阅读说明：本技术 一种面条自动加工设备 (Automatic noodle processing equipment ) 是由 江城 于 2019-11-27 设计创作，主要内容包括：本发明公开了一种面条自动加工设备,包括和面箱和压面箱,所述和面箱安装在压面箱的上部一端；所述和面箱的底部靠近压面箱的一侧安装有可上下移动的挡板,和面箱的顶部安装横板,且横板的底部安装有可转动的第一液压柱,且第一液压柱的下方安装有若干个搅拌杆。进风管从面粉箱的内部吸收面粉输送到喷洒管与内筒之间。面粉被吹动后从若干个穿孔进入到内筒的内部,面粉在内筒的内部与若干根面条的外部接触。面条在内筒的内部经过后,外部被覆盖一层面粉,使得若干根面条相互之间不会粘接。面条收集后无需工作人员再手工喷洒面粉,买条制作更加方便,使得面条的品质更好。(The invention discloses automatic noodle processing equipment which comprises a noodle kneading box and a noodle pressing box, wherein the noodle kneading box is arranged at one end of the upper part of the noodle pressing box; one side of the bottom of the dough kneading box, which is close to the dough pressing box, is provided with a baffle plate capable of moving up and down, the top of the dough kneading box is provided with a transverse plate, the bottom of the transverse plate is provided with a rotatable first hydraulic column, and the lower part of the first hydraulic column is provided with a plurality of stirring rods. The air inlet pipe absorbs flour from the interior of the flour box and conveys the flour to a position between the spraying pipe and the inner barrel. The flour enters the inner cylinder from the plurality of through holes after being blown, and the flour contacts the outer parts of the plurality of noodles in the inner cylinder. After the noodles pass through the inner cylinder, the outer part of the inner cylinder is covered with a layer of flour, so that a plurality of noodles cannot be adhered to each other. After the noodles are collected, the flour is sprayed manually by workers, so that the noodles are more convenient to buy and manufacture, and the quality of the noodles is better.)

1. The automatic noodle processing equipment is characterized by comprising a noodle kneading box (1) and a noodle pressing box (14), wherein the noodle kneading box (1) is arranged at one end of the upper part of the noodle pressing box (14); a baffle (4) capable of moving up and down is installed on one side, close to the noodle pressing box (14), of the bottom of the noodle kneading box (1), a transverse plate (2) is installed on the top of the noodle kneading box (1), a rotatable first hydraulic column (23) is installed at the bottom of the transverse plate (2), and a plurality of stirring rods (22) are installed below the first hydraulic column (23);

the bottom of one end, far away from the dough kneading box (1), of the dough kneading box (14) is connected with a plurality of dough outlet pipes (7), one end, far away from the dough kneading box (14), of each dough outlet pipe (7) is connected with a spray pipe (10), an inner cylinder (33) is sleeved in each spray pipe (10), the outer parts of the upper end and the lower end of each inner cylinder (33) are fixedly connected with the inner wall of each spray pipe (10) in a sealing mode through a circular connecting plate (36), and a plurality of through holes (34) penetrate through the side wall of each inner cylinder (33); an air inlet pipe (29) is connected to the upper part of one side of the spraying pipe (10), an air outlet pipe (30) is connected to the lower part of the other side of the spraying pipe, the air outlet pipe (30) is arranged below the inner cylinder (33), and the air inlet pipe (29) is in through connection with a gap between the spraying pipe (10) and the inner cylinder (33);

the top of the inner cylinder (33) is connected with a plurality of insertion pipes (37) in a penetrating manner, a plurality of face outlet holes are formed in the face outlet pipes (7), the insertion pipes (37) are inserted in the face outlet holes, the upper ends of the spray pipes (10) are connected with the face outlet pipes (7) through thread fixing cylinders (8), and two ends of each thread fixing cylinder (8) are connected with the outside of the face outlet pipes (7) and the outside of the spray pipes (10) through threads;

frame (15) are installed to the bottom of pressure face case (14), and horizontal pole (12) are all installed in the below of spray pipe (10) in the upper portion both sides of frame (15), rotate between two horizontal pole (12) lower parts and install slide (13), install detachable backup pad (11) between the upper portion.

2. The automatic noodle processing equipment according to claim 1, wherein a plurality of partition plates (6) are vertically arranged in the noodle pressing box (14), the plurality of partition plates (6) divide the interior of the noodle pressing box (14) into a plurality of storage grooves (5), and a cutting knife (3) is connected to one side, close to the noodle kneading box (1), of the top of each partition plate (6).

3. The automatic noodle processing device according to claim 1, wherein a third hydraulic cylinder (28) is connected to the top of the baffle plate (4), a receiving groove is formed in the bottom end of the side wall of the noodle box (1) above the baffle plate (4), and the top of the third hydraulic cylinder (28) is connected with the inner top end of the receiving groove.

4. The automatic noodle processing equipment according to claim 1, wherein a limiting rod (43) is installed on one side, far away from the noodle kneading box (1), of the noodle kneading box (14), a bearing plate (9) is installed on the top of the limiting rod (43) in a sliding mode, clamping grooves (38) are formed in the top of the bearing plate (9) along the width direction and the top of the limiting rod (43) along the length direction, fourth hydraulic columns (39) are installed at two ends of the bottom of the bearing plate (9), a vertically-arranged stress rod (40) is installed on the top of the bearing plate (9) through the clamping grooves (38), clamping plates (41) are connected to the bottom of the stress rod (40) and the bottom of the fourth hydraulic columns (39), the clamping plates (41) are installed in a clamping mode with the clamping grooves (38), and the top of the stress rod (40) is connected with the bottom of the spraying pipe (10).

5. The automatic noodle processing equipment according to claim 1, wherein one end of the sliding plate (13) close to the noodle pressing box (14) is rotatably mounted with the two cross rods (12) through a rotating rod, one end of the rotating rod is connected with the output end of the first motor (18), the first motor (18) is fixedly connected with the cross rod (12) on one side, iron fixing columns (21) are connected on the two sides of the other end of the sliding plate (13) from top to bottom, one ends of the iron fixing columns (21) far away from the sliding plate (13) are connected with magnet blocks (20), second insertion holes (19) are formed in the two sides of the end part of the sliding plate (13) far away from the noodle pressing box (14), a plug pin (16) is movably connected to the end part of the cross rod (12) far away from the noodle pressing box (14), and the plug pin (16) is matched with.

6. The automatic noodle processing equipment according to claim 1, wherein two sets of insertion rods (35) are vertically connected to both ends of the bottom of the support plate (11), a plurality of first insertion holes (17) are formed in the top of the cross rod (12), the insertion rods (35) are inserted into the first insertion holes (17), a placing plate (44) is connected to the top of the support plate (11) in parallel, a plurality of electric telescopic columns (45) are installed between the bottom of the placing plate (44) and the support plate (11), and a non-slip mat is connected to the top of the placing plate (44).

7. The automatic noodle processing equipment according to claim 1, wherein both ends of the transverse plate (2) are connected with bolt rods (24), both ends of the top of the noodle kneading box (1) are provided with screw holes (26), the bolt rods (24) are connected and fixed with the screw holes (26), a driving motor is installed between the top of the first hydraulic column (23) and the bottom of the transverse plate (2), one side of the interior of the noodle kneading box (1) far away from the baffle (4) is connected with a push plate (25), and the side of the push plate (25) and one side of the interior of the noodle kneading box (1) far away from the baffle (4) are connected with a second hydraulic column (27).

8. An automatic noodle processing device according to claim 1, wherein a second motor (31) is installed at one side of the bottom edge of the spray pipe (10), and a reamer (32) is transversely connected to the bottom output end of the second motor (31).

9. The automatic noodle processing equipment according to claim 1, wherein a flour box (42) is installed at one side of the noodle pressing box (14), the flour box (42) is connected with the air inlet pipe (29) and the air outlet pipe (30) through pipelines, fans are installed at the joints of the air inlet pipe (29) and the air outlet pipe (30) and the flour box (42), and the fans are installed inside the flour box (42).

10. The automatic noodle processing apparatus according to claim 1, which is used by the specific steps comprising:

the method comprises the following steps: putting raw materials for making noodles into the dough kneading box (1), extending a first hydraulic column (23) at the bottom of a transverse plate (2) downwards, driving a motor to drive the first hydraulic column (23) to rotate, further driving a plurality of stirring rods (22) to mix and stir the raw materials in the dough kneading box, mixing flour in the dough kneading box with water to form dough, and continuously stirring the dough to achieve the dough kneading effect; after dough kneading is finished, the third hydraulic column (28) contracts to drive the baffle (4) to move upwards, and the baffle (4) is accommodated in one side of the dough kneading box (1); the second hydraulic column (27) is extended, and the push plate (25) further pushes the dough which is well kneaded in the dough kneading box (1) to the interior of the dough pressing box (14); the dough is divided into a plurality of small blocks after being divided by a plurality of cutting knives (3) at the top of one end of the dough pressing box (14), and each small block of dough falls into the inside of one storage groove (5) independently; the small dough blocks are mechanically extruded by the noodle pressing machine in the storage groove (5), and then the dough is extruded into noodles;

