CN220936517U - Integrated noodle processing equipment - Google Patents

Abstract

The utility model relates to the technical field of flour food processing, in particular to integrated noodle processing equipment which comprises an electric control system, a flour mixer and a noodle machine, wherein the flour mixer comprises a stirring barrel, a flour mixer power system, an upper cover and a side cover, the noodle machine comprises a noodle machine power part, two flour-following auger mechanisms, three flour-pressing mechanisms, a noodle cutter mechanism and a conveying mechanism, the two flour-following auger mechanisms comprise two shaftless augers, and the two flour-pressing mechanisms are arranged in the noodle machine side by side. The utility model has the advantages that the shaftless auger avoids the situation that the flour wadding is wound on the auger shaft, increases the space volume of the auger for transmitting the flour wadding, is beneficial to faster transmission of the flour wadding, and combines a vacuum stirring powder mixer with a noodle machine, so that the connection of each working procedure is solved, the applicability is strong, the automation degree is high, the unmanned production is beneficial to realization, the cleaning and the sanitation are realized, and the manpower and logistics are saved.

Description

Integrated noodle processing equipment

Technical Field

The utility model relates to the technical field of wheaten food processing, in particular to integrated noodle processing equipment.

Background

At present, in the production process of a noodle machine, the processes of dough kneading, dough pressing, noodle cutting and the like are generally needed, wherein staff is needed to participate in each process, for example, dough carrying and the like, and as the physical qualities of the staff are different, the more the staff are involved, the process of each process is different.

Disclosure of utility model

In order to solve the problem of connection of various working procedures, realize unmanned production, clean and sanitary, save manpower and logistics, the utility model provides integrated noodle processing equipment.

The utility model provides integrated noodle processing equipment which adopts the following technical scheme:

The utility model provides an integrated noodle processing equipment, includes electric control system, mix powder machine and noodle machine, mix powder machine includes agitator, mix powder machine power system, upper cover and side cap, noodle machine includes noodle machine power part, two following face auger mechanisms, three oodle mechanism, noodle sword mechanism and conveying mechanism, two following face auger mechanisms all include two shaftless augers, and wherein two oodle mechanisms are located the inside of noodle machine side by side, another one oodle mechanism is located the below of two oodle mechanisms wherein, three oodle mechanism all includes adjustable roll and fixed roll.

Through adopting above-mentioned technical scheme, the powder mixer of vacuum stirring combines together with the noodle, solves the linking of each process, and seamless connection, adaptability is strong, and degree of automation is high, is favorable to realizing unmanned production, and clean health uses manpower logistics sparingly, and the great flour batting accessible shaftless auger after the stirring gets into the noodle pressing mechanism, avoids the appearance of flour batting winding on the auger epaxial condition, has increased the space volume of auger transmission flour batting simultaneously, is convenient for in the transmission flour batting of sooner.

Preferably, the noodle machine power part comprises two motors two, three, four and five, the end transmission of the output shaft of the two motors is connected with one end of a corresponding fixed roller, the two ends of the output shaft of the two motors are connected with one end of the corresponding fixed roller, one sides of the two motors two and three are fixedly connected with the inside of the noodle machine, one side of the four motors is fixedly connected with the outer surface of the noodle machine, the end of the output shaft of the five motors is fixedly connected with one end of a corresponding shaftless auger, and one side of the five motors is fixedly connected with the inside of the noodle machine.

Through adopting above-mentioned technical scheme, drive the noodle press mechanism through noodle machine power part, noodle cutter mechanism is operated, make noodle press mechanism simultaneously, noodle cutter mechanism is with motor two, motor three, motor four drive respectively, form independent power supply system, when the power supply of one of them noodle press mechanism damages, do not influence the continuation of two other noodle press mechanisms and noodle cutter mechanism and use, when the power supply of noodle cutter mechanism damages like this, do not delay noodle machine normal delay to press the face skin, and then process other wheaten food through the section cutter, for example the face page.

Preferably, the noodle cutter mechanism comprises a fixed noodle cutter, an adjustable noodle cutter and a cutting knife, wherein the fixed noodle cutter and the adjustable noodle cutter are both rotationally connected with a noodle cutter shaft in the noodle machine, one noodle cutter shaft is fixedly connected with the noodle machine, the other noodle cutter shaft is slidingly connected with the noodle machine, the outer surface of the corresponding noodle cutter shaft is fixedly connected with an adjusting handle III, and the outer surfaces of the fixed noodle cutter and the adjustable noodle cutter are lapped with a belt II; the inside fixedly connected with of cutting the cutter cuts arbor, cuts the cutting board, the surface of cutting the arbor rotates and connects in the inside of noodle, the end fixed connection of four output shafts of motor is in the one end of cutting the arbor, it is located the below of cutting the cutter to cut the cutting board.

