CN213133000U - Automatic feeding, distributing and stirring system for wet vermicelli - Google Patents

Abstract

The utility model discloses an automatic feeding, distributing and stirring system for wet vermicelli, which comprises a distributing and stirring device and a feeding device; the distributing and stirring device is positioned at one side of the feeding device; the distribution and stirring device comprises a material groove and a plurality of stirring barrels; the material groove is obliquely arranged, and the plurality of stirring barrels are positioned below the material groove; the lower part of the material groove is provided with material falling grooves which correspondingly extend into the plurality of stirring barrels one by one, and the material falling grooves are fixedly connected with the stirring barrels; the bottom of the inner cavity of the trough is provided with a plurality of notches corresponding to the charging trough, and the lower part of the trough is provided with a plurality of opening and closing mechanisms for correspondingly opening or closing the notches; the utility model realizes automatic control, and ensures that the production is in a continuous feeding state; can make wet vermicelli automatic allocation compare traditional artifical material loading and manual stirring to a plurality of agitator in, realize production automation, labour saving and time saving has improved production efficiency greatly, has obvious popularization practical value.

Description

Automatic feeding, distributing and stirring system for wet vermicelli

Technical Field

The utility model relates to a vermicelli processing technology field specifically is an automatic pay-off of wet vermicelli, distribution and mixing system.

Background

As is well known, vermicelli is a filamentous or strip-shaped starch product processed from sweet potato and potato raw materials; the vermicelli is rich in carbohydrate, dietary fiber and protein, and has good taste, smooth mouthfeel and toughness; in the existing vermicelli making process, vermicelli is cured and then placed in cooling water for cooling, the vermicelli is cut into a fixed length of 30cm by a cutting machine and then falls into a movable cooling tank, the cooling tank is manually pushed into a cooling workshop for cooling, in order to disperse the vermicelli in the cooling process, in order to prevent the wet vermicelli from agglomerating, a manual stirring mode is usually adopted, the whole process operation wastes time and energy, and the working efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem of overcoming the existing defects and providing an automatic feeding, distributing and stirring system for wet vermicelli, which makes the production in a continuous feeding state; can make wet vermicelli automatic allocation compare traditional artifical material loading and manual stirring to a plurality of agitator in, realize production automation, labour saving and time saving has improved production efficiency greatly, has obvious popularization practical value, can effectively solve the problem in the background art.

In order to achieve the above object, the utility model provides a following technical scheme: an automatic feeding, distributing and stirring system for wet vermicelli comprises a distributing and stirring device and a feeding device; the distribution and stirring device is positioned at one side of the feeding device;

the distribution and stirring device comprises a material groove and a plurality of stirring barrels; the material groove is obliquely arranged, and the plurality of stirring barrels are positioned below the material groove; the lower part of the material groove is provided with material falling grooves which correspondingly extend into the plurality of stirring barrels one by one, and the material falling grooves are fixedly connected with the stirring barrels; the bottom of the inner cavity of the trough is provided with a plurality of notches corresponding to the charging trough, and the lower part of the trough is provided with a plurality of opening and closing mechanisms for opening or closing the notches correspondingly; each opening and closing mechanism comprises a flashboard and an air cylinder, the flashboard is arranged in the charging chute, one end of the flashboard is hinged with the lower surface of the charging chute, the end of the air cylinder body is hinged with the lower surface of the charging chute, and the telescopic end of the air cylinder extends into the charging chute and is hinged with the flashboard;

the feeding device comprises a bottom frame; a support is arranged on one side of the upper part of the bottom frame, and a vacuum pump is arranged on the other side of the upper part of the bottom frame; the upper part of the bracket is fixedly connected with at least two negative pressure storage tanks; the bottom of the tank body of each negative pressure storage tank is communicated with a discharge branch pipe, the discharge branch pipe is provided with a discharge control valve, the discharge branch pipe at the bottom of each negative pressure storage tank is communicated with a same discharge pipe, and the discharge end of the discharge pipe extends into the material tank; the top of the tank body of each negative pressure storage tank is communicated with an air exhaust branch pipe, the air exhaust branch pipe is provided with an air exhaust control valve, an air exhaust opening of the vacuum pump is communicated with an air exhaust pipe, and the air exhaust pipe is communicated with the air exhaust branch pipe at the top of each negative pressure storage tank; the tank top of each negative pressure storage tank is also communicated with a pressure relief pipe, and the pressure relief pipe is provided with a pressure relief control valve; each negative pressure storage tank's jar external wall upper portion all communicates there is the branch pipe of taking out material, takes out the branch pipe of material and installs the material control valve of taking out, each negative pressure storage tank's branch pipe of taking out material intercommunication has same material taking pipe, and material taking pipe intercommunication has the hose that stretches into in the silo.

