CN112806412A - Double-motor driven wheaten food machine - Google Patents

Abstract

The invention provides a double-motor driven wheaten food machine, which comprises a machine base, a dough kneading component and a dough extruding component, wherein the dough kneading component and the dough extruding component are arranged on the machine base; the dough kneading assembly comprises a stirring barrel and a stirrer, wherein the bottom of the stirring barrel is provided with a dough inlet; the dough extruding component comprises a dough extruding barrel communicated with the stirring barrel through a dough inlet, a dough extruding screw rod arranged in the dough extruding barrel and a dough outlet die head arranged at the front end of the dough extruding barrel; the machine base comprises a machine base shell, and a dough kneading motor in transmission connection with the stirring rod and a dough extruding motor in transmission connection with the dough extruding screw rod are arranged in the machine base shell; the dough extruding motor comprises a dough extruding motor body and a dough extruding motor output end perpendicular to the dough extruding motor body, the dough extruding motor body is transversely arranged in the base, the dough extruding motor body is parallel to the stirring rod, the dough extruding motor output end and the dough extruding screw rod are coaxially arranged, and the dough extruding screw rod is located below one end of the stirring rod and is orthogonally arranged with the orthographic projection of the stirring rod. The invention is beneficial to the wheaten food machine to exert the best noodle making performance.

Description

Double-motor driven wheaten food machine

Technical Field

The invention relates to the field of wheaten food processing electric appliances, in particular to a double-motor driven wheaten food machine.

Background

This section merely provides background information related to the present application so as to enable those skilled in the art to more fully and accurately understand the present application, which is not necessarily prior art.

Pasta machines (e.g., noodle machines) include a dough kneading assembly and a dough extruding assembly. The dough kneading component comprises a stirring barrel and a stirrer arranged in the stirring barrel, and the flour and water are stirred and kneaded to form dough by the rotation of the stirrer in the stirring barrel. The dough extruding component comprises a dough extruding barrel, a dough extruding screw rod arranged in the dough extruding barrel and a die head arranged at the front end of the dough extruding barrel, wherein the dough extruding screw rod rotates in the dough extruding barrel to extrude dough, and the dough is finally molded into wheaten food such as noodles, dough covers or dumpling covers through the die head. The flour machine comprises a vertical flour machine and a horizontal flour machine, wherein the stirrer comprises a stirring rod and stirring teeth, and when the stirring rod is vertically arranged in the stirring barrel or horizontally arranged in the stirring barrel, the flour machine is divided into the vertical flour machine and the horizontal flour machine.

For example, chinese patent CN2017213904450 discloses a noodle maker, in which a motor and a gear transmission mechanism are engaged to drive a stirring blade assembly and a noodle outlet screw to rotate, the gear transmission mechanism is provided with a transmission helical gear corresponding to the stirring blade assembly and the noodle outlet screw, and the two transmission helical gears are engaged with each other, so that the transmission helical gear on the stirring blade assembly and the transmission helical gear on the noodle outlet screw synchronously rotate during the engagement process. The noodle maker in the prior art adopts a motor to drive the stirring knife assembly and the noodle discharging screw rod simultaneously, so that the stirring knife assembly and the noodle discharging screw rod always keep synchronous rotation, and the problem of the following aspects is at least brought: firstly, a motor is generally vertically arranged in a machine base to meet the assembly requirement of simultaneously driving a stirring cutter assembly and a noodle outlet screw rod through a gear transmission mechanism, so that the machine base is higher, the whole size of a noodle maker is larger, and even the gravity center is unstable, so that the noodle maker is easy to shake in the working process; secondly, the structure of the noodle maker is more complex due to the need of adding a gear transmission mechanism; and thirdly, when the noodle maker kneads noodles, the reverse rotation of the noodle outlet screw rod is needed to prevent the flour from entering the noodle extruding cavity, so that the stirring knife assembly can only rotate in one direction in the noodle kneading process to influence the noodle kneading effect, and the noodle maker is not beneficial to exerting the best noodle making performance.

Disclosure of Invention

The present invention is directed to solving at least one of the problems of the prior art. Therefore, the invention provides the double-motor driven wheaten food machine, and the flour kneading motor and the flour extruding motor respectively drive the stirrer and the flour extruding screw rod, so that the wheaten food machine can exert the optimal flour making performance.

The invention provides a double-motor driven wheaten food machine, which comprises a machine base, a dough kneading component and a dough extruding component, wherein the dough kneading component and the dough extruding component are arranged on the machine base; the dough kneading assembly comprises a stirring barrel and a stirrer, wherein the bottom of the stirring barrel is provided with a dough inlet, and the stirrer comprises a stirring rod transversely arranged in the stirring barrel and stirring teeth fixed on the stirring rod; the dough extruding component comprises a dough extruding barrel, a dough extruding screw rod and a dough extruding die head, wherein the dough extruding barrel is transversely arranged below the stirring barrel and is communicated with the stirring barrel through a dough inlet; the machine base comprises a machine base shell, and a dough kneading motor in transmission connection with the stirring rod and a dough extruding motor in transmission connection with the dough extruding screw rod are arranged in the machine base shell; the dough extruding motor comprises a dough extruding motor body and a dough extruding motor output end perpendicular to the dough extruding motor body, the dough extruding motor body is transversely arranged in the base, the dough extruding motor body is parallel to the stirring rod, the dough extruding motor output end and the dough extruding screw rod are coaxially arranged, and the dough extruding screw rod is located below one end of the stirring rod and is orthogonally arranged with the orthographic projection of the stirring rod.

In a preferred embodiment, a motor bearing platform is arranged in the machine seat shell, a first motor assembling position is arranged at one end of the motor bearing platform, and a motor support protruding upwards is arranged at the other end of the motor bearing platform; the dough kneading motor is arranged on the first motor assembling position, the dough extruding motor body is transversely arranged on the motor bracket, and the output end of the dough extruding motor extends out of the motor bearing platform.

In a preferred embodiment, the dough mixing motor is disposed transversely to the first motor mounting location.

In a preferred embodiment, the dough kneading motor is in transmission connection with one end of the stirring rod through a speed reducer which is vertically arranged on one side surface of the stirring barrel.

In a preferred embodiment, a mounting table is provided on the base housing, two adjacent side walls of the base housing respectively extend upwards from the mounting table to form a first blocking wall and a second blocking wall, and a first assembly hole and a second assembly hole are respectively provided on the first blocking wall and the second blocking wall.

In a preferred embodiment, two opposite side walls of the stirring barrel are respectively provided with a shaft sleeve and a through hole, one end of the stirring rod is pivoted in the shaft sleeve, and the other end of the stirring rod passes through the through hole and is inserted in the first assembly hole to be in transmission connection with the dough kneading motor.

In a preferred embodiment, the rear end of the dough extruding cylinder is provided with a central hole, and one end of the dough extruding motor passes through the central hole and is inserted into the first assembling hole to be connected with the dough extruding motor in a transmission way.

In a preferred embodiment, the flour inlet is positioned on one side of the center of the bottom of the stirring barrel, and the flour inlet and the stirring teeth are arranged in a staggered manner.

In a preferred embodiment, the stirrer further comprises scraping teeth fixedly connected with the stirring rod through the tangent plane rod, and the scraping teeth are positioned above the flour inlet and are arranged in parallel with the stirring rod.

In a preferred embodiment, at least one rabble tooth adjacent to the scraping tooth has a horizontal projection which partially overlaps with a horizontal projection of the scraping tooth.

Compared with the prior art, the invention has the following beneficial effects:

the double motors are arranged in the base, and the dough kneading motor and the dough extruding motor are used for driving the stirrer and the dough extruding screw respectively, so that a synchronous transmission mechanism between the stirring rod and the dough extruding screw in the prior art can be omitted, the whole structure of the dough kneading machine is facilitated to be simplified, the stirrer and the dough extruding screw do not need to rotate synchronously any more, particularly, the stirrer can rotate in different rotation directions and at different rotation speeds during dough kneading to improve dough kneading performance, and the dough kneading machine is facilitated to exert the optimal dough making performance. And moreover, the dough kneading motor or the dough extruding motor can be independently controlled to work so as to independently perform dough kneading or dough extruding treatment, so that the wheaten food machine has the functions of kneading dough, extruding dough and automatically making dough.

According to the invention, the noodle extruding motor is transversely arranged in the machine base, so that the machine base is compact in structure, the whole height of the machine base is reduced, the size of the machine base is reduced, the whole flour-mixing machine is favorably miniaturized, the occupied space of the noodle machine is small, the noodle machine is convenient to use and store, and the gravity center position is lower due to the lower height of the machine base, so that the noodle machine is not easy to shake in the use process, and the working noise is favorably reduced.

According to the invention, the vertical output motor is used as the dough extruding motor, the dough extruding motor body is arranged in parallel with the stirring rod, the output end of the dough extruding motor is coaxially arranged with the dough extruding screw rod, the dough extruding screw rod is positioned below one end of the stirring rod and is orthogonally arranged with the orthographic projection of the stirring rod, so that the dough inlet is arranged at one side of the bottom of the stirring barrel, and the stirring teeth can complete dough kneading stirring in most of space in the stirring barrel to obtain a better dough kneading effect; and, because the orthographic projection quadrature setting of crowded face screw rod and puddler, not only make things convenient for the wheaten food machine to knead dough the subassembly and the stirring subassembly and carry out compact rational overall arrangement in order to reduce the overall dimension of wheaten food machine, still can pass through a terminal of crowded face screw rod respectively when letting the agitator assemble on the frame, a terminal of puddler links to each other with crowded face motor and the motor drive of kneading dough respectively, let the agitator fix with the frame in two orthogonal directions respectively, be favorable to that the assembly structure of agitator assembly on the frame is more firm reliable in order to ensure the operational reliability of wheaten food machine.

Drawings

Figure 1 is an exploded view of the pasta machine.

Fig. 2 is an exploded view of the housing.

Fig. 3 is a schematic view of the structure of the pasta machine without the agitator.

FIG. 4 is a schematic view showing the internal structure of the pasta machine when it is cut in a longitudinal direction along the extrusion screw.

FIG. 5 is a schematic view showing the internal structure of the pasta machine when it is cut in a longitudinal direction along the stirring rod.

Detailed Description

To further clarify the technical solutions and effects adopted by the present application to achieve the intended purpose, the following detailed description is given with reference to the accompanying drawings and preferred embodiments according to the present application. In the following description, different "one embodiment" or "an embodiment" refers to not necessarily the same embodiment. Furthermore, the particular features, structures, or characteristics may be combined in any suitable manner in one or more embodiments.

Referring to fig. 1-5, the invention discloses a double-motor driven pasta machine, comprising a machine base 1, a dough kneading component and a dough extruding component which are arranged on the machine base 1; the dough kneading assembly comprises a stirring barrel 3 and a stirrer 4, wherein the bottom of the stirring barrel 3 is provided with a dough inlet 32, and the stirrer 4 comprises a stirring rod 41 transversely arranged in the stirring barrel 3 and stirring teeth 42 fixed on the stirring rod 41; the dough extruding component comprises a dough extruding cylinder 5 which is transversely arranged below the stirring barrel 3 and is communicated with the stirring barrel 3 through a dough inlet 32, a dough extruding screw 6 arranged in the dough extruding cylinder 5 and a dough outlet die head 81 arranged at the front end of the dough extruding cylinder 5; the machine base 1 comprises a machine base shell 11, and a dough kneading motor 21 in transmission connection with the stirring rod 41 and a dough extruding motor in transmission connection with the dough extruding screw 6 are arranged in the machine base shell 11; the noodle extruding motor adopts a vertically output high-torque direct current brush motor which can be purchased in the market at present, the noodle extruding motor comprises a noodle extruding motor body 231 and a noodle extruding motor output end 232 which is perpendicular to the noodle extruding motor body 231, the noodle extruding motor body 231 is transversely arranged in the machine base 1, the noodle extruding motor body 231 is arranged in parallel with the stirring rod 41, the noodle extruding motor output end 232 is coaxially arranged with the noodle extruding screw 6, and the noodle extruding screw 6 is positioned below one end of the stirring rod 41 and is orthogonally arranged with the orthographic projection of the stirring rod 41.