Through adopting above-mentioned technical scheme, through fixed noodless sword with adjustable noodless sword is cut the face skin, carries out the section through cutting the noodless after cutting to cutting through the sword for noodless are convenient for in the partial shipment.

Preferably, a baffle plate, four front plates and two scrapers are fixedly connected in the noodle machine, two noodle poking devices are rotatably connected in the noodle machine, each noodle poking device is positioned between a corresponding adjustable roller and a corresponding fixed roller, the tops of the two fixed rollers are lapped at the bottom of the baffle plate, the bottoms of the two fixed rollers are lapped at the top of the corresponding scrapers, three adjustable rollers are slidably connected in the noodle machine, and the three fixed rollers are rotatably connected in the noodle machine; the outer surfaces of the two adjustable rollers are fixedly connected with a first adjusting handle, the outer surfaces of the other adjustable roller are fixedly connected with a second adjusting handle, and the outer surfaces of the first adjusting handles, the second adjusting handle and the third adjusting handle are in threaded connection and penetrate through the shell of the noodle machine; the outer surface of each adjustable roller and the outer surface of each fixed roller are fixedly connected with belt wheels III, and the outer surfaces of each corresponding two belt wheels III are lapped with a belt I.

Through adopting above-mentioned technical scheme, twist adjustment handle one and adjustment handle two, adjust adjustable roll and fixed roll's distance change and press the rolling skin thickness, make things convenient for in the skin of the different thickness of preparation, twist adjustment handle three, adjust adjustable noodle sword and fixed noodle sword between the distance change, the rolling and the slitting of skin just go on simultaneously, be favorable to cutting into multiple thickness and thin even noodless.

Preferably, the conveying mechanism comprises a conveying frame, two conveying rollers are rotatably connected to the inside of the conveying frame, a conveying belt is lapped on the outer surface of each conveying roller, the outer surface of the conveying frame is fixedly connected to the outer surface of the noodle maker, the outer surface of the conveying frame penetrates through one side of the noodle maker, two belt wheels I are fixedly connected to the tail end of a motor three output shaft, belt wheels II are fixedly connected to the outer surfaces of the conveying rollers and the cutter shaft, and a belt III is lapped on the outer surface of each belt wheel I and the outer surface of the corresponding belt wheel II.

Preferably, the powder mixer power system comprises a motor I and four cylinders, wherein the outer surface of the powder mixer is fixedly connected with two connecting rod hinge point brackets, a supporting plate and a connecting plate, one side of one cylinder is fixedly connected with the top of the supporting plate, one side of one cylinder is fixedly connected with the bottom of the connecting plate, the tail ends of output shafts of the two cylinders are respectively fixedly connected with an upper cover opening connecting rod and a side cover opening connecting rod, one end of the upper cover opening connecting rod is fixedly connected with the outer surface of an upper cover, one end of the side cover opening connecting rod is fixedly connected with the outer surface of a side cover, and the upper cover opening connecting rod and the side cover opening connecting rod are connected with the powder mixer through corresponding connecting rod hinge point brackets; and the first motor, the second motor, the third motor, the fourth motor, the fifth motor and the fourth cylinder are all in communication connection with the electric control system.

By adopting the technical scheme, the air cylinder can be controlled by the electric control system to pull the upper cover and the side cover, flour is added or flour is discharged from the side surface, and the machine is convenient for a single machine of the flour mixer to use.

Preferably, the top of the upper cover is fixedly connected with a vacuumizing pipe joint and a water inlet joint, one end of the water inlet joint is fixedly connected with a flow meter, one end of the flow meter is fixedly connected with a water source joint, the outer surface of the water source joint is fixedly connected with a water valve, one end of the vacuumizing pipe joint is fixedly connected with a vacuumizing pipe, the outer surface of the vacuumizing pipe is fixedly connected with a vacuum meter, one end of the vacuumizing pipe is fixedly connected with a vacuum pump, and the flow meter, the water valve, the vacuum meter and the vacuum pump are all in communication connection with an electric control system; the inside rotation of agitator is connected with the (mixing) shaft, the surface fixedly connected with of (mixing) shaft has a plurality of stirring leaf, the bottom fixed connection of powder mixer is in one side of motor one, the end fixed connection of the terminal of an output shaft of motor is in the bottom of (mixing) shaft.

Through adopting above-mentioned technical scheme, through the vacuum pump to the inside evacuation of mixing powder machine for the water fall dispersed's of entering drop of water, increase and flour's area of contact, be convenient for the quick stirring become the face batting.

Preferably, the bottom outlet has been seted up to the bottom of mixing powder machine, the bottom fixedly connected with of mixing powder machine two slide rails and two cylinder fixed plates, the top sliding connection of slide rail has the door closure of appearing down, wherein two the end of cylinder output shaft is equal fixed connection and the surface of the door closure of appearing down that corresponds, two the door closure of appearing down is located one side of bottom outlet.

Through adopting above-mentioned technical scheme, accessible electric control system control cylinder pulls down and goes out face door closure, and when the online use of powder mixer, flour batting can get into in the noodle from the powder mixer bottom.

As the technical scheme of the utility model, the provided hardware setting is only used for realizing the connection of each procedure on the basis of hardware facilities, realizing unmanned production, cleaning and sanitation, saving manpower and logistics, and particularly realizing the connection of each procedure, realizing unmanned production, cleaning and sanitation, saving manpower and logistics, and is not an object of the technical problem to be solved and protection of the utility model, and meanwhile, the communication methods among devices all adopt the existing communication methods, which is not an innovation point of the utility model.

In summary, the utility model has the following beneficial technical effects:

1. The device is provided with the vacuum pump and the flour-mixing auger mechanism, the vacuum pump vacuumizes the stirring barrel, water is injected under the vacuum environment, water drops enter the stirring barrel and are in a scattered state, flour is more uniform in contact with water, the flour-mixing effect is good, the time is short, the efficiency is high, the shaftless auger avoids the situation that flour batting is wound on an auger shaft, meanwhile, the space volume of the auger to transfer the flour batting is increased, the flour batting can be transferred more quickly, the vacuum stirring flour mixer can be combined with a noodle machine, the connection of each process is solved, the seamless connection is high, the adaptability is high, the automation degree is high, the unmanned production is realized, the cleaning and sanitation are realized, and the manpower logistics is saved;

2. The device is provided with the first adjusting handle, the second adjusting handle and the third adjusting handle, the first adjusting handle and the second adjusting handle are screwed, the thickness of the rolled dough sheet is changed by adjusting the distance between the adjustable roller and the fixed roller, the dough sheet with different thicknesses is manufactured conveniently, the third adjusting handle is screwed, the distance between the adjustable noodle cutter and the fixed noodle cutter is changed, the rolling and cutting of the dough sheet are simultaneously carried out, and the rolling and cutting of the dough sheet into noodles with various thicknesses and even thickness are facilitated.

Drawings

FIG. 1 is a schematic view of an integrated noodle processing apparatus according to the present utility model;

FIG. 2 is a schematic structural view of a powder mixer in an integrated noodle processing apparatus according to the present utility model;

FIG. 3 is a schematic view of the structure of the forward screw mechanism, the noodle pressing mechanism and the noodle cutter mechanism in the integrated noodle processing device of the present utility model;

Fig. 4 is a schematic perspective view of a shaftless auger in an integrated noodle processing apparatus according to the present utility model;

Fig. 5 is a schematic perspective view of a stirring shaft and stirring blades in an integrated noodle processing apparatus according to the present utility model.

Reference numerals illustrate:

1. A powder mixer; 11. a stirring barrel; 12. a powder mixer power system; 13. an upper cover; 14. a side cover; 15. a bottom outlet; 16. a lower door cover; 17. a stirring shaft;

2. A noodle machine; 21. a dough auger mechanism; 211. a shaftless auger;

22. A dough pressing mechanism; 221. an adjustable roller; 222. fixing a roller; 223. an adjusting handle I; 224. an adjusting handle II;

23. A noodle cutter mechanism; 231. fixing a noodle cutter; 232. an adjustable noodle cutter; 233. an adjusting handle III; 234. cutting knife;

24. A conveying mechanism; 25. a cis-panel; 26. a scraper; 27. a third motor; 28. a baffle plate; 29. a dough shifter;

3. a flow meter; 4. a vacuum gauge; 5. and a vacuum pump.