Preferably, each the upper portion of agitator is equipped with the fixed plate, and the upper portion of fixed plate is equipped with the motor case, is equipped with the motor in the motor case, and the output shaft of motor has the puddler, and in the puddler stretched into the agitator, and the end of puddler was equipped with the stirring rake.

Preferably, the bottom of the barrel body of each stirring barrel is provided with a discharging branch pipe, the discharging branch pipes are provided with discharging control valves, the discharging control valves are pneumatic valves or electric valves, and a plurality of discharging branch pipes are communicated with the same discharging pipe; an overflow bin is arranged on the outer wall of the barrel body of each stirring barrel, the overflow bin is an umbrella-shaped partition plate welded with the outer wall of the stirring barrel, and a plurality of small holes communicated with the overflow bin are correspondingly formed in the barrel wall of the stirring barrel; the lower part of the outer wall of the overflow bin is provided with a drain pipe, the drain pipe is provided with a stop valve, and the upper part of the outer wall of the overflow bin is provided with an overflow pipe.

Preferably, the side wall of the charging chute is provided with an open slot for the telescopic end of the cylinder to move.

Preferably, the shutter has a size larger than that of the slot, and one end of the shutter abuts against a lower side of the slot in the closed state.

Preferably, the pressure relief control valve, the discharge control valve, the air pumping control valve and the material pumping control valve are pneumatic valves or electric valves.

Preferably, a PLC controller is arranged on one side of the support body of the support, and the PLC controller is electrically connected with the vacuum pump, the pressure relief control valve, the discharge control valve, the air pumping control valve and the material pumping control valve and controls to execute corresponding actions.

Preferably, the tank top of each negative pressure storage tank is also communicated with a maintenance hole, and the maintenance hole is sealed by a stainless steel quick-connection blind plate.

Preferably, the vacuum pump is a water ring vacuum pump, the upper part of the bottom frame is further provided with a water tank, an exhaust port of the water ring vacuum pump is communicated with one end of the pipeline, and the other end of the pipeline extends into the water tank.

Preferably, the discharge pipe is arranged in an inclined manner, the included angle between the axis of the discharge pipe and the horizontal line is 6-20 degrees, and the included angle between the inclined direction of the material groove and the horizontal plane is 6-20 degrees.

Compared with the prior art, the beneficial effects of the utility model are that: according to the automatic feeding, distributing and stirring system for the wet vermicelli, the PLC is started, for one negative pressure storage tank, a discharge control valve and a pressure relief control valve of the negative pressure storage tank are closed, a material pumping control valve and an air pumping control valve are opened, a vacuum pump pumps gas in the negative pressure storage tank to enable the negative pressure storage tank to be in a vacuum state, meanwhile, the wet vermicelli enters the negative pressure storage tank through a hose and a material pumping branch pipe, and is arranged through built-in delay of the PLC, the wet vermicelli in the negative pressure storage tank is filled in place, the material pumping control valve and the material pumping control valve are closed, the discharge control valve and the pressure relief control valve are opened, and the wet vermicelli is discharged from a discharge pipe; the working states of the two negative pressure storage tanks are controlled by the PLC controller, so that one negative pressure storage tank pumps materials, the other negative pressure storage tank discharges materials, and the materials are alternately circulated, so that automatic control is realized, and the production is in a continuous feeding state; then, wet vermicelli is conveyed into the material groove, the air cylinder on the upper part of one of the stirring barrels is controlled to act, the air cylinder drives the flashboard to rotate and open, the wet vermicelli falls into the stirring barrels, and then the motor drives the stirring paddle to rotate, so that the wet vermicelli is dispersed, and agglomeration is avoided; can make wet vermicelli automatic allocation compare traditional artifical material loading and manual stirring to a plurality of agitator in, realize production automation, labour saving and time saving has improved production efficiency greatly, has obvious popularization practical value.