step two: the extruded noodles enter the inserting pipes (37), and one noodle is stored in one inserting pipe (37); the noodles move from the inside of the inserting pipe (37) to the inside of the inner cylinder (33); the air inlet pipe (29) absorbs flour from the interior of the flour box (42) and conveys the flour to a position between the spraying pipe (10) and the inner barrel (33); the flour enters the inner cylinder (33) from a plurality of through holes (34) after being blown, and the flour contacts the outside of a plurality of noodles in the inner cylinder (33); the noodles are covered with a layer of flour after passing through the inner part of the inner barrel (33);

step three: after the noodles are sprayed with flour, the noodles move outwards from the bottom of the inner barrel (33), and redundant flour in the inner barrel (33) falls downwards; the air outlet pipe (30) absorbs the falling flour, and the redundant flour is recycled inside the flour box (42) for recycling; the second motor (31) drives the reamer (32) to rotate for a circle at intervals in a preset time, and the reamer (32) cuts off the falling noodles;

step four: the prepared noodles are directly put into a pot for cooking or put into a bag for storage; when the cooking pot is used, the height of the placing plate (45) is adjusted through the stretching of the electric telescopic column (45), and the distance between the cooking pot and the spraying pipe (10) is adjusted; when the sliding plate (13) is used, the sliding plate can be driven to rotate between the two cross rods (12) through the first motor (18), and the inclination angle of the sliding plate (13) is further adjusted; if the noodles need to be stacked and stored on the sliding plate (13), the sliding plate (13) is rotated to be in a horizontal state, and the bolt (16) at the end part of the cross rod (12) is inserted into the second insertion hole (19) at the side surface of the end part of the sliding plate (13).

Technical Field

The invention relates to noodle processing equipment, in particular to automatic noodle processing equipment, and belongs to the field of noodle processing application.

Background

The noodles originate from China and have been made and eaten for more than four thousand years. The noodles are a health care food which is simple to prepare, convenient to eat and rich in nutrition, can be taken as staple food and fast food, and are accepted and loved by people in the world for a long time. In order to improve the working efficiency, the noodles are manufactured by common noodle processing equipment.

However, the existing noodle processing equipment still has certain defects in use. The quality of noodles prepared by the existing noodle processing equipment is not high, and the processed noodles are easy to be bonded together. In the process of direct eating or storage, the noodles lack flour outside, are stuck together and difficult to separate, and influence subsequent normal eating. And the existing noodle processing equipment can not process noodles in all directions and can not adapt to the working modes of on-site eating and bagging storage of noodles. The working efficiency is low, and the limitation is large in use.

Disclosure of Invention

The invention aims to provide automatic noodle processing equipment which can solve the problems that the quality of noodles manufactured by the existing noodle processing equipment is not high, and the processed noodles are easy to be bonded together. In the process of direct eating or storage, the noodles lack flour outside, are stuck together and difficult to separate, and influence subsequent normal eating. And the existing noodle processing equipment can not process noodles in all directions and can not adapt to the working modes of on-site eating and bagging storage of noodles. Low working efficiency and large limitation in use.

The purpose of the invention can be realized by the following technical scheme:

an automatic noodle processing device comprises a dough kneading box and a noodle pressing box, wherein the dough kneading box is arranged at one end of the upper part of the noodle pressing box; one side of the bottom of the dough kneading box, which is close to the dough pressing box, is provided with a baffle plate capable of moving up and down, the top of the dough kneading box is provided with a transverse plate, the bottom of the transverse plate is provided with a rotatable first hydraulic column, and the lower part of the first hydraulic column is provided with a plurality of stirring rods.

The bottom of one end of the flour pressing box, which is far away from the flour mixing box, is connected with a plurality of flour outlet pipes, one end of each flour outlet pipe, which is far away from the flour pressing box, is connected with a spray pipe, an inner cylinder is sleeved in each spray pipe, the outer parts of the upper end and the lower end of each inner cylinder are fixedly connected with the inner wall of each spray pipe in a sealing manner through circular connecting plates, and the side wall of each inner cylinder is provided with a plurality of through holes in a; an air inlet pipe is connected above one side of the spraying pipe, an air outlet pipe is connected below the other side of the spraying pipe, the air outlet pipe is arranged below the inner barrel, and the air inlet pipe is in through connection with a gap between the spraying pipe and the inner barrel.

The top through connection of inner tube has a plurality of to peg graft the pipe, and the inside of going out the pipe is provided with a plurality of hole of going out, pegs graft the pipe and pegs graft in the inside in hole of going out, and the upper end of spray line is passed through thread tightening section of thick bamboo and is connected out the pipe, and the outside of thread tightening section of thick bamboo both ends are all through thread tightening play pipe and spray line.

The frame is installed to the bottom of pressure face case, and the horizontal pole is all installed in the below of spray tube in the upper portion both sides of frame, rotates between two horizontal pole lower parts and installs the slide, installs the detachable backup pad between the upper portion.