Detailed Description

The utility model is described in further detail below with reference to fig. 1-5.

The embodiment of the utility model discloses integrated noodle processing equipment.

Referring to figures 1, 2 and 3, the electric control system (known technology) comprises a PLC processor, the PLC processor selects the existing processor with the functions of information transmission, control, judgment, data processing, data storage and the like, the powder mixer 1 comprises a stirring barrel 11, a powder mixer power system 12, an upper cover 13 and a side cover 14, the stirring barrel 11 adopts a vertical stirring barrel, the upper cover 13 is arranged above the stirring barrel 11, a motor I is connected below the stirring barrel 11, the motor I drives a stirring shaft 17 to rotate, flour and water are enabled to rotate by a plurality of stirring blades, the powder mixer 1 can be used singly and only used for stirring into flour batting, or can be used together with the noodle machine 2 on line, the flour batting is processed into noodles, the noodle machine 2 comprises a noodle power part, two flour-following auger mechanisms 21, three flour pressing mechanisms 22, a noodle cutter mechanism 23 and a conveying mechanism 24, the two flour-following auger mechanisms 21 comprise two shaftless augers 211, a plate frame is arranged at the bottom of each flour-following auger mechanism 21, flour battings in the plate frame are driven to enter the flour pressing mechanism 22 by rotation of the shaftless augers 211, flour and water are mixed and then are stirred successfully in the stirring barrel 1 to form flour battings, when the flour battings are driven to be downwards output by the shaftless augers 211, a part of flour battings are wound on auger shafts, when the flour battings attached to the auger shafts are more, the augers are easy to be blocked, the condition that the flour battings are wound on the auger shafts is avoided through the shaftless augers 211, the space volume of the flour battings transmitted by the augers is increased, the flour battings are transmitted conveniently, the two flour pressing mechanisms 22 are positioned in the noodle machine 2 side by side, the other flour pressing mechanism 22 is positioned below the two flour pressing mechanisms 22, the two side-by-side dough pressing mechanisms 22 can divide the dough into two halves and roll the two dough sheets, the third dough pressing mechanism 22 can combine the two dough sheets into one to form one dough sheet, the dough sheet further enters the noodle cutter mechanism 23 to be cut into noodles, the cut noodles leave the noodle machine 2 through the conveying mechanism 24, and the three dough pressing mechanisms 22 comprise adjustable rollers 221 and fixed rollers 222.

Referring to fig. 1 and 4, the noodle machine power part comprises two motors two, three 27, four motors and five motors, the tail end transmission of two output shafts of the motors is connected to one end of the corresponding fixed roller 222, the tail ends of two output shafts of the motors are connected to one end of the corresponding fixed roller 222, the flour batting falls into two groups of adjustable rollers 221 and fixed rollers 222 respectively through baffle plates 28, the first rolling of the flour batting is carried out, scraping plates 26 are arranged on the fixed rollers 222, adhesion of the flour batting on the fixed rollers 222 is prevented, after rolling, two flour sheets enter into the third flour pressing mechanism 22 through the following panel 25, the two flour batts are combined and rolled into the flour batting with proper thickness, then enter into the noodle cutter for cutting, one side of the two motors two and three 27 is fixedly connected to the inside of the noodle machine 2, one side of the motor four is fixedly connected to the outer surface of the noodle machine 2, the tail ends of the two motors five output shafts are fixedly connected to one end of the corresponding shaftless auger 211, and are easy to disperse due to the fact that the batting is lighter, the flour batting is easy to disperse, the two sides are arranged on the two sides of the surface outlet mechanism 21, the two sides are arranged on the surface outlet mechanism 21, the two sides of the two surface-free surface mechanisms are arranged, the two surface-rolling mechanisms are arranged on the eight-shaped surface-forming mechanisms 21 are arranged, the surface-forming mechanism is avoided to be the surface-forming mechanism, the surface-forming mechanism is easy to be more waste, and the surface-forming surface 21 is easy to rotate, and the surface is connected to the surface-forming mechanism 21, and the surface-forming mechanism is easy to rotate, and the surface is convenient to rotate, and the surface and the surface is easy to be directly and the surface.

