阅读说明：本技术 一种多功能拉面机 (Multifunctional noodle stretching machine ) 是由 于洪江 于 2020-07-03 设计创作，主要内容包括：一种多功能拉面机,工作台上安装旋转锅芯,旋转锅芯内设有支撑板,支撑板上均匀分布起面桶孔,旋转锅芯伺服电机输出轴上安装旋转锅芯主动齿轮,旋转锅芯主动齿轮与旋转锅芯外圆的齿啮合；位于工作台后侧的支架上安装轴,轴上安装模具转盘,模具转盘位于旋转锅芯上方,模具转盘上安装模具,模具转盘伺服电机输出轴上安装模具转盘主动齿轮,模具转盘主动齿轮与模具转盘外圆的齿啮合；支架上安装液压站,液压站的液压缸的液压杆位于模具上方,液压杆下端安装活塞。本发明采用转盘型压面结构,采用液压和电控实现压面；通过煮面锅对压制的面条进行煮熟操作,液压缸、模具转盘和旋转锅芯之间协同作用,从而形成了连续接面、连续煮面、不间断工作。(A multifunctional noodle-drawing machine is characterized in that a rotary pan core is mounted on a workbench, a supporting plate is arranged in the rotary pan core, noodle-raising barrel holes are uniformly distributed on the supporting plate, a rotary pan core driving gear is mounted on an output shaft of a rotary pan core servo motor, and the rotary pan core driving gear is meshed with teeth on the excircle of the rotary pan core; a shaft is arranged on a bracket positioned at the rear side of the workbench, a mold turntable is arranged on the shaft and positioned above the rotary pan core, a mold is arranged on the mold turntable, a mold turntable driving gear is arranged on an output shaft of a mold turntable servo motor, and the mold turntable driving gear is meshed with teeth of the excircle of the mold turntable; the bracket is provided with a hydraulic station, a hydraulic rod of a hydraulic cylinder of the hydraulic station is positioned above the die, and the lower end of the hydraulic rod is provided with a piston. The invention adopts a turntable type noodle pressing structure, and adopts hydraulic pressure and electric control to realize noodle pressing; the noodles are cooked by the noodle cooking pot, and the hydraulic cylinder, the mould turntable and the rotary pot core are in synergistic action, so that continuous noodle cooking, continuous noodle cooking and uninterrupted work are formed.)

1. The utility model provides a multi-functional dough pulled into strips for noodle machine which characterized in that: a workbench (2) is arranged at the upper part of the base (1), a rotary pan core (4) is arranged in a pan core mounting hole of the workbench (2), a supporting plate (3) is arranged in the rotary pan core (4), rising bucket holes are uniformly distributed on the supporting plate (3), a rotary pan core driving gear is arranged on an output shaft of a rotary pan core servo motor (22), and the rotary pan core driving gear is meshed with teeth on the excircle of the rotary pan core; a support (12) positioned at the rear side of the workbench (2) is provided with a shaft (9), the shaft (9) is provided with a mold turntable (7), the mold turntable (7) is positioned above the rotary pan core (4), a mold (8) is arranged on the mold turntable (7), an output shaft of a mold turntable servo motor (24) is provided with a mold turntable driving gear (25), and the mold turntable driving gear (25) is meshed with teeth on the excircle of the mold turntable (7); a hydraulic station (13) is arranged on the support (12), a hydraulic rod (33) of a hydraulic cylinder (32) of the hydraulic station (13) is positioned above the die (8), and a piston (34) is arranged at the lower end of the hydraulic rod (33).

2. The multifunctional noodle pulling machine according to claim 1, characterized in that: a photoelectric induction switch (26) is arranged on the workbench (2) and positioned at the outer side of the rotary pot core (4), and a pot core inductor (35) is arranged on each dough rising bucket hole on the supporting plate (3) of the rotary pot core (4).

3. The multifunctional noodle pulling machine according to claim 1, characterized in that: the hydraulic station (13) comprises an oil tank (15), a gear pump (16), a motor (18) and an oil way distributor (23), the gear pump (16) located in the oil tank (15) is connected with the motor (18), the gear pump (16) is connected with an oil way through the oil way distributor (23), the oil way is connected with a hydraulic cylinder (32), the upper portion of the hydraulic cylinder (32) is located on one side of a hydraulic rod (33) and is provided with an upper induction switch (30) and a lower induction switch (31), and the upper end of the hydraulic rod (33) is provided with an inductor (28) matched with the upper induction switch (30) and the lower induction switch (31) through an adjusting bolt (27) and a locking nut (29).

4. The multifunctional noodle pulling machine according to claim 3, characterized in that: the oil way distributor (23) is provided with a pressure gauge (21), the pressure gauge (21) is connected with a pressure gauge switch, the oil way distributor (23) is provided with an electromagnetic valve (20), and the oil tank (15) is provided with an oil filling hole (17).

5. The multifunctional noodle pulling machine according to claim 1, characterized in that: the rotary pot core servo motor (22) is connected with a rotary pot core driving gear through a speed reducer, and the rotary pot core driving gear is arranged on an output shaft of the speed reducer.

6. The multifunctional noodle pulling machine according to claim 1, characterized in that: the die turntable servo motor (24) is connected with a die turntable driving gear (25) through a speed reducer, and the die turntable driving gear (25) is installed on an output shaft of the speed reducer.

7. A multifunctional noodle pulling machine according to claims 1-6, characterized in that: the rotary pot core servo motor (22), the mould turntable servo motor (24), the upper induction switch (30), the lower induction switch (31), the inductor (28), the electromagnetic valve (20), the photoelectric induction switch (26) and the pot core inductor (35) are electrically connected with the electric cabinet (36).

8. A multifunctional noodle pulling machine according to claims 1-6, characterized in that: the button station (10) and the touch screen (11) are installed on the upper portion of the support (12), and the button station (10) and the touch screen (11) are electrically connected with the electric cabinet (36).

9. The multifunctional noodle pulling machine according to claim 1, characterized in that: a noodle lifting barrel (14) is placed in the noodle lifting barrel hole on the supporting plate (3).

Technical Field

The invention relates to the field of food processing equipment, in particular to noodle processing equipment.

Background

The noodle press is used for food machinery for processing cooked wheaten food. The flour-mixing dough can be used for making noodles, swallow skins, cakes, pastries and the like, and the noodles and the gluten which are pressed by the dough pressing machine have high toughness, boiling resistance and breakage resistance, and are suitable for families, hotels, dining halls of restaurants, cake factories, bread factories and various pastries processing units or individual industrial and commercial enterprises.

A traditional noodle press is provided with a thick, thin and round noodle knife roller, and the machine can press various wheaten foods such as dough sheets, dumpling wrappers, wonton wrappers and the like besides thick and thin noodles, and is neat in shape and uniform in thickness. The equipment can only be used for single pressing, the noodles are taken out after pressing, then the next processing is carried out, and continuous noodle pressing cannot be realized.

In addition, the traditional noodle press can only realize a single noodle pressing function, and the function is single.

Disclosure of Invention

In order to solve the problems of the traditional noodle press, the invention provides a multifunctional noodle drawing machine.

The technical scheme adopted by the invention for realizing the purpose is as follows: a multifunctional noodle-drawing machine, the upper portion of the base 1 has work stations 2, install the rotary pan core 4 in the mounting hole of the pan core of the work station 2, there are backup pads 3 in the rotary pan core 4, the upper uniform distribution of the backup pad 3 rises the bucket hole, mount the driving gear of the rotary pan core on the output shaft of the servomotor 22 of the rotary pan core, the driving gear of the rotary pan core engages with tooth of the excircle of rotary pan core; a support 12 positioned at the rear side of the workbench 2 is provided with a shaft 9, the shaft 9 is provided with a mold turntable 7, the mold turntable 7 is positioned above the rotary pan core 4, the mold 7 is provided with a mold 8, an output shaft of a mold turntable servo motor 24 is provided with a mold turntable driving gear 25, and the mold turntable driving gear 25 is meshed with teeth of the excircle of the mold turntable 7; the hydraulic station 13 is arranged on the bracket 12, a hydraulic rod 33 of a hydraulic cylinder 32 of the hydraulic station 13 is positioned above the mould 8, and a piston 34 is arranged at the lower end of the hydraulic rod 33.

A photoelectric induction switch 26 is arranged on the workbench 2 and positioned at the outer side of the rotary pan core 4, and a pan core inductor 35 is arranged on the supporting plate 3 of the rotary pan core 4 and positioned at each dough starting bucket hole.

The hydraulic station 13 comprises an oil tank 15, a gear pump 16, a motor 18 and an oil way distributor 23, wherein the gear pump 16 positioned in the oil tank 15 is connected with the motor 18, the gear pump 16 is connected with an oil way through the oil way distributor 23, the oil way is connected with a hydraulic cylinder 32, an upper induction switch 30 and a lower induction switch 31 are installed on one side, positioned on a hydraulic rod 33, of the upper part of the hydraulic cylinder 32, and an inductor 28 matched with the upper induction switch 30 and the lower induction switch 31 is installed at the upper end of the hydraulic rod 33 through an adjusting bolt 27 and a locking nut 29.

The oil way distributor 23 is provided with a pressure gauge 21, the pressure gauge 21 is connected with a pressure gauge switch, the oil way distributor 23 is provided with an electromagnetic valve 20, and the oil tank 15 is provided with an oil filling hole 17.