Preferably, a plurality of partition plates are vertically arranged inside the noodle pressing box, the interior of the noodle pressing box is divided into a plurality of storage grooves by the partition plates, and a cutting knife is connected to one side, close to the noodle kneading box, of the top of each partition plate.

Preferably, the top of the baffle is connected with a third hydraulic column, the bottom end of the side wall of the dough kneading box is provided with a containing groove above the baffle, and the top of the third hydraulic column is connected with the top end of the inside of the containing groove.

Preferably, the gag lever post is installed to one side that the case of kneading dough was kept away from to the pressure face case, the top slidable mounting of gag lever post has the bearing plate, the top of bearing plate all is provided with the joint groove along length direction and the top of gag lever post along width direction, the fourth hydraulic pressure post is all installed at the bottom both ends of bearing plate, the atress pole of vertical setting is installed through the joint groove in the top of bearing plate, the bottom of atress pole and the bottom of fourth hydraulic pressure post all are connected with the cardboard, the cardboard is installed with joint groove joint, the top of atress pole is connected with the bottom of spray pipe.

Preferably, the slide is close to the one end of pressing the face case and passes through the dwang and rotate the installation with two horizontal poles, and the one end of dwang is connected with the output of first motor, the horizontal pole fixed connection of first motor and one side, all is connected with the iron fixed column about the other end both sides of slide, and the one end that the slide was kept away from to the iron fixed column all is connected with the magnet piece, and the tip both sides that the face case was kept away from to the slide all are provided with the second jack, and the tip swing joint that the face case was kept away from to the horizontal pole has the bolt, bolt.

Preferably, the bottom both ends of backup pad are all vertically connected with two sets of inserted bars, and the top of horizontal pole is provided with the first jack of a plurality of, and the inserted bar is pegged graft in the inside of first jack, and the top parallel connection of backup pad has places the board, places and installs the electronic flexible post of a plurality of between the bottom of board and the backup pad, and the top of placing the board is connected with the slipmat.

Preferably, the both ends of diaphragm all are connected with the shank of bolt, and the top both ends of kneading dough case all are provided with the screw, and the shank of bolt is connected with the screw and is connected fixedly, and installs driving motor between the top of first hydraulic pressure post and the bottom of diaphragm, and one side of keeping away from the baffle with the inside of kneading dough case is connected with the push pedal, and the side of push pedal and the inside one side of keeping away from the baffle of dough case are connected with the second hydraulic pressure post.

Preferably, a second motor is installed on one side of the edge of the bottom of the spray pipe, and a reamer is transversely connected to the output end of the bottom of the second motor.

Preferably, the flour box is installed to one side of pressing the face case, and the flour box passes through the pipeline and air-supply line and goes out the union coupling, and the air-supply line all installs the fan with the junction of air-out pipe and flour box, and the inside at the flour box is installed to the fan.

Preferably, the automatic noodle processing equipment comprises the following specific steps:

the method comprises the following steps: putting raw materials for making noodles into the dough kneading box, extending a first hydraulic column at the bottom of a transverse plate downwards, driving a motor to drive the first hydraulic column to rotate, further driving a plurality of stirring rods to mix and stir the raw materials in the dough kneading box, mixing flour in the dough kneading box with water to form dough, and continuously stirring the dough to achieve the dough kneading effect; after dough kneading is finished, the third hydraulic column contracts to drive the baffle to move upwards, and the baffle is accommodated in one side of the dough kneading box; the second hydraulic column extends, and the push plate pushes the kneaded dough in the kneading dough box to the interior of the dough pressing box; the dough is divided into a plurality of small pieces after being divided by a plurality of cutting knives at the top of one end of the dough pressing box, and each small piece of dough falls into the inside of one storage groove independently; the small dough blocks are mechanically extruded by the dough pressing machine in the storage groove, and then the dough is extruded into noodles;

step two: a plurality of extruded noodles enter the inside of the inserting pipe, and one noodle is stored in one inserting pipe; the noodles move from the inside of the inserting pipe to the inside of the inner cylinder; the air inlet pipe absorbs flour from the interior of the flour box and conveys the flour to a position between the spraying pipe and the inner barrel; the flour enters the inner barrel from the plurality of through holes after being blown, and the flour is contacted with the outer parts of the plurality of noodles in the inner barrel; after the noodles pass through the inner barrel, a layer of flour is covered on the outer part of the noodles;

step three: after the noodles are sprayed with flour, the noodles move outwards from the bottom of the inner barrel, and redundant flour in the inner barrel falls downwards; the air outlet pipe absorbs the falling flour, and the redundant flour is recycled in the flour box; the second motor drives the reamer to rotate for a circle at intervals in a preset time, and the reamer cuts off the falling noodles;

step four: the prepared noodles are directly put into a pot for cooking or put into a bag for storage; when the cooking pot is used, the height of the placing plate is adjusted through the stretching of the electric telescopic column, and the distance between the cooking pot and the spraying pipe is adjusted; when the sliding plate is used, the sliding plate can be driven to rotate between the two cross rods through the first motor, and the inclination angle of the sliding plate is further adjusted; if the noodles need to be stacked and stored on the sliding plate, the sliding plate is rotated to be in a horizontal state, and the bolt at the end part of the transverse rod is inserted into the second insertion hole at the side surface of the end part of the sliding plate.