Drawings

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

FIG. 2 is a rear view of the present invention;

FIG. 3 is a schematic view of the distribution and stirring device of the present invention;

FIG. 4 is an enlarged view of the local structure of the distribution and stirring device of the present invention;

fig. 5 is a first schematic structural view of the feeding device of the present invention;

fig. 6 is a schematic structural diagram of the feeding device of the present invention.

In the figure: 1 distributing and stirring device, 1.1 trough, 1.11 notch, 1.2 stirring barrel, 1.21 overflow bin, 1.22 overflow pipe, 1.23 blow-off pipe, 1.24 small hole, 1.3 discharge branch pipe, 1.31 discharge control valve, 1.4 discharge pipe, 1.5 motor box, 1.51 fixing plate, 1.52 stirring rod, 1.6 blanking trough, 1.61 open slot, 1.7 cylinder, 1.8 flashboard, 2 feeding device, 2.1 negative pressure storage tank, 2.11 pressure relief pipe, 2.12 pressure relief control valve, 2.13 maintenance hole, 2.2 discharge branch pipe, 2.21 discharge control valve, 2.3 discharge pipe, 2.4 PLC controller, 2.5 bottom frame, 2.51 support, 2.6 vacuum pump, 2.61 water tank, 2.7 air suction pipe, 2.71 air suction control valve, 2.72 branch pipe, 2.8 soft pipe, 2.81 material suction branch pipe and 2.82 material suction control valve.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-6, the present invention provides a technical solution: an automatic feeding, distributing and stirring system for wet vermicelli comprises a distributing and stirring device 1 and a feeding device 2; the distributing and stirring device 1 is positioned at one side of the feeding device 2;

the distribution and stirring device 1 comprises a trough 1.1 and a plurality of stirring barrels 1.2; the trough 1.1 is obliquely arranged, and the plurality of stirring barrels 1.2 are positioned below the trough 1.1; the lower part of the material groove 1.1 is provided with material falling grooves 1.6 which correspondingly extend into the plurality of stirring barrels 1.2 one by one, and the material falling grooves 1.6 are fixedly connected with the stirring barrels 1.2; the bottom of the inner cavity of the trough 1.1 is provided with a plurality of notches 1.11 corresponding to the charging trough 1.6, and the lower part of the trough 1.1 is provided with a plurality of opening and closing mechanisms for opening or closing the notches 1.11 correspondingly; each opening and closing mechanism comprises a flashboard 1.8 and an air cylinder 1.7, the flashboard 1.8 is arranged in the charging chute 1.6, one end of the flashboard 1.8 is hinged with the lower surface of the charging chute 1.1, the cylinder body end of the air cylinder 1.7 is hinged with the lower surface of the charging chute 1.1, and the telescopic end of the air cylinder 1.7 extends into the charging chute 1.6 and is hinged with the flashboard 1.8; wet vermicelli is pumped into the material groove 1.1 through the feeding device 2, the air cylinder 1.7 drives the flashboard 1.8 to rotate and open by controlling the action of one of the air cylinders 1.7, the flashboard 1.8 can also be controlled by an electric cylinder to act, the wet vermicelli falls into the stirring barrel 1.2, the wet vermicelli can be automatically distributed into a plurality of stirring barrels 1.2, and compared with the traditional manual feeding and manual stirring, the production efficiency is greatly improved, time and labor are saved;

the feeding device 2 comprises a bottom frame 2.5; a bracket 2.51 is arranged on one side of the upper part of the bottom frame 2.5, and a vacuum pump 2.6 is arranged on the other side of the upper part of the bottom frame 2.5; the upper part of the bracket 2.51 is fixedly connected with at least two negative pressure storage tanks 2.1, particularly two negative pressure storage tanks 2.1 are adopted, the continuous production requirement is met, and a plurality of negative pressure storage tanks 2.1 can be arranged according to the actual use condition; the bottom of the tank body of each negative pressure storage tank 2.1 is communicated with a discharge branch pipe 2.2, the discharge branch pipe 2.2 is provided with a discharge control valve 2.21, the discharge control valve 2.21 is used for controlling the discharge to be closed or opened, the discharge branch pipe 2.2 at the bottom of each negative pressure storage tank 2.1 is communicated with a same discharge pipe 2.3, and the discharge end of the discharge pipe 2.3 extends into the material tank 1.1; the top of the tank body of each negative pressure storage tank 2.1 is communicated with an air exhaust branch pipe 2.72, the air exhaust branch pipe 2.72 is provided with an air exhaust control valve 2.71, the air exhaust control valve 2.71 is used for controlling the closing or opening of air exhaust, an air exhaust opening of the vacuum pump 2.6 is communicated with an air exhaust pipe 2.7, the air exhaust pipe 2.7 is communicated with the air exhaust branch pipe 2.72 at the top of each negative pressure storage tank 2.1, the vacuum pump 2.6 is opened to exhaust the air pressure in the negative pressure storage tank 2.1 through the air exhaust pipe 2.7 and the air exhaust branch pipe 2.72, so that the negative pressure storage tank 2.1 is in a negative pressure state, and vacuum suction force is generated to promote; the top of each negative pressure storage tank 2.1 is also communicated with a pressure relief pipe 2.11, the pressure relief pipe 2.11 is provided with a pressure relief control valve 2.12, and the pressure relief control valve 2.12 controls the closing or opening of the communication with the external atmosphere and is used for relieving vacuum negative pressure so that wet vermicelli can be smoothly discharged from the discharge branch pipe 2.2; the upper part of the outer wall of the tank body of each negative pressure storage tank 2.1 is communicated with a material pumping branch pipe 2.81, the material pumping branch pipe 2.81 is provided with a material pumping control valve 2.82, the material pumping control valve 2.82 is used for controlling the material pumping to be closed or opened, the material pumping branch pipe 2.81 of each negative pressure storage tank 2.1 is communicated with a same material pumping pipe, and the material pumping pipe is communicated with a hose 2.8 extending into the material tank;

further, a fixing plate 1.51 is arranged at the upper part of each stirring barrel 1.2, a motor box 1.5 is arranged at the upper part of the fixing plate 1.51, a motor is arranged in the motor box 1.5, an output shaft of the motor is connected with a stirring rod 1.52, the stirring rod 1.52 extends into the stirring barrel 1.2, a stirring paddle is arranged at the tail end of the stirring rod 1.52, and the motor drives the stirring paddle to rotate through the stirring rod 1.52, so that wet vermicelli is dispersed, and the wet vermicelli is prevented from agglomerating;

further, a discharging branch pipe 1.3 is arranged at the bottom of the barrel body of each stirring barrel 1.2, a discharging control valve 1.31 is arranged on each discharging branch pipe 1.3, each discharging control valve 1.31 is a pneumatic valve or an electric valve, so that discharging of one stirring barrel 1.2 is conveniently controlled, and a plurality of discharging branch pipes 1.3 are communicated with a same discharging pipe 1.4; an overflow bin 1.21 is arranged on the outer wall of the barrel body of each stirring barrel 1.2, the overflow bin 1.21 is an umbrella-shaped partition plate welded with the outer wall of the stirring barrel 1.2, and the barrel wall of the stirring barrel 1.2 is correspondingly provided with a plurality of small holes 1.24 communicated with the overflow bin 1.21 for filtering and blocking wet vermicelli from flowing out; a drain pipe 1.23 is arranged at the lower part of the outer wall of the overflow bin 1.2, and a stop valve is arranged on the drain pipe 1.23 to facilitate drainage when the stirring barrel 3 is cleaned; an overflow pipe 1.22 is arranged at the upper part of the outer wall of the overflow bin 1.21, and water is automatically drained when the water level is ultrahigh;

furthermore, the side wall of the charging chute 1.6 is provided with an open slot 1.61 for the telescopic end of the cylinder 1.7 to move;