The double motors are arranged in the machine base 1, and the dough kneading motor 21 and the dough extruding motor are used for driving the stirrer and the dough extruding screw 6 respectively, so that a synchronous transmission mechanism between the stirring rod 41 and the dough extruding screw 6 in the prior art can be omitted, the whole structure of the wheaten food machine is favorably simplified, the stirrer and the dough extruding screw 6 do not need to rotate synchronously any more, and particularly, the stirrer can rotate in different rotation directions and at different rotation speeds during dough kneading to improve the dough kneading performance, so that the wheaten food machine is favorably enabled to exert the optimal dough making performance. And moreover, the dough kneading motor or the dough extruding motor can be independently controlled to work so as to independently perform dough kneading or dough extruding treatment, so that the wheaten food machine has the functions of kneading dough, extruding dough and automatically making dough.

According to the invention, the noodle extruding motor is transversely arranged in the machine base 1, so that the structure of the machine base 1 is compact, the overall height of the machine base 1 is reduced, the size of the machine base 1 is reduced, the whole flour-mixing machine is favorably miniaturized, the occupied area of the noodle machine is small, the noodle machine is convenient to use and store, and meanwhile, the gravity center position is lower due to the lower height of the machine base 1, so that the noodle machine is not easy to shake in the use process, and the working noise is favorably reduced.

According to the invention, a vertical output motor is used as a dough extruding motor, a dough extruding motor body 231 is arranged in parallel with a stirring rod 41, an output end 232 of the dough extruding motor is arranged coaxially with a dough extruding screw 6, the dough extruding screw 6 is positioned below one end of the stirring rod 41 and is arranged orthogonally to the orthographic projection of the stirring rod 41, so that a dough inlet 32 is arranged at one side of the bottom of a stirring barrel 3, the dough inlet 32 and stirring teeth 42 are arranged in a staggered manner, namely the dough inlet 32 is positioned at one side of the stirring teeth 42, and the stirring teeth 42 can complete dough kneading stirring in most of space in the stirring barrel 3 to obtain a better dough kneading effect; and, because the orthographic projection orthogonal setting of crowded face screw rod 6 and puddler 41, not only make things convenient for the wheaten food machine to knead dough the subassembly and the stirring subassembly and carry out compact reasonable overall arrangement in order to reduce the overall dimension of wheaten food machine, still can pass through a terminal of crowded face screw rod 6 respectively when letting agitator 3 assemble on frame 1, a terminal of puddler 41 links to each other with crowded face motor and the transmission of kneading dough motor 21 respectively, let agitator 3 fix with frame 1 in two orthogonal directions respectively, be favorable to that the assembly structure of agitator 3 assembly on frame 1 is firm more reliable in order to ensure the operational reliability of wheaten food machine.

Specifically, a motor mount 12 is provided in the housing case 11. A first motor mounting portion 121 is provided at one end of the motor base 12, and a motor holder 122 is provided at the other end of the motor base 12 so as to protrude upward. The dough kneading motor 21 is arranged on the first motor assembling position 121, the dough extruding motor body 231 is transversely arranged on the motor bracket 122, the dough extruding motor output end 232 extends out of the motor bracket 122, and the dough extruding motor output end 232 is provided with a second transmission interface 233 and is in transmission connection with the dough extruding screw 6 through the second transmission interface 233. The transmission assembly requirements of the stirring rod 41 and the noodle extruding screw 6 which are respectively transversely arranged and are positioned at different heights can be met through the motor bearing platform 12. And, the dough kneading motor 21 and the dough extruding motor are respectively arranged at two opposite ends of the motor bearing platform 12 so that the weight distribution of the two motors in the machine base 1 is reasonable, the machine base 1 is favorable for being placed stably and not easy to shake when being used on a table top, and the noise generated in the using process is reduced.

Wherein, the dough kneading motor 21 is transversely arranged on the first motor assembling position 121, the dough kneading motor 21 preferably adopts a direct current brush speed reducing motor, and the direct current brush speed reducing motor is in transmission connection with one end of the stirring rod 41 through a speed reducer 22. The speed reducer 22 is vertically arranged on one side surface of the stirring barrel 3, and the speed reducer 22 is provided with a first transmission interface 221; the stirring rod 41 is transversely arranged in the stirring barrel 3, two opposite side walls of the stirring barrel 3 are respectively provided with a shaft sleeve and a through hole, one end of the stirring rod 41 is pivoted in the shaft sleeve, and the other end of the stirring rod 41 passes through the through hole and then is inserted into the first transmission interface 221, so that the stirring rod 41 is in transmission connection with the dough kneading motor 21 through the speed reducer 22.

In order to facilitate the transverse installation of the stirrer 4 in the stirring barrel 3, a detachable barrel side cover 34 is arranged on one side wall of the stirring barrel 3, and a shaft sleeve is arranged on the inner side surface of the barrel side cover 34. When the stirrer 4 is mounted, the barrel side cover 34 is first removed, the stirrer 4 is laterally placed in the stirring barrel 3 so that one end of the stirring rod 41 is disposed through the through hole, the shaft sleeve of the barrel side cover 34 is inserted in alignment with the other end of the stirring rod 41, and then the barrel side cover 34 is mounted on the stirring barrel 3. This kind of structure provides convenience for agitator 4 to dismantle relative agitator 3, and convenience of customers uses.

An installation platform 111 is disposed on the engine base shell 11, and two adjacent side walls of the engine base shell 11 respectively extend upward from the installation platform 111 to form a first blocking wall 112 and a second blocking wall 114. A first assembly hole 113 is formed in the first blocking wall 112, and the speed reducer 22 is vertically arranged in the blocking wall 112 so that the first transmission interface 221 of the speed reducer 22 is located in the first assembly hole 113; one end of the stirring rod 41 passes through the through hole of the stirring barrel 3 and is inserted into the first assembly hole 113 to be in transmission connection with the first transmission interface 221, so that the stirrer 4 is in transmission connection with the dough kneading motor 21. A second assembling hole 115 is formed in the second retaining wall 114, and a second transmission interface 233 of a noodle extruding motor output end 232 of the noodle extruding motor is arranged in the second assembling hole 115. Therefore, when the stirring barrel 3 is assembled on the mounting table 111 of the stand shell 11, one end of the stirring rod 41 is inserted into the first assembling hole 113 of the first blocking wall 112, and one end of the face-extruding screw is inserted into the second assembling hole 115 of the second blocking wall 114, so that the stirring barrel 3 and the stand 1 are assembled and fixed in two directions, and the assembling structure is more stable and reliable.

The noodle extruding cylinder 5 is a cylinder with equal inner diameter of each section, the inner cylinder of the noodle extruding cylinder 5 is a noodle extruding cavity 51, and the front end of the noodle extruding cavity 51 is a noodle outlet. The noodle extruding screw 6 comprises a screw body 61 and a spiral 62 arranged on the screw body 61, and a screw shaft 63 is arranged at the rear end of the noodle extruding screw 6. The rear end of the noodle extruding cylinder 5 is provided with a central hole, and the second transmission interface 233 of the noodle extruding motor and the central hole of the noodle extruding cylinder 5 are coaxially arranged with the central axis of the noodle extruding cylinder 5. The screw shaft 63 penetrates through the center hole of the noodle extruding cylinder 5 and then is inserted from the second assembling hole 115 to be in transmission connection with the second transmission interface 233, so that the noodle extruding screw 6 is in transmission connection with the noodle extruding motor, and the noodle extruding motor drives the noodle extruding screw 6 to rotate in the noodle extruding cavity 51 to extrude noodles.

The agitator also includes scraping teeth 44 fixedly connected to the agitator shaft 41 by a tangent bar 45, the scraping teeth 44 being positioned above the dough inlet 32 and parallel to the agitator shaft 41. In the dough kneading stage, the dough water mixture falling into the periphery of the dough inlet 32 and the dough water mixture pushed back to the bottom of the stirring barrel 3 from the dough extruding barrel 5 by the dough extruding screw 6 in a reverse rotation process are scraped by the dough scraping teeth 44, so that the dough water mixture can be prevented from falling into the dough extruding barrel 5 from the dough inlet 32; meanwhile, the dough water mixture is promoted to turn up and down through the dough scraping teeth 44, so that the problem that the dough water mixture is adhered to the bottom of the stirring barrel 3 and cannot be stirred by the stirring teeth 42 is avoided, and the stirring capacity of the stirrer 4 is further improved; moreover, the noodle cutting rod 45 can also play a role in cutting the noodle-water mixture in the rotating process, so that the noodle-water mixture can be cut into a plurality of small volumes, the noodle-water mixture can be fully and uniformly mixed, and the noodle mixing capability of the noodle mixing component can be improved.

The length of the scraping teeth 44 in the direction of the stirring rod 41 is greater than the length of the flour inlet 32 in the direction of the stirring rod 41. The dough scraping teeth 44 can scrape the dough-water mixture at the dough inlet 32 in the rotation process in the dough kneading stage, the probability that the dough-water mixture enters the dough extruding cylinder 5 from the dough inlet 32 can be reduced in the dough kneading stage, and the effect of making the wheaten food is prevented from being influenced by dry flour entering the dough extruding cylinder 5.

Furthermore, at least one rabble tooth 42 adjacent to the scraping tooth 44 has a horizontal projection which partially overlaps with the horizontal projection of the scraping tooth 44. This kind of structure makes when the face water mixture is pushed by stirring tooth 42 dorsad scraping face tooth 44 direction, can all be scraped by scraping face tooth 44 when even there is a small amount of face water mixture to fall into the bottom of agitator 3 for when the face water mixture is scraped and is rotated the whereabouts along with stirring tooth 44, can fall back to again and can be close to the region that a stirring tooth 42 of scraping face tooth 44 can stir, thereby impel the face water mixture can rapid mixing homogeneous, further improve agitator 4's ability of kneading dough.

The stirrer 4 is transversely arranged in the stirring barrel 3 to ensure that the dough kneading component has better dough kneading performance through the transversely arranged stirrer 4, and the dough inlet 32 is arranged at the bottom of the stirring barrel 3 to facilitate dough to enter the dough extruding barrel 5 through the dough inlet 32 after the dough kneading stage is finished. And, through changing the position of advancing the face mouth 32 relative agitator 4, advance face mouth 32 and be located agitator 3 bottom center one side, thereby make the rotation range of stirring tooth 42 not cover as far as possible and advance face mouth 32, thereby can reduce the probability that stirring tooth 42 impels into face mouth 32 with water mixture (mainly dry flour) in the subassembly of kneading dough the in-process, let water mixture all maintain in agitator 3 as far as possible, thereby increased the chance that water mixture is stirred by agitator 4 and mixes, be favorable to guaranteeing to stir fully thereby obtain the better effect of kneading dough.

The installation table 111 is provided with an installation groove 116, and the installation groove 116 is located at one side of the installation table 111. The mixing barrel 3 is assembled on the mounting table 111 of the machine base 1, and the dough extruding cylinder 5 is limited in the mounting groove 116. The mounting groove 116 has a fixed end extending out of the base 1, and a lower half thread 1161 is arranged on the lower side surface of the fixed end; the upper side surface of the front end of the noodle extruding cylinder 5 is provided with an upper half thread 52, and a die cover 82 is in threaded connection with the lower half thread 1161 and the upper half thread 52 to fix the noodle outlet die head 81 at the front end of the noodle extruding cylinder 5.

The noodle outlet die head 81 is arranged at a noodle outlet at the front end of the screw body 61, the noodle outlet die head 81 comprises a die piece 811 and a plurality of noodle outlet holes 812 arranged on the die piece 811, one ends of the noodle outlet holes 812 close to the noodle extruding cylinder 5 are feeding ends, one ends of the noodle outlet holes 812 far away from the noodle extruding cylinder 5 are outlet ends, and the linear distance between the outlet ends of the noodle outlet holes 812 and the noodle outlet of the noodle extruding cylinder 5 is gradually reduced from the upper end to the lower end of the die piece 811, so that the noodles extruded from the noodle outlet holes 812 at the upper end of the die piece 811 are farther away from the noodle extruding cylinder 5 and the noodles extruded from the noodle outlet holes 812 at the lower end of the die piece 811 are closer to the noodle extruding cylinder 5, therefore, the noodles extruded from the noodle outlet holes 812 at various positions of the die piece 811 cannot be adhered to each other, and the effect of producing.

The center of the front end of the screw body 61 is provided with a positioning hole 611, and the positioning hole 611 and the screw body 61 have the same central axis. Under the action of the die cover 82, the peripheral edge of the die sheet 811 abuts against the front end face of the dough extruding cylinder 5, the inner side face of the module 811 is provided with a positioning column 813, the tail end of the positioning column 813 is positioned in the positioning hole 611 of the screw body 61, the front end of the screw body 61 is positioned by the positioning column 813, the front end of the screw body 61 is positioned in the positioning hole 611 to rotate according to the positioning column 813, and equal dough extruding gaps are ensured between the front end of the screw body 61 and the upper side and the lower side of the front end of the dough extruding cylinder 5, so that the uniform-effect cooked wheaten food extruded from the dough extruding die head 81 is ensured.

And a dough discharge die head provided at the end of the dough extruding cylinder 5, wherein the dough discharge die head is screwed to the screw thread 52 provided at the front end of the dough extruding cylinder 5 through a die cover 82, and is fixed to the front end of the dough extruding cylinder 5. The face die comprises a die 811 and a plurality of face holes 812 arranged on the die 811.

The invention provides a wheaten food making machine which has the function of making wheaten food. The pasta machine comprises a dough kneading stage and a dough extruding stage. The water in the mixing barrel 3 and the dry flour are uniformly mixed by the stirrer 4 to form dough in the dough kneading stage. In the dough extruding stage, the dough enters the dough extruding barrel 5 from the dough inlet 32, is extruded by the dough extruding screw 6, and is finally extruded from the dough outlet die head 81 to prepare the wheaten food.

The process of preparing the wheaten food by the wheaten food machine is as follows: putting a proper amount of water and dry flour into a stirrer 31 of a stirring barrel 3, after covering a barrel top cover 33, starting a dough kneading motor 21, driving a stirring rod 41 to rotate in the stirring barrel 3, stirring and mixing the flour and the water by using a stirring tooth 42, and promoting a dough-water mixture to turn up and down by a dough scraping tooth 44, so that the problem that the dough-water mixture is adhered to the bottom of the stirring barrel 3 and cannot be stirred by the stirring tooth 42 is avoided, and the stirring capacity of the stirrer is further improved; moreover, the dough cutting rod 45 can also play a role in cutting the dough-water mixture in the rotating process, so that the dough-water mixture can be cut into a plurality of small volumes, thereby being beneficial to the sufficient and uniform mixing of the dough-water mixture, meanwhile, the dough extruding motor drives the dough extruding screw 6 to rotate reversely so as to push the dry flour or dough wadding falling into the dough extruding cylinder 5 back to the stirring barrel 3, and finally dough kneading is carried out to prepare dough. In the dough extruding stage, the dough kneading motor 21 drives the stirrer 4 to rotate reversely, the dough extruding motor drives the dough extruding screw 6 to rotate forwardly, the spiral surface where the stirring teeth 42 are located turns the dough towards the direction of the dough outlet, when the dough enters the dough outlet 32, the dough is continuously turned up by the dough scraping teeth 44 in the rotating process to avoid the blockage of the dough in the dough outlet 32 and cannot enter the dough extruding cylinder 5 in time, the dough more easily drops into the dough inlet 32, the dough is more smooth to be extruded, the dough extruding efficiency is higher, the dough is scraped up by the dough scraping teeth 44 to avoid the dough remaining at the bottom of the stirring barrel 3, so that the dough is completely extruded, no dough remains at the bottom of the stirring barrel 3, the dough can be fully utilized to prepare the dough, and the stirring barrel is convenient to clean; meanwhile, the dough extruding motor drives the dough extruding screw 6 to rotate forward, the dough entering the dough extruding cylinder 5 from the dough inlet 32 is driven by the screw 62 to be conveyed towards the dough extruding die head 81 along with the forward rotation of the dough extruding screw 6, the dough is continuously extruded in the dough extruding cylinder 5 along with the rotation of the dough extruding screw 6, and finally the dough is extruded from the dough outlet 812 of the dough extruding die head 81 to prepare the wheaten food.

