characterized in that a pump funnel machine (24) is arranged below a bean dregs clear water outlet (15) of the second stirring machine (14), the pump funnel machine (24) is connected with a pump through a water pipe, and a water outlet of a water outlet pipe of the pump is arranged above a third funnel machine (6).

6. The novel artificial intelligence controlled refining system according to claim 4, characterized in that the bottom of the second slurry water tank (23) is provided with a slurry water pipe, the slurry water pipe is connected with a pump, the outlet of the pump is connected with a pump slurry outlet pipe (25), and the slurry outlet of the pump slurry outlet pipe (25) is arranged above the first hopper machine (4).

7. An artificial intelligence controlled new refining system according to claim 4 characterized in that sensors (26) are placed at the outlet of the feeder (16), the outlet of the first mixer (13), the outlet of the water pipe on the third hopper machine (6), and the outlet of the slurry pipe (25) of the pump.

8. An artificial intelligence controlled new refining system according to claim 1, characterized in that the upper end of the sifting sheet (18) is located under the inlet, the lower end is located a distance above the outlet, and the lower end is equipped with a reverse flow curved surface device (27).

Images