further, the size of the gate plate 1.8 is larger than that of the notch 1.11, one end of the gate plate 1.8 abuts against the side face of the lower portion of the notch 1.11 in a closed state, when the cylinder 1.7 pushes the gate plate 1.8 to block the notch 1.11, one end of the gate plate 1.8 is in contact with the side face of the lower portion of the notch 1.11, and the cylinder 1.7 is prevented from pushing the gate plate 1.8 to turn over to the upper portion of the notch 1.11;

further, in order to reduce manual control valves, the pressure relief control valve 2.12, the discharge control valve 2.21, the pumping control valve 2.71 and the pumping control valve 2.82 are pneumatic valves or electric valves;

further, a PLC (programmable logic controller) 2.4 is arranged on one side of the support body of the support 2.51, and the PLC 2.4 is electrically connected with the vacuum pump 2.6, the pressure relief control valve 2.12, the discharge control valve 2.21, the air pumping control valve 2.71 and the material pumping control valve 2.82 and is controlled to execute corresponding actions; the PLC controller 2.4 can select an S7-300 type PLC, the PLC controller 2.4 controls the vacuum pump 2.6, the pressure relief control valve 2.12, the discharge control valve 2.21, the air pumping control valve 2.71 and the material pumping control valve 2.82 to act by adopting the prior art, and the details are not repeated herein;

the PLC 2.4 is started, for one negative pressure storage tank 2.1, the discharge control valve 2.21 and the pressure relief control valve 2.12 of the negative pressure storage tank 2.1 are closed, the material pumping control valve 2.82 and the material pumping control valve 2.71 are opened, the vacuum pump 2.6 pumps the gas in the negative pressure storage tank 2.1 to enable the negative pressure storage tank 2.1 to be in a vacuum state, meanwhile, wet vermicelli enters the negative pressure storage tank 2.1 through the hose 2.8 and the material pumping branch pipe 2.81, the wet vermicelli in the negative pressure storage tank 2.1 is filled in place through the built-in delay setting of the PLC 2.4, the material pumping control valve 2.82 and the material pumping control valve 2.71 are closed, the discharge control valve 2.21 and the pressure relief control valve 2.12 are opened, and the wet vermicelli is discharged from the discharge branch pipe 2.2; the working states of the two negative pressure storage tanks 2.1 are controlled by the PLC 2.4, so that one negative pressure storage tank 2.1 pumps materials and the other negative pressure storage tank 2.1 unloads materials, and the automatic control is realized by alternative circulation, so that the continuous production state is realized, the production efficiency is greatly improved, and the device has obvious popularization and practical values;

furthermore, the top of each negative pressure storage tank 2.1 is also communicated with a maintenance hole 2.13, and the maintenance holes 2.13 are sealed by stainless steel quick-connection blind plates, so that the negative pressure storage tanks 1 can be disassembled and taken out, and the inside of the negative pressure storage tanks 1 can be conveniently overhauled;

further, the vacuum pump 2.6 is a water ring vacuum pump, the upper part of the bottom frame 2.5 is also provided with a water tank 2.61, an exhaust port of the water ring vacuum pump 2.6 is communicated with one end of a pipeline, the other end of the pipeline extends into the water tank 2.61, and gas exhausted from the exhaust port of the water ring vacuum pump is compressed high-temperature gas which needs to be introduced into the water tank 2.61 for cooling;

in order to facilitate discharging, the discharging pipe 2.3 is obliquely arranged, the included angle between the axis of the discharging pipe 2.3 and the horizontal line is 6-20 degrees, and the included angle between the oblique direction of the material groove 1.1 and the horizontal plane is 6-20 degrees.