The invention has the beneficial effects that:

1. through installation slide and backup pad between two horizontal poles for can assemble processing equipment according to the in-service use place of noodle processing equipment during noodless preparation. If the noodless of preparation cook temporarily, place the pot of cooking noodless on the upper portion of placing the board for noodless can directly fall into the inside of pot from upper portion and cook, keep the freshness of noodless, and the taste of noodless is better. If the prepared noodles need to be stored, a storage bag is arranged at the bottom of the sliding plate. The bottom suit of slide is in the inside of depositing the bag, deposits the upper and lower both ends of bag and all contacts with the iron fixed column, puts the magnet piece on the iron fixed column again, and then makes to deposit the bag and can be fixed by iron fixed column and magnet piece. The sliding noodles on the sliding plate can enter the storage bag to be collected and stored. The storage bag and the sliding plate are convenient and quick to install and can be freely replaced. Different modes of processing can be carried out on one device, and different noodle processing requirements can be met.

2. Through setting up the kneading dough case in one end for the inside of kneading dough the case is put into to the raw and other materials that will make noodless in the manufacturing process, and a plurality of puddler mixes the stirring to the raw and other materials of inside, and inside flour mixes the back with water, forms the dough, and the dough reaches the effect of kneading dough by continuous stirring. Utilize the puddler to rotate, saved the artifical step of kneading dough, convenient and fast more, it is more even to knead dough, and work efficiency obtains improving. After the dough kneading is finished, the push plate can push the dough kneaded in the dough kneading box to the interior of the dough pressing box. The dough is separated into a plurality of fritters after the one end top of pressing the face case is cut apart through a plurality of cutting knife, and every fritter dough falls into the inside of a storage tank alone. The small dough pieces are mechanically pressed by the noodle-pressing machine inside the storage tank, and the dough pieces are pressed into noodles. The noodle making is convenient and fast, and manual operation of turning is not needed.

3. Through at noodless export installation spray line for a plurality of noodless homoenergetic that extrude enter into the inside of pegging graft pipe, and noodless are deposited to the inside of a pegging graft pipe. The plurality of noodles are mutually independent and move from the inside of the inserting pipe to the inside of the inner cylinder. The air inlet pipe absorbs flour from the interior of the flour box and conveys the flour to a position between the spraying pipe and the inner barrel. The flour enters the inner cylinder from the plurality of through holes after being blown, and the flour contacts the outer parts of the plurality of noodles in the inner cylinder. After the noodles pass through the inner cylinder, the outer part of the inner cylinder is covered with a layer of flour, so that a plurality of noodles cannot be adhered to each other. After the noodles are collected, the flour is sprayed manually by workers, so that the noodles are more convenient to buy and manufacture, and the quality of the noodles is better.

4. Connect out tuber pipe and reamer through the bottom at the spray pipe for noodless are sprayed the flour back, outwards remove from the bottom of inner tube, and the inside unnecessary flour of inner tube drops downwards. The air outlet pipe absorbs the falling flour, and the redundant flour is recycled in the flour box. The flour can be saved, waste is avoided, the environment is protected, and the amount of flour floating in the air is reduced. The reamer can rotate at the time inner loop of predetermineeing, and the second motor drives the reamer every a period and rotates the round, and the reamer can cut off the noodless in the whereabouts for the length of noodless accords with the demand of preparation, need not manual cutting, and the length of noodless is more even.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the mounting structure of the skateboard of the present invention.

FIG. 3 is a schematic diagram of a cross plate structure according to the present invention.

Fig. 4 is a schematic view of the internal structure of the dough mixing box of the present invention.

Fig. 5 is a schematic view of a baffle installation structure of the invention.

Fig. 6 is a schematic view of the present invention and the internal structure of the face tube.

FIG. 7 is a schematic view of the structure of the bearing plate of the present invention.

FIG. 8 is an enlarged view of detail A in FIG. 1 according to the present invention.

Fig. 9 is a schematic view of the structure of the support plate of the present invention.