The rotary pan core servo motor 22 is connected with a rotary pan core driving gear through a speed reducer, and the rotary pan core driving gear is installed on an output shaft of the speed reducer.

The die turntable servo motor 24 is connected with a die turntable driving gear 25 through a speed reducer, and the die turntable driving gear 25 is installed on an output shaft of the speed reducer.

The rotary pot core servo motor 22, the mould turntable servo motor 24, the upper induction switch 30, the lower induction switch 31, the inductor 28, the electromagnetic valve 20, the photoelectric induction switch 26 and the pot core inductor 35 are electrically connected with the electric cabinet 36.

The button station 10 and the touch screen 11 are arranged on the upper part of the bracket 12, and the button station 10 and the touch screen 11 are electrically connected with the electric cabinet 36.

A noodle lifting barrel 14 is arranged in the noodle lifting barrel hole on the supporting plate 3.

According to the multifunctional noodle drawing machine, the noodle pressing is of a turntable type structure, a plurality of molds are mounted each time, and the noodle pressing is realized by adopting hydraulic pressure and electric control; the noodle boiling pot is arranged on the lower portion of the noodle pressing die turntable and used for boiling pressed noodles, the noodle boiling pot is provided with a plurality of noodle rising barrels, the noodle boiling pot rotates once every time the host presses a bowl of noodles, and the hydraulic cylinder, the die turntable and the rotary pot core act in a synergistic manner, so that continuous noodle receiving, continuous noodle boiling and uninterrupted work are formed, the work efficiency is improved, and the functions of the noodle pressing machine are enhanced.

Drawings

Fig. 1 is a main view structure of the multifunctional stretched noodle machine of the invention.

Fig. 2 is a left side view structural diagram of the multifunctional noodle pulling machine.

Fig. 3 is a schematic diagram of a multifunctional noodle maker hydraulic station of the present invention.

Fig. 4 is a structure view of a hydraulic cylinder of the multifunctional noodle stretching machine.

Fig. 5 is a top view structural diagram of the multifunctional noodle maker mold turntable.

Fig. 6 is a top view structural diagram of the multifunctional noodle maker saucepan of the invention.

In the figure: 1. the device comprises a base, 2, a workbench, 3, a supporting plate, 4, a rotary pot core, 5, a central rod, 6, a caster, 7, a mould turntable, 8, a mould, 9, a shaft, 10, a button station, 11, a touch screen, 12, a support, 13, a hydraulic station, 14, a dough rising barrel, 15, an oil tank, 16, a gear pump, 17, an oil filling hole, 18, a motor, 19, a pressure adjusting handle, 20, an electromagnetic valve, 21, a pressure gauge, 22, a pressure gauge switch, 23, an oil way distributor, 24, a mould turntable servo motor, 25, a driving gear, 26, a photoelectric sensing switch, 27, an adjusting bolt, 28, a hydraulic cylinder sensor, 29, a hydraulic cylinder locking nut, 30, an upper sensing switch, 31, a lower sensing switch, 32, a hydraulic cylinder, 33, a hydraulic rod, 34, a piston, 35, a pot core sensor, 36 and an electric control box.

Detailed Description

The structure of the multifunctional noodle pulling machine is shown in figures 1 and 2, a workbench 2 is arranged at the upper part of a base 1, trundles 6 are arranged at the lower part of the base 1, a rotary pot core 4 is arranged in a pot core mounting hole of the workbench 2, a supporting plate 3 is arranged in the rotary pot core 4, 5 noodle rising barrel holes are uniformly distributed on the supporting plate 3, 5 noodle rising barrels 14 are arranged in the noodle rising barrel holes on the supporting plate 3, a rotary pot core driving gear is meshed with teeth on the excircle of the rotary pot core, a rotary pot core servo motor 22 is connected with a rotary pot core driving gear through a speed reducer, and the rotary pot core driving gear is arranged on an output shaft of the speed reducer. As shown in fig. 6, a photoelectric sensing switch 26 is arranged on the workbench 2 and positioned at the outer side of the rotary pot core 4, a pot core sensor 35 is arranged at the position of each dough rising bucket hole on the supporting plate 3 of the rotary pot core 4, the rotary pot core 4 is driven to rotate by a driving gear on the rotary pot core servo motor 22 and the speed reducer, when the photoelectric sensing switch 26 senses one pot core sensor 35, the rotary pot core 4 stops rotating, the upper hydraulic station 13 realizes noodle pressing, noodles fall into the dough rising bucket 14 below, and then the rotary pot core continues to rotate to the next station.

A support 12 positioned at the rear side of the workbench 2 is provided with a shaft 9, the shaft 9 is provided with a mold turntable 7, the mold turntable 7 is positioned above the rotary pan core 4, and the mold 8 is arranged on the mold turntable 7. As shown in FIG. 5, a mold turntable servo motor 24 is connected with a mold turntable driving gear 25 through a speed reducer, the mold turntable driving gear 25 is arranged on an output shaft of the speed reducer, and the mold turntable driving gear 25 is meshed with teeth on the excircle of the mold turntable 7; the hydraulic station 13 is arranged on the bracket 12, a hydraulic rod 33 of a hydraulic cylinder 32 of the hydraulic station 13 is positioned above the mould 8, and a piston 34 is arranged at the lower end of the hydraulic rod 33.

As shown in fig. 3 and 4, the hydraulic station 13 includes an oil tank 15, a gear pump 16, a motor 18 and an oil way distributor 23, the gear pump 16 located in the oil tank 15 is connected with the motor 18, the gear pump 16 is connected with an oil way through the oil way distributor 23, the oil way is connected with a hydraulic cylinder 32, an upper induction switch 30 and a lower induction switch 31 are installed on one side of a hydraulic rod 33 on the upper portion of the hydraulic cylinder 32, and an inductor 28 matched with the upper induction switch 30 and the lower induction switch 31 is installed on the upper end of the hydraulic rod 33 through an adjusting bolt 27 and a locking nut 29. The oil way distributor 23 is provided with a pressure gauge 21, the pressure gauge 21 is connected with a pressure gauge switch, the oil way distributor 23 is provided with an electromagnetic valve 20, and the oil tank 15 is provided with an oil filling hole 17.

The rotary pot core servo motor 22, the mould turntable servo motor 24, the upper induction switch 30, the lower induction switch 31, the inductor 28, the electromagnetic valve 20, the photoelectric induction switch 26 and the pot core inductor 35 are electrically connected with the electric cabinet 36. The button station 10 and the touch screen 11 are arranged on the upper part of the bracket 12, and the button station 10 and the touch screen 11 are electrically connected with the electric cabinet 36.

The working principle is as follows: a hydraulic station part: hydraulic oil in the oil tank 15 is controlled by the gear pump 16 and the oil way distributor 23 through the electromagnetic valve 20 and is transmitted into the hydraulic cylinder 32, so that a hydraulic rod 33 is formed to drive the piston 34 to move up and down, the piston 34 is matched with the size of the die 8, noodles in the die 8 are pressed into the noodles, and the die can adopt different dies, such as different die specifications of normal, fine and chive leaves, capillary, large and wide and the like. The upper induction switch 30 and the lower induction switch 31 on one side of the hydraulic rod 33 detect the up-and-down moving position of the hydraulic cylinder, after the pressing surface of one mold 8 is finished, the hydraulic rod 33 moves upwards, after the upper induction switch 30 senses the hydraulic rod 33, the mold turntable 7 on the lower portion stops rotating, then the hydraulic rod 33 is controlled to move downwards to press the surface, at the moment, the lower induction switch senses a signal of the inductor 28, then the hydraulic rod 33 moves upwards, the mold turntable continues to rotate to enter the next station, the operation is circulated, and the continuous pressing surface of the hydraulic cylinder and the mold turntable is realized.

The dough pressing mold 8 is installed on the turntable, and the mold turntable 7 is controlled by a PLC (programmable logic controller) to rotate through meshing with the driving gear. The button station is an operating device of the machine, when hydraulic oil is added and the power is switched on, a main stop switch is turned on, and a motor start button is pressed, so that the machine can start to work.

The noodle boiling pot is used for boiling noodles, five noodle boiling barrels 14 are installed on the pot, when the upper mold rotary table 7 presses noodles, the rotary pot core 4 controls the rotary pot core servo motor 22 of the rotary pot core to drive the noodle boiling to rotate through the electric cabinet 36, the noodle boiling barrel automatically rotates to the position below the noodle pressing mold, when the photoelectric sensing switch 26 senses one pot core sensor 35, the rotary pot core 4 stops rotating, the upper hydraulic station 13 presses noodles, the noodles fall into the noodle boiling barrel 14 below, and then the rotary pot core continuously rotates to the next station. When the noodles are pressed, the PLC is adopted for control, the touch screen 11 displays the noodles, the rotation of the rotary pan core 4 adopts electric control tracking, five noodle starting barrels are arranged on the rotary pan core 4, and the rotary pan core 4 rotates once when the host presses one bowl of noodles, so that the noodles are contacted on time. The hydraulic cylinder 32, the mould turntable 7 and the rotary pan core 4 cooperate with each other to form a continuous joint surface without interruption.

While the invention has been described with reference to exemplary embodiments, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the spirit and scope of the invention. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the invention without departing from the essential scope thereof. Therefore, it is intended that the invention not be limited to the particular embodiment disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.