The working principle is as follows: when in use, the PLC 2.4 is started, for one negative pressure storage tank 2.1, the discharge control valve 2.21 and the pressure relief control valve 2.12 of the negative pressure storage tank 2.1 are closed, the pumping control valve 2.82 and the pumping control valve 2.71 are opened, the vacuum pump 2.6 pumps the gas in the corresponding negative pressure storage tank 2.1 through the pumping pipe 2.7 and the pumping branch pipe 2.72 to enable the negative pressure storage tank 2.1 to be in a vacuum state, meanwhile, wet vermicelli enters the corresponding negative pressure storage tank 2.1 through the hose 2.8 and the pumping branch pipe 2.81, the wet vermicelli is filled in place in the negative pressure storage tank 2.1 through the built-in delay setting of the PLC 2.4, the pumping control valve 2.82 and the pumping control valve 2.71 are closed, the wet vermicelli is prevented from being pumped into the vacuum pump 2.6 to cause damage to the vacuum pump 2.6, the discharge control valve 2.21 and the pressure relief control valve 2.12 are opened, and the wet vermicelli is discharged out of the corresponding discharge branch pipe 2.2; the working states of the two negative pressure storage tanks 2.1 are controlled by the PLC 2.4, so that one negative pressure storage tank 2.1 pumps materials and the other negative pressure storage tank 2.1 unloads materials, and the materials are alternately circulated and automatically controlled to be in a continuous production state; wet vermicelli falls to silo 1.1 in from discharging pipe 2.3, when needs are to one of them agitator 1.2 when feeding, the corresponding cylinder 1.7 action in control this agitator 1.2 upper portion, cylinder 1.7 drives the rotatory opening of flashboard 1.8, wet vermicelli passes through notch 1.11 and falls into agitator 1.2 in, open the motor afterwards, the motor drives the stirring rake rotatory, make wet vermicelli dispersion, then open blowing control valve 1.31 on the blowing branch pipe 1.3, wet vermicelli is followed this agitator 1.2 ejection of compact.

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

Claims (10)

1. The utility model provides an automatic pay-off of wet vermicelli, distribution and mixing system which characterized in that: comprises a distributing and stirring device (1) and a feeding device (2); the distribution and stirring device (1) is positioned at one side of the feeding device (2);

the distribution and stirring device (1) comprises a trough (1.1) and a plurality of stirring barrels (1.2); the trough (1.1) is obliquely arranged, and the plurality of stirring barrels (1.2) are positioned below the trough (1.1); the lower part of the material groove (1.1) is provided with material charging grooves (1.6) which correspondingly extend into the plurality of stirring barrels (1.2) one by one, and the material charging grooves (1.6) are fixedly connected with the stirring barrels (1.2); the bottom of the inner cavity of the trough (1.1) is provided with a plurality of notches (1.11) corresponding to the charging trough (1.6), and the lower part of the trough (1.1) is provided with a plurality of opening and closing mechanisms for opening or closing the notches (1.11); each opening and closing mechanism comprises a flashboard (1.8) and an air cylinder (1.7), the flashboard (1.8) is arranged in the charging chute (1.6), one end of the flashboard (1.8) is hinged with the lower surface of the charging chute (1.1), the cylinder end of the air cylinder (1.7) is hinged with the lower surface of the charging chute (1.1), and the telescopic end of the air cylinder (1.7) extends into the charging chute (1.6) and is hinged with the flashboard (1.8);

the feeding device (2) comprises a bottom frame (2.5); a support (2.51) is arranged on one side of the upper part of the bottom frame (2.5), and a vacuum pump (2.6) is arranged on the other side of the upper part of the bottom frame (2.5); the upper part of the bracket (2.51) is fixedly connected with at least two negative pressure storage tanks (2.1); the bottom of the tank body of each negative pressure storage tank (2.1) is communicated with a discharge branch pipe (2.2), the discharge branch pipe (2.2) is provided with a discharge control valve (2.21), the discharge branch pipe (2.2) at the bottom of each negative pressure storage tank (2.1) is communicated with a same discharge pipe (2.3), and the discharge end of the discharge pipe (2.3) extends into the material tank (1.1); the top of the tank body of each negative pressure storage tank (2.1) is communicated with an air exhaust branch pipe (2.72), the air exhaust branch pipe (2.72) is provided with an air exhaust control valve (2.71), an air exhaust opening of the vacuum pump (2.6) is communicated with an air exhaust pipe (2.7), and the air exhaust pipe (2.7) is communicated with the air exhaust branch pipe (2.72) at the top of each negative pressure storage tank (2.1); the tank top of each negative pressure storage tank (2.1) is also communicated with a pressure relief pipe (2.11), and the pressure relief pipe (2.11) is provided with a pressure relief control valve (2.12); each the external wall upper portion of jar of negative pressure storage tank (2.1) all communicates has to take out material branch pipe (2.81), takes out material branch pipe (2.81) and installs and take out material control valve (2.82), each the branch pipe (2.81) intercommunication of taking out of negative pressure storage tank (2.1) have same root to take out the material pipe, and it has hose (2.8) that stretch into the silo to take out the material pipe intercommunication.