The above description is only exemplary of the present application and should not be taken as limiting the present application, as any modification, equivalent replacement, or improvement made within the spirit and principle of the present application should be included in the protection scope of the present application.

Claims (10)

1. A double-motor driven wheaten food machine comprises a machine base, a dough kneading component and a dough extruding component, wherein the dough kneading component and the dough extruding component are arranged on the machine base; the dough kneading assembly comprises a stirring barrel and a stirrer, wherein the bottom of the stirring barrel is provided with a dough inlet, and the stirrer comprises a stirring rod transversely arranged in the stirring barrel and stirring teeth fixed on the stirring rod; the dough extruding component comprises a dough extruding barrel, a dough extruding screw rod and a dough extruding die head, wherein the dough extruding barrel is transversely arranged below the stirring barrel and is communicated with the stirring barrel through a dough inlet;

the flour mixing and extruding machine is characterized in that the machine base comprises a machine base shell, wherein a flour mixing motor in transmission connection with the stirring rod and a flour extruding motor in transmission connection with the flour extruding screw rod are arranged in the machine base shell;

the dough extruding motor comprises a dough extruding motor body and a dough extruding motor output end perpendicular to the dough extruding motor body, the dough extruding motor body is transversely arranged in the base, the dough extruding motor body is parallel to the stirring rod, the dough extruding motor output end and the dough extruding screw rod are coaxially arranged, and the dough extruding screw rod is located below one end of the stirring rod and is orthogonally arranged with the orthographic projection of the stirring rod.

2. The double-motor driven pasta machine according to claim 1, wherein a motor bearing platform is provided in the housing of the machine base, a first motor mounting location is provided at one end of the motor bearing platform, and a motor support protruding upwards is provided at the other end of the motor bearing platform; the dough kneading motor is arranged on the first motor assembling position, the dough extruding motor body is transversely arranged on the motor bracket, and the output end of the dough extruding motor extends out of the motor bearing platform.

3. The dual motor driven pasta machine according to claim 2 wherein the dough kneading motor is positioned transversely to the first motor mounting location.

4. The double-motor driven pasta machine according to claim 1, wherein the dough kneading motor is in transmission connection with one end of the stirring rod through a speed reducer, and the speed reducer is vertically arranged on one side surface of the stirring barrel.

5. The dual motor driven pasta machine according to claim 1, wherein a mounting platform is provided on the housing shell, two adjacent side walls of the housing shell extend upwardly from the mounting platform to form a first retaining wall and a second retaining wall, respectively, and the first retaining wall and the second retaining wall are provided with a first mounting hole and a second mounting hole, respectively.

6. The dual motor driven pasta machine according to claim 5 wherein the mixing drum has a shaft sleeve and a through hole on each of the two opposite side walls, one end of the mixing rod is pivotally connected to the shaft sleeve, and the other end of the mixing rod is inserted into the first mounting hole after passing through the through hole to be drivingly connected to the dough kneading motor.

7. The double-motor driven pasta machine according to claim 5, wherein the rear end of the pasta-extruding cylinder is provided with a central hole, and one end of the pasta-extruding motor is inserted into the first mounting hole through the central hole and is in transmission connection with the pasta-extruding motor.

8. The double-motor driven pasta machine according to any of claims 1 to 7, wherein the noodle inlet is located on one side of the center of the bottom of the mixing drum and the noodle inlet is offset from the mixing teeth.

9. The dual motor driven pasta machine according to claim 8 wherein the blender further comprises a scraper tooth fixedly attached to the blender bar by the noodle cutting bar, the scraper tooth being positioned above the noodle inlet and parallel to the blender bar.

10. The dual motor driven pasta machine according to claim 8 wherein at least one rabble tooth adjacent to the scraping tooth has a horizontal projection partially overlapping the horizontal projection of the scraping tooth.

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