Referring to fig. 1 and 3, the noodle cutter mechanism 23 comprises a fixed noodle cutter 231, an adjustable noodle cutter 232 and a cutting knife 234, wherein the noodle cutter shafts are rotatably connected to the interiors of the fixed noodle cutter 231 and the adjustable noodle cutter 232, one noodle cutter shaft is fixedly connected to the interior of the noodle machine 2, the other noodle cutter shaft is slidably connected to the interior of the noodle machine 2, the outer surfaces of the corresponding noodle cutter shafts are fixedly connected with an adjusting handle III 233, and the outer surfaces of the fixed noodle cutter 231 and the adjustable noodle cutter 232 are lapped with a belt II;

The inside fixedly connected with of section sword 234 cuts arbor, cut the cutting board, the surface rotation of cutting the arbor is connected in the inside of noodle 2, the terminal fixed connection of motor four output shafts is in the one end of cutting the arbor, the cutting board is located the below of section sword 234, the skin cuts into even noodless in noodless sword mechanism 23, when noodless pass through the cutting board, cut the sword 234 and cut off noodless, be equipped with the flour bucket on the noodle 2, be located conveying mechanism 24 top, when the noodless after cutting off pass through the flour bucket, the flour bucket evenly spills dry flour on the noodless, in order to prevent the adhesion, evenly equally long noodless pass through the conveyer belt and carry to next production processing course at last.

Referring to fig. 1 and 3, a baffle plate 28, four dough plates 25 and two scrapers 26 are fixedly connected inside the noodle machine 2, the two dough plates 25 are positioned below the side-by-side noodle pressing mechanisms 22, a single row of noodle pressing mechanisms 22 is arranged above the single row of noodle pressing mechanisms 22, so that two noodle skins are guided to enter, in the single row of noodle pressing mechanisms 22, noodle batts are formed inside the 3 noodle pressing mechanisms 22 in a noodle forming manner, so that the noodle batts are changed into the noodle skins, two flour-stirring devices 29 are rotatably connected inside the noodle machine 2, the baffle plate 28 and the flour-stirring devices 29 prevent the noodle batts from entering the back surface of the noodle pressing mechanisms 22, the noodle batts are helped to enter into the noodle pressing rollers for noodle pressing forming, each flour-stirring device 29 is positioned between a corresponding adjustable roller 221 and a corresponding fixed roller 222, the top of the two fixed rollers 222 is lapped on the bottom of the baffle plate 28, the bottom of the two fixed rollers 222 is lapped on the top of the corresponding scraper plate 26, the three adjustable rollers 221 are all slidingly connected inside the noodle machine 2, and the three fixed rollers 222 are rotatably connected inside the noodle machine 2;

The outer surfaces of the two adjustable rollers 221 are fixedly connected with an adjusting handle I223, the outer surfaces of the other adjustable rollers 221 are fixedly connected with an adjusting handle II 224, the outer surfaces of the two adjusting handles I223, the outer surfaces of the adjusting handle II 224 and the outer surfaces of the adjusting handle III 233 are in threaded connection and penetrate through the shell of the noodle machine 2, the distance between the adjustable rollers 221 and the fixed rollers 222 is adjusted by rotating the adjusting handle I223 and the adjusting handle II 224, and when the dough sheet is changed, the thickness of the dough sheet is rolled, so that the noodle machine can be suitable for producing noodles with different specifications, the change of the distance between the adjustable rollers 221 and the fixed rollers 222 is small, and when the motor II drives the belt I to rotate, the change of the distance between the adjustable rollers 221 and the fixed rollers 222 can be suitable by adjusting the tightness of the belt I; similarly, by twisting the third adjusting handle 233, the distance between the adjustable noodle cutter 232 and the fixed noodle cutter 231 is changed, and the changed distance can be adapted by adjusting the tightness of the second belt;

The outer surface of each adjustable roller 221 and the outer surface of each fixed roller 222 are fixedly connected with belt wheels III, and the outer surfaces of each corresponding two belt wheels III are lapped with a belt I.

Referring to fig. 1, the conveying mechanism 24 includes a conveying frame, two conveying rollers are rotatably connected to the inside of the conveying frame, conveying belts are lapped on the outer surfaces of the two conveying rollers, the outer surface of the conveying frame is fixedly connected to the outer surface of the noodle machine 2, the outer surface of the conveying frame penetrates through one side of the noodle machine 2, two belt wheels I are fixedly connected to the tail end of an output shaft of a motor III 27, belt wheels II are fixedly connected to the outer surfaces of the conveying rollers and a cutter shaft, and a belt III is lapped on the outer surface of each belt wheel I and the outer surface of the corresponding belt wheel II.

Referring to fig. 1 and 2, the powder mixer power system 12 comprises a first motor and four cylinders, the outer surface of the powder mixer 1 is fixedly connected with two connecting rod hinge point brackets, a supporting plate and a connecting plate, one side of one cylinder is fixedly connected to the top of the supporting plate, one side of one cylinder is fixedly connected to the bottom of the connecting plate, wherein the tail ends of output shafts of the two cylinders are respectively fixedly connected with an upper cover connecting rod and a side cover connecting rod, one end of the upper cover connecting rod is fixedly connected to the outer surface of an upper cover 13, one end of the side cover connecting rod is fixedly connected to the outer surface of a side cover 14, the upper cover connecting rod and the side cover connecting rod are connected with the powder mixer 1 through corresponding connecting rod hinge point brackets, the other end of the upper cover connecting rod is fixedly connected with the upper cover 13 through the supporting plate, the middle position of the upper cover connecting rod is connected with the connecting rod hinge point brackets, the upper cover connecting rod can freely rotate on the connecting rod hinge point brackets, the electric control system controls the cylinders to do telescopic motion, the upper cover connecting rod is driven to move around the hinge points on the hinge point brackets, so that the upper cover 13 is driven to be opened or closed, the corresponding cylinders are connected with the side cover through the corresponding connecting rods to the side cover brackets, the corresponding connecting rods are connected with the side opening plates, the side covers can be opened from the outer surfaces of the side frames, and the side covers can be opened, and the side frames can be opened, and opened through the electric control door opening surfaces are opened, and opened;

The first motor, the second motor, the third motor 27, the fourth motor, the fifth motor and the fourth cylinder are all in communication connection with the electric control system.

Referring to fig. 2 and 5, the top of the upper cover 13 is fixedly connected with a vacuumizing pipe joint and a water inlet joint, one end of the water inlet joint is fixedly connected with a flow meter 3, one end of the flow meter 3 is fixedly connected with a water source joint, the outer surface of the water source joint is fixedly connected with a water valve, one end of the vacuumizing pipe joint is fixedly connected with a vacuumizing pipe, the outer surface of the vacuumizing pipe is fixedly connected with a vacuum meter 4, one end of the vacuumizing pipe is fixedly connected with a vacuum pump 5, water is injected in a vacuum environment, water drops enter the stirring barrel 11 and are in a scattered state, flour is in contact with water more uniformly, the powder stirring effect is better, the time is short, the efficiency is high, the flow meter 3, the water valve, the vacuum meter 4 and the vacuum pump 5 are all in communication connection with an electric control system, the flow meter 3 and the electric control system are combined together, after water flow reaches a set value through the flow meter, a signal is transmitted to the electric control system, the electric control system controls the opening or closing of the water flow valve, and the vacuum meter 4 is combined with the electric control system to realize automatic quantitative water feeding, and when the vacuum degree in the stirring barrel 11 reaches the set value, the electric control system receives the signal, and the vacuum pump 5 stops vacuumizing;

the inside rotation of agitator 11 is connected with (mixing) shaft 17, and (mixing) shaft 17's surface fixedly connected with a plurality of stirring leaf, the bottom fixed connection of mixer 1 is in one side of motor one, and the end fixed connection of motor output shaft is in the bottom of (mixing) shaft 17.

Referring to fig. 1 and 2, a bottom outlet 15 is formed in the bottom of the powder mixer 1, two sliding rails and two air cylinder fixing plates are fixedly connected to the bottom of the powder mixer 1, a lower surface door cover 16 is slidably connected to the top of the sliding rails, the tail ends of two air cylinder output shafts are fixedly connected to the outer surfaces of the corresponding lower surface door covers 16, the two lower surface door covers 16 are located on one side of the bottom outlet 15, the sliding rails and the air cylinder fixing plates are mounted at the bottom of the stirring barrel 11, the corresponding two air cylinders are fixed to the air cylinder fixing plates, the output ends are respectively connected with the lower surface door covers 16, an electric control system controls the air cylinders to do telescopic motion, the lower surface door covers 16 are pushed and pulled along the sliding rails, the lower surface door covers 16 are opened or closed, the lower surface door covers 16 are opened, and good surface flocculation is discharged from the bottom of the surface barrel.