In the figure: 1. a dough kneading box; 2. a transverse plate; 3. a cutting knife; 4. a baffle plate; 5. a storage tank; 6. a partition plate; 7. a dough outlet pipe; 8. a thread fixing cylinder; 9. a bearing plate; 10. a spray tube; 11. a support plate; 12. a cross bar; 13. a slide plate; 14. pressing the noodle box; 15. a frame; 16. a bolt; 17. a first jack; 18. a first motor; 19. a second jack; 20. a magnet block; 21. iron fixing columns; 22. a stirring rod; 23. a first hydraulic column; 24. a bolt shank; 25. pushing the plate; 26. a screw hole; 27. a second hydraulic column; 28. a third hydraulic column; 29. an air inlet pipe; 30. an air outlet pipe; 31. a second motor; 32. a reamer; 33. an inner barrel; 34. perforating; 35. inserting a rod; 36. a connecting plate; 37. inserting a pipe; 38. a clamping groove; 39. a fourth hydraulic column; 40. a stress beam; 41. clamping a plate; 42. a flour box; 43. a limiting rod; 44. placing the plate; 45. electric telescopic column.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-9, an automatic noodle processing device comprises a kneading box 1 and a noodle pressing box 14, wherein the kneading box 1 is installed at one end of the upper part of the noodle pressing box 14; a baffle plate 4 capable of moving up and down is arranged on one side, close to the noodle pressing box 14, of the bottom of the dough kneading box 1, a transverse plate 2 is arranged on the top of the dough kneading box 1, a rotatable first hydraulic column 23 is arranged at the bottom of the transverse plate 2, and a plurality of stirring rods 22 are arranged below the first hydraulic column 23;

the bottom of one end of the flour pressing box 14, which is far away from the flour mixing box 1, is connected with a plurality of flour outlet pipes 7, one end of each flour outlet pipe 7, which is far away from the flour pressing box 14, is connected with a spray pipe 10, an inner cylinder 33 is sleeved inside the spray pipe 10, the outer parts of the upper end and the lower end of the inner cylinder 33 are fixedly connected with the inner wall of the spray pipe 10 in a sealing manner through a circular connecting plate 36, and the side wall of the inner cylinder 33 is provided with a plurality of through; an air inlet pipe 29 is connected above one side of the spraying pipe 10, an air outlet pipe 30 is connected below the other side of the spraying pipe, the air outlet pipe 30 is arranged below the inner cylinder 33, and the air inlet pipe 29 is in through connection with a gap between the spraying pipe 10 and the inner cylinder 33;

the top of the inner cylinder 33 is connected with a plurality of insertion pipes 37 in a penetrating manner, a plurality of face outlet holes are formed in the face outlet pipe 7, the insertion pipes 37 are inserted in the face outlet holes, the upper end of the spray pipe 10 is connected with the face outlet pipe 7 through a thread fixing cylinder 8, and two ends of the thread fixing cylinder 8 are connected with the face outlet pipe 7 and the outer part of the spray pipe 10 through threads;

frame 15 is installed to the bottom of pressure face case 14, and horizontal pole 12 is all installed to the upper portion both sides of frame 15 below shower 10, rotates between two horizontal pole 12 lower parts and installs slide 13, installs detachable backup pad 11 between the upper portion.

The inside vertical installation of pressure face case 14 has a plurality of baffle 6, and a plurality of baffle 6 separates into a plurality of storage tank 5 with the inside of pressure face case 14, and the top of baffle 6 is close to one side with face case 1 and is connected with cutting knife 3, and cutting knife 3 can cut apart the dough, makes things convenient for the normal clear of follow-up pressure face.

The top of baffle 4 is connected with third hydraulic column 28, and the lateral wall bottom of kneading dough case 1 is provided with above baffle 4 and accomodates the groove, and the top of third hydraulic column 28 is connected with the inside top of accomodating the groove.

Pressure face case 14 is kept away from one side of kneading dough case 1 and is installed gag lever post 43, the top slidable mounting of gag lever post 43 has bearing plate 9, width direction and gag lever post 43's top is all provided with joint groove 38 along length direction in the top of bearing plate 9, fourth hydraulic column 39 is all installed at the bottom both ends of bearing plate 9, joint groove 38 is passed through at the top of bearing plate 9 and the atress pole 40 of vertical setting is installed, the bottom of atress pole 40 and the bottom of fourth hydraulic column 39 all are connected with cardboard 41, cardboard 41 and the installation of joint groove 38 joint, the top of atress pole 40 is connected with the bottom of spray pipe 10, the bottom of spray pipe 10 is through receiving the support of atress pole 40, it is more stable in the use, and atress pole 40 can slide on the upper portion of bearing plate 9, and then conveniently change the position of spray pipe 10. The fourth hydraulic cylinder 39 can change the position of the bearing plate 9 so that the spray pipe 10 does not touch the outlet pipe 7 when the mounting and dismounting are performed.

Slide 13 is close to the one end of pressing face case 14 and passes through dwang and two horizontal poles 12 rotation installation, the one end of dwang is connected with the output of first motor 18, the horizontal pole 12 fixed connection of first motor 18 and one side, all be connected with iron fixed column 21 from top to bottom in slide 13's the other end both sides, the one end that slide 13 was kept away from to iron fixed column 21 all is connected with magnet piece 20, slide 13 keeps away from the tip both sides of pressing face case 14 and all is provided with second jack 19, the tip swing joint that press face case 14 was kept away from to horizontal pole 12 has bolt 16, bolt 16 and second jack 19 phase-match.

The equal vertical two sets of inserted bars 35 that are connected with in bottom both ends of backup pad 11, the top of horizontal pole 12 is provided with the first jack 17 of a plurality of, inserted bar 35 pegs graft in the inside of first jack 17, the top parallel connection of backup pad 11 places board 44, place and install a plurality of electric telescopic column 45 between board 44's the bottom and the backup pad 11, the top of placing board 44 is connected with the slipmat, the pot is in the use, can be through electric telescopic column 45's flexible, and then adjust the height of placing board 44, make the distance between pot and the spray pipe 10 of cooking adjust, can adapt to different user demands, the slipmat increases the stability of a section of thick bamboo of cooking.

Both ends of diaphragm 2 all are connected with shank of bolt 24, the top both ends of kneading dough case 1 all are provided with screw 26, shank of bolt 24 is connected with screw 26 and is connected fixedly, and install driving motor between the top of first hydraulic column 23 and the bottom of diaphragm 2, the inside one side of keeping away from baffle 4 of kneading dough case 1 is connected with push pedal 25, the side of push pedal 25 and the inside one side of keeping away from baffle 4 of face case 1 are connected with second hydraulic column 27, driving motor can drive first hydraulic column 23 and rotate, second hydraulic column 27 can drive push pedal 25 and remove.

A second motor 31 is installed at one side of the bottom edge of the spray pipe 10, and a reamer 32 is transversely connected to the bottom output end of the second motor 31.

A flour box 42 is installed on one side of the noodle pressing box 14, the flour box 42 is connected with the air inlet pipe 29 and the air outlet pipe 30 through pipelines, fans are installed at the joints of the air inlet pipe 29, the air outlet pipe 30 and the flour box 42, and the fans are installed inside the flour box 42.

The automatic noodle processing equipment comprises the following specific steps:

the method comprises the following steps: putting raw materials for making noodles into the dough kneading box 1, extending a first hydraulic column 23 at the bottom of a transverse plate 2 downwards, driving the first hydraulic column 23 to rotate by a driving motor, further driving a plurality of stirring rods 22 to mix and stir the raw materials in the dough kneading box, mixing flour in the dough kneading box with water to form dough, and continuously stirring the dough to achieve the dough kneading effect; after dough kneading is finished, the third hydraulic column 28 contracts to drive the baffle 4 to move upwards, and the baffle 4 is accommodated in one side of the dough kneading box 1; the second hydraulic cylinder 27 is extended, and the push plate 25 pushes the dough which is well kneaded in the dough kneading box 1 to the interior of the dough pressing box 14; the dough is divided into a plurality of small blocks after being divided by a plurality of cutting knives 3 at the top of one end of the dough pressing box 14, and each small block of dough falls into the storage groove 5 independently; the small dough is mechanically extruded by the noodle pressing machine in the storage tank 5, and then the dough is extruded into noodles;

step two: the extruded noodles enter the inserting pipes 37, and one noodle is stored in one inserting pipe 37; the noodles move from the inside of the inserting pipe 37 to the inside of the inner cylinder 33; the air inlet pipe 29 absorbs flour from the interior of the flour box 42 and conveys the flour between the spraying pipe 10 and the inner barrel 33; the flour enters the inner cylinder 33 from the plurality of through holes 34 after being blown, and the flour contacts the outer parts of the plurality of noodles in the inner cylinder 33; the noodles are covered with flour after passing through the inner part of the inner barrel 33;

step three: after the noodles are sprayed with flour, the noodles move outwards from the bottom of the inner barrel 33, and redundant flour in the inner barrel 33 falls downwards; the air outlet pipe 30 absorbs the falling flour, and the redundant flour is recycled in the flour box 42; the second motor 31 drives the reamer 32 to rotate for one circle at intervals in a preset time, and the reamer 32 cuts off the falling noodles;

step four: the prepared noodles are directly put into a pot for cooking or put into a bag for storage; when the cooking pot is used, the height of the placing plate 45 is adjusted through the stretching of the electric telescopic column 45, and the distance between the cooking pot and the spraying pipe 10 is adjusted; when the sliding plate 13 is used, the sliding plate can be driven to rotate between the two cross rods 12 through the first motor 18, and the inclination angle of the sliding plate 13 is further adjusted; if the noodles are to be piled up and stored on the sliding plate 13, the sliding plate 13 is rotated to a horizontal state, and the latch 16 at the end of the crossbar 12 is inserted into the second insertion hole 19 at the side of the end of the sliding plate 13.

When the invention is used, the processing equipment is assembled according to the actual use place of the noodle processing equipment. If the noodless of preparation cook temporarily, install the backup pad 11 in the upper portion of two horizontal poles 12, place the pot that boils noodless on the upper portion of placing board 44 next for noodless can directly fall into the inside of pot from upper portion and cook, keep the freshness of noodless, and the taste of noodless is better.

If the prepared noodles are to be stored, a storage bag is installed at the bottom of the slide 13. The bottom suit of slide 13 is in the inside of depositing the bag, deposits the upper and lower both ends of bag and all contacts with iron fixed column 21, puts magnet piece 20 on iron fixed column 21 again, and then makes to deposit the bag and can be fixed by iron fixed column 21 and magnet piece 20. The noodles sliding off the slide plate 13 can enter the inside of the storage bag to be collected and stored. The storage bag and the sliding plate 13 are convenient and quick to install and can be freely replaced.

Put into the inside of kneading dough case 1 with the raw and other materials of preparation noodless, the first hydraulic cylinder 23 downwardly extending of diaphragm 2 bottom, driving motor drives first hydraulic cylinder 23 and rotates, and then drives a plurality of puddler 22 and mix the stirring to inside raw and other materials, and inside flour mixes the back with water, forms the dough, and the dough is reached the effect of kneading dough by continuous stirring. Utilize puddler 22 to rotate, saved artifical step of kneading dough, convenient and fast more, the dough kneading is more even, and work efficiency obtains improving.

After dough kneading is finished, the third hydraulic column 28 contracts to drive the baffle 4 to move upwards, and the baffle 4 is accommodated in one side of the dough kneading box 1. The second hydraulic column 27 is extended to drive the push plate 25 to move towards one side of the baffle 4, and the push plate 25 pushes the dough in the dough kneading box 1 towards the interior of the dough kneading box 14. The dough is separated into a plurality of small blocks after being cut apart by a plurality of cutting knives 3 at the top of one end of the dough pressing box 14, and each small block of dough falls into the inside of one storage tank 5 independently. The small pieces of dough are mechanically pressed by the dough pressing machine inside the storage tank 5, and the dough is pressed into noodles.

The extruded noodles all enter the inserting pipe 37, and one noodle is stored in one inserting pipe 37. The plurality of noodles move independently from the inside of the inserting pipe 37 to the inside of the inner cylinder 33. The air inlet duct 29 draws flour from the interior of the flour bin 42 and delivers it between the spray tube 10 and the drum 33. The flour is blown into the inner cylinder 33 through the plurality of perforations 34, and the flour contacts the exterior of the plurality of noodles in the inner cylinder 33. After the noodles pass through the inner cylinder 33, the outer surface of the inner cylinder is covered with a layer of flour, so that a plurality of noodles are not adhered to each other. After the noodles are collected, the flour is sprayed manually by workers, so that the noodles are more convenient to buy and manufacture, and the quality of the noodles is better.

After the noodles are sprayed with flour, the noodles move outward from the bottom of the inner cylinder 33, and the excessive flour inside the inner cylinder 33 drops downward. The air outlet pipe 30 absorbs the falling flour, and the redundant flour is recycled to the interior of the flour box 42. The flour can be saved, waste is avoided, the environment is protected, and the amount of flour floating in the air is reduced. Reamer 32 can rotate at the time inner loop of predetermineeing, and second motor 31 drives reamer 32 every period and rotates the round, and reamer 32 can cut off the noodless in the whereabouts for the length of noodless accords with the demand of preparation, need not manual cutting, and the length of noodless is more even.

The prepared noodles are directly put into a pot for cooking or put into a bag for storage. The saucepan can be through the flexible of electronic flexible post 45 in the use, and then adjusts the height of placing board 44 for the distance between saucepan and the shower 10 is adjusted, can adapt to different user demands. When the sliding plate 13 is in use, the sliding plate can be driven to rotate between the two cross rods 12 through the first motor 18, and the inclination angle of the sliding plate 13 can be adjusted. If the noodles need to be stacked on the sliding plate 13 for storage, the sliding plate 13 can be rotated to a horizontal state, and the pin 16 at the end of the cross bar 12 is inserted into the second insertion hole 19 at the side of the end of the sliding plate 13, so that the sliding plate 13 can bear larger force, more noodles can be stacked, and the sliding plate 13 is not easy to be damaged by force during use.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.