2. The automated wet noodle feeding, dispensing and blending system of claim 1, wherein: each the upper portion of agitator (1.2) is equipped with fixed plate (1.51), and the upper portion of fixed plate (1.51) is equipped with motor case (1.5), is equipped with the motor in motor case (1.5), and the output shaft of motor has puddler (1.52), and puddler (1.52) stretch into in agitator (1.2), and the end of puddler (1.52) is equipped with the stirring rake.

3. The automated wet noodle feeding, dispensing and blending system of claim 1, wherein: a discharging branch pipe (1.3) is arranged at the bottom of the barrel body of each stirring barrel (1.2), a discharging control valve (1.31) is installed on each discharging branch pipe (1.3), each discharging control valve (1.31) is a pneumatic valve or an electric valve, and a plurality of discharging branch pipes (1.3) are communicated with a same discharging pipe (1.4); an overflow bin (1.21) is arranged on the outer wall of the barrel body of each stirring barrel (1.2), the overflow bin (1.21) is an umbrella-shaped partition plate welded with the outer wall of the stirring barrel (1.2), and a plurality of small holes (1.24) communicated with the overflow bin (1.21) are correspondingly formed in the barrel wall of the stirring barrel (1.2); the outer wall lower part in overflow storehouse (1.2) is equipped with blow off pipe (1.23), and the stop valve is installed in blow off pipe (1.23), the outer wall upper portion in overflow storehouse (1.21) is equipped with overflow pipe (1.22).

4. The automated wet noodle feeding, dispensing and blending system of claim 1, wherein: the side wall of the charging chute (1.6) is provided with an open slot (1.61) for the telescopic end of the cylinder (1.7) to move.

5. The automated wet noodle feeding, dispensing and blending system of claim 1, wherein: the size of the gate plate (1.8) is larger than that of the notch (1.11), and one end of the gate plate (1.8) abuts against the lower side face of the notch (1.11) in a closed state.

6. The automated wet noodle feeding, dispensing and blending system of claim 1, wherein: the pressure relief control valve (2.12), the discharge control valve (2.21), the air pumping control valve (2.71) and the material pumping control valve (2.82) are air-operated valves or electric valves.

7. The automated wet noodle feeding, dispensing and blending system of claim 1, wherein: the support body one side of support (2.51) is equipped with PLC controller (2.4), and PLC controller (2.4) are connected and control execution corresponding action with vacuum pump (2.6), pressure relief control valve (2.12), ejection of compact control valve (2.21), take out air control valve (2.71) and take out material control valve (2.82) electricity.

8. The automated wet noodle feeding, dispensing and blending system of claim 1, wherein: the tank top of each negative pressure storage tank (2.1) is also communicated with a maintenance hole (2.13), and the maintenance holes (2.13) are sealed through stainless steel quick-connection blind plates.

9. The automated wet noodle feeding, dispensing and blending system of claim 1, wherein: vacuum pump (2.6) are water ring vacuum pump, and the upper portion of underframe (2.5) still is equipped with water tank (2.61), and the gas vent of water ring vacuum pump (2.6) communicates with the one end of pipeline, and the other end of pipeline stretches into in water tank (2.61).

10. The automated wet noodle feeding, dispensing and blending system of claim 1, wherein: the discharging pipe (2.3) is obliquely arranged, the included angle between the axis of the discharging pipe (2.3) and the horizontal line is 6-20 degrees, and the included angle between the oblique direction of the material groove (1.1) and the horizontal plane is 6-20 degrees.

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