The implementation principle of the integrated noodle processing equipment provided by the embodiment of the utility model is as follows:

1. The electric control system controls one of the cylinders to enable the upper cover 13 to be automatically opened, flour is placed into the flour mixer 1 with the vacuum inside, after the electric control system controls the upper cover 13 to be automatically closed, vacuumizing is started in the stirring barrel 11, when the vacuum degree in the stirring barrel 11 reaches the set value of the vacuum meter 4, the vacuum pump 5 stops vacuumizing, meanwhile, the electric control system controls the water flow valve to open water injection, after the water flow reaches the set value, water injection is stopped, when the flour mixer is used as a single machine, after flour mixing is stopped, the side surface door cover is opened, and good flour batting can be discharged through the side surface outlet; when the noodle machine is used online, after dough kneading is stopped, the bottom lower surface door cover 16 is opened, and the noodle wadding is discharged into the noodle machine 2 through the bottom of the noodle barrel;

2. According to the requirement, the first adjusting handle 223 and the second adjusting handle 224 are screwed, the thickness of the dough sheet is changed by adjusting the distance between the adjustable roller 221 and the fixed roller 222, the dough to be mixed enters the noodle machine 2 through the bottom outlet 15 at the bottom of the powder mixer 1, the dough falls into two groups of adjustable dough rollers and fixed dough rollers respectively through the baffle plate 28, the first rolling is carried out, two dough sheets enter the third dough pressing mechanism 22 through the following plate 25, the dough sheets with proper thickness are combined and rolled, the dough sheets enter the noodle cutter mechanism 23 again, the dough sheets are cut, uniform noodles are cut, and when the noodles pass through the cutting plate, the cutting knife 234 cuts the noodles, and the conveying mechanism 24 conveys the cut noodles out of the noodle machine 2.

The above embodiments are not intended to limit the scope of the present utility model, so: all equivalent changes in structure, shape and principle of the utility model should be covered in the scope of protection of the utility model.

Claims (8)

1. The utility model provides an integrated noodless processing equipment, includes electric control system, mix powder machine (1) and noodless machine (2), its characterized in that: the powder mixer (1) comprises a mixing drum (11), a powder mixer power system (12), an upper cover (13) and a side cover (14), wherein the noodle maker (2) comprises a noodle maker power part, two sequential screw mechanisms (21), three noodle pressing mechanisms (22), noodle cutter mechanisms (23) and conveying mechanisms (24), two sequential screw mechanisms (21) comprise two shaftless screw augers (211), two noodle pressing mechanisms (22) are arranged in the noodle maker (2) side by side, the other noodle pressing mechanism (22) is arranged below the two noodle pressing mechanisms (22), and the three noodle pressing mechanisms (22) comprise adjustable rollers (221) and fixed rollers (222).

2. An integrated noodle processing apparatus as defined in claim 1, wherein: the noodle machine power part comprises two motors II, three motors 27, four motors and five motors, wherein the tail ends of the output shafts of the motors II are in transmission connection with one end of a corresponding fixed roller 222, the tail ends of the output shafts of the motors II are in transmission connection with one end of the corresponding fixed roller 222, one sides of the motors II and three motors 27 are fixedly connected with the inside of the noodle machine 2, one side of the motor IV is fixedly connected with the outer surface of the noodle machine 2, the tail ends of the output shafts of the motors five are fixedly connected with one end of a corresponding shaftless auger 211, and one side of the motors five is fixedly connected with the inside of the noodle machine 2.

3. An integrated noodle processing apparatus according to claim 2, wherein: the noodle cutter mechanism (23) comprises a fixed noodle cutter (231), an adjustable noodle cutter (232) and a cutting knife (234), wherein noodle cutter shafts are rotationally connected to the inside of the fixed noodle cutter (231) and the inside of the adjustable noodle cutter (232), one noodle cutter shaft is fixedly connected to the inside of the noodle machine (2), the other noodle cutter shaft is slidingly connected to the inside of the noodle machine (2), an adjusting handle III (233) is fixedly connected to the outer surface of the corresponding noodle cutter shaft, and a second belt is lapped on the outer surfaces of the fixed noodle cutter (231) and the adjustable noodle cutter (232);

the inside fixedly connected with of section cutter (234) cuts arbor, cuts the cutting board, the surface of cutting the arbor rotates to be connected in the inside of noodle (2), the end fixed connection of four output shafts of motor is in the one end of cutting the arbor, cut the cutting board and be located the below of cutting cutter (234).

4. An integrated noodle processing apparatus according to claim 3, wherein: the noodle machine is characterized in that a baffle plate (28), four front plates (25) and two scrapers (26) are fixedly connected to the inside of the noodle machine (2), two noodle poking devices (29) are rotatably connected to the inside of the noodle machine (2), each noodle poking device (29) is located between a corresponding adjustable roller (221) and a corresponding fixed roller (222), the tops of the two fixed rollers (222) are lapped on the bottom of the baffle plate (28), the bottoms of the two fixed rollers (222) are lapped on the top of the corresponding scrapers (26), the three adjustable rollers (221) are slidably connected to the inside of the noodle machine (2), and the three fixed rollers (222) are rotatably connected to the inside of the noodle machine (2);

The outer surfaces of the two adjustable rollers (221) are fixedly connected with an adjusting handle I (223), the outer surfaces of the other adjustable rollers (221) are fixedly connected with an adjusting handle II (224), and the outer surfaces of the two adjusting handles I (223), the outer surfaces of the adjusting handle II (224) and the outer surfaces of the adjusting handle III (233) are in threaded connection and penetrate through the shell of the noodle machine (2);

The outer surface of each adjustable roller (221) and the outer surface of each fixed roller (222) are fixedly connected with belt wheels III, and the outer surfaces of each corresponding two belt wheels III are lapped with a belt I.

5. An integrated noodle processing apparatus as defined in claim 4, wherein: the conveying mechanism (24) comprises a conveying frame, two conveying rollers are rotatably connected to the inside of the conveying frame, a conveying belt is lapped on the outer surface of each conveying roller, the outer surface of the conveying frame is fixedly connected to the outer surface of the noodle machine (2), the outer surface of the conveying frame penetrates through one side of the noodle machine (2), two belt wheels I are fixedly connected to the tail end of an output shaft of a motor III (27), belt wheels II are fixedly connected to the outer surfaces of the conveying rollers and a cutter shaft, and a belt III is lapped on the outer surface of each belt wheel I and the outer surface of the corresponding belt wheel II.

6. An integrated noodle processing apparatus as defined in claim 5, wherein: the powder mixer power system (12) comprises a motor I and four cylinders, wherein the outer surface of the powder mixer (1) is fixedly connected with two connecting rod hinge point brackets, a supporting plate and a connecting plate, one side of each cylinder is fixedly connected with the top of the supporting plate, one side of each cylinder is fixedly connected with the bottom of the connecting plate, the tail ends of output shafts of the two cylinders are respectively fixedly connected with an upper cover opening connecting rod and a side cover opening connecting rod, one end of the upper cover opening connecting rod is fixedly connected with the outer surface of an upper cover (13), one end of the side cover opening connecting rod is fixedly connected with the outer surface of a side cover (14), and the upper cover opening connecting rod and the side cover opening connecting rod are connected with the powder mixer (1) through corresponding connecting rod hinge point brackets;

and the first motor, the second motor, the third motor (27), the fourth motor, the fifth motor and the fourth cylinder are all in communication connection with the electric control system.

7. An integrated noodle processing apparatus as defined in claim 6, wherein: the top of the upper cover (13) is fixedly connected with a vacuumizing pipe joint and a water inlet joint, one end of the water inlet joint is fixedly connected with a flowmeter (3), one end of the flowmeter (3) is fixedly connected with a water source joint, the outer surface of the water source joint is fixedly connected with a water valve, one end of the vacuumizing pipe joint is fixedly connected with a vacuumizing pipe, the outer surface of the vacuumizing pipe is fixedly connected with a vacuum gauge (4), one end of the vacuumizing pipe is fixedly connected with a vacuum pump (5), and the flowmeter (3), the water valve, the vacuum gauge (4) and the vacuum pump (5) are all in communication connection with an electric control system;

the inside rotation of agitator (11) is connected with (mixing) shaft (17), the surface fixedly connected with of (mixing) shaft (17) a plurality of stirring leaf, the bottom fixed connection of powder mixer (1) is in one side of motor one, the end fixed connection of the end of an output shaft of motor is in the bottom of (mixing) shaft (17).

8. An integrated noodle processing apparatus as defined in claim 7, wherein: the bottom outlet (15) has been seted up to the bottom of mixing powder machine (1), the bottom fixedly connected with of mixing powder machine (1) two slide rails and two cylinder fixed plates, the top sliding connection of slide rail has down to appear door closure (16), wherein two the terminal equal fixed connection of cylinder output shaft and the surface of the door closure (16) of appearing down that corresponds, two appear door closure (16) down and be located one side of bottom outlet (15).