CN215422495U - Intelligent double-pressure noodle roller noodle machine - Google Patents

Abstract

The utility model discloses an intelligent double-pressure noodle roller noodle maker, and relates to the technical field of noodle makers. The quantitative dough kneading and pressing device comprises an electric control assembly, a quantitative lower assembly, a dough kneading assembly arranged below the quantitative lower assembly, a dough pressing assembly arranged below the dough kneading assembly, a dough cutting assembly arranged below the dough pressing assembly, a conveying assembly arranged below the dough cutting assembly and a water supply assembly for supplying water to the dough kneading assembly, wherein the dough pressing assembly comprises a first dough pressing roller assembly and a second dough pressing roller assembly arranged right below the first dough pressing roller assembly, the diameters of a first fixing roller and a first adjusting roller in the first dough pressing roller assembly are equal, the diameters of a second fixing roller and a second adjusting roller in the second dough pressing roller assembly are equal, the diameter of the first fixing roller is larger than that of the second fixing roller, and the first fixing roller, the first adjusting roller, the second fixing roller and the second adjusting roller are respectively and correspondingly provided with a first scraper assembly, a second scraper assembly, a third scraper assembly and a fourth scraper assembly. The noodle that it was made is comparatively tough and chewy and degree of automation is higher.

Description

Intelligent double-pressure noodle roller noodle machine

Technical Field

The utility model relates to the technical field of noodle makers, in particular to an intelligent double-pressure noodle maker with a noodle roller.

Background

The noodles are health-care food which is simple to prepare, convenient to eat and rich in nutrition, can be used as staple food and fast food, and are accepted and loved by people in the world for a long time.

The noodles are food prepared by adding water into flour of grains or beans, grinding into dough, pressing or rolling or stretching into slices, cutting or pressing, or kneading, pulling, kneading, etc., making into strips (narrow or wide, flat or round), and decocting, parching, stewing, and frying. The patterns are various and the varieties are various. The local characteristics are very rich, and the local characteristics are as long-life noodles eaten during celebration of the birthday and as foreign fragrant and strong spaghetti. The tasty noodles are almost mild and chewy, and develop the flavor of the wheaten food to the utmost.

However, the noodle making needs people to have higher handcrafts and is more tedious to make, and people need to spend more time on eating good noodles. People want to replace manual noodle making through a machine, so that time can be saved and learning of the handcraft of making noodles is not needed. However, the existing noodle maker has low automation degree, needs people to assist in the manufacturing process, and people cannot save the time to do other things around the body.

Therefore, how to make a noodle maker, which can make noodles in a required amount by people in a full-automatic manner, the made noodles are tough and chewy, and the making efficiency is high, which is a problem to be solved by those skilled in the art.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an intelligent double-pressure noodle roller noodle maker, which can be used for fully automatically making noodles with the quantity required by people, and the made noodles are relatively chewy and have high making efficiency.

In order to solve the technical problems, the utility model is realized by the following technical scheme:

the utility model provides an intelligent double-dough-pressing roller noodle maker, which comprises an electric control assembly, a quantitative lower assembly, a dough kneading assembly arranged below the quantitative lower assembly, a dough pressing assembly arranged below the dough kneading assembly, a dough cutting assembly arranged below the dough pressing assembly, a conveying assembly arranged below the dough cutting assembly and a water supply assembly for supplying water to the dough kneading assembly, wherein the dough pressing assembly comprises a first dough pressing roller assembly and a second dough pressing roller assembly arranged right below the first dough pressing roller assembly, a first fixing roller and a first adjusting roller in the first dough pressing roller assembly are equal in diameter, a second fixing roller and a second adjusting roller in the second dough pressing roller assembly are equal in diameter, the diameter of the first fixing roller is larger than that of the second fixing roller, and the first fixing roller, the first adjusting roller, the second fixing roller and the second adjusting roller are respectively and correspondingly provided with a first scraper assembly, A second blade assembly, a third blade assembly, and a fourth blade assembly.

Optionally, the pressure surface assembly includes a U-shaped fixing frame, the fixing frame includes a first plate and a seventh plate which are arranged oppositely, and a second plate which is connected to the first plate and the seventh plate, both ends of the first fixing roller and the second fixing roller are connected to the first plate and the seventh plate respectively through bearing assemblies, a U-shaped first sliding seat and a U-shaped second sliding seat are further slidably arranged on the fixing frame, the first sliding seat includes two third plates and a fourth plate which are arranged oppositely, the second sliding seat includes two fifth plates and a sixth plate which are arranged oppositely, the fourth plate and the sixth plate are respectively provided with a first threaded hole and a second threaded hole, the second plate is connected to a first hand wheel and a second hand wheel in a rotating manner, the first hand wheel and the second hand wheel are respectively provided with a first threaded column and a second threaded column, the first threaded column and the second threaded column are in threaded connection with the first threaded hole and the second threaded hole respectively, and two ends of the first adjusting roller and two ends of the second adjusting roller are rotatably connected to the two third plates and the two fifth plates through bearing assemblies respectively.

Optionally, the pressure face subassembly includes first drive assembly, first drive assembly includes first motor, connects first gear and second gear in the pivot of first fixed roller, connects in the pivot of first regulating roller is last, connects in the pivot of second fixed roller is last fourth gear and fifth gear, connects in the pivot of second regulating roller is last sixth gear, the rotation of second regulating roller is connected in the seventh gear on the first board, the output shaft of first motor with the pivot of first fixed roller is connected, the seventh gear with first gear with the fourth gear meshes mutually, the second gear with the third gear meshes mutually, the fifth gear with the sixth gear meshes mutually.

Optionally, first scraper subassembly includes that both ends are equallyd divide and do not rotate the connection first board with first pivot and second pivot on the seventh board, hand and first cam are broken off with the fingers and thumb to fixedly connected with in the first pivot, the first scraper fixing base of fixedly connected with in the second pivot, the first scraper of fixedly connected with on the first scraper fixing base, first scraper fixing base with first cam offsets.

Optionally, the second scraper assembly includes a second scraper fixing seat connected to the third plate, and a second scraper is fixedly connected to the second scraper fixing seat.

Optionally, the third scraper assembly includes a third rotating shaft with two ends respectively rotatably connected to the two first plates, a third hand wheel fixedly connected to the third rotating shaft, and a third scraper.

Optionally, the lower subassembly of ration includes the face bucket, the face bucket internal rotation is connected with the agitator, agitator fixedly connected with ration dish, the ration dish has the ration hole that the round interval set up, face barrelhead portion be provided with the export that the subassembly of kneading dough is linked together, export and one the ration hole is corresponding, ration dish top be provided with face bucket fixed connection's baffle, be provided with hourglass face hole on the baffle, leak the face hole with the export stagger mutually and with one or more the ration hole is corresponding.

Optionally, the water supply assembly comprises a water storage barrel, a water pipe communicated with the dough kneading assembly, and a pump arranged on the water pipe.

The technical scheme provided by the utility model can have the following beneficial effects: the utility model comprises an electric control assembly, a quantitative lower assembly, a dough kneading assembly arranged below the quantitative lower assembly, a dough pressing assembly arranged below the dough kneading assembly, a dough cutting assembly arranged below the dough pressing assembly, a conveying assembly arranged below the dough cutting assembly and a water supply assembly for supplying water to the dough kneading assembly, wherein the dough pressing assembly comprises a first dough pressing roller assembly and a second dough pressing roller assembly arranged right below the first dough pressing roller assembly, the diameters of a first fixed roller and a first adjusting roller in the first dough pressing roller assembly are equal, the diameters of a second fixed roller and a second adjusting roller in the second dough pressing roller assembly are equal, the diameter of the first fixed roller is larger than that of the second fixed roller, and the first fixed roller, the first adjusting roller, the second fixing roller and the second adjusting roller are respectively and correspondingly provided with a first scraper component, a second scraper component, a third scraper component and a fourth scraper component. The noodle maker can automatically make noodles with required quantity, the made noodles are relatively chewy, and the making efficiency is high.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the utility model and together with the description, serve to explain the principles of the utility model.

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below, the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a perspective view of an intelligent double-nip roll noodle maker shown in the first embodiment;

FIG. 2 is a perspective view of the press face assembly of FIG. 1 in a first orientation;

FIG. 3 is a perspective view of the pressure face assembly in a second orientation;

FIG. 4 is a perspective view of the pressure face assembly in a third orientation;

FIG. 5 is a perspective view of the dough pressing assembly in a fourth orientation with the first plate and the dough roller removed;

FIG. 6 is a perspective view of the dosing lower and upper assemblies of FIG. 1;

FIG. 7 is a perspective view of the internal structure of the dosing lower assembly of FIG. 1;

fig. 8 is an exploded view of fig. 7.

In the figure: 1. dosing the lower component; 2. a dough kneading assembly; 3. a dough pressing component; 4. cutting the noodles into components; 5. a transfer assembly; 6. an electronic control assembly; 11. a dough barrel; 12. a stirrer; 13. a quantitative disc; 14. a baffle plate; 31. a first pressure face roll assembly; 32. a second pressure face roll assembly; 33. a noodle ear interface assembly; 34. a fixed mount; 35. a first scraper assembly; 36. a second scraper assembly; 37. a third scraper assembly; 38. a fourth scraper assembly; 39. a drive assembly; 111. an outlet; 131. a dosing aperture; 141. a leakage surface hole; 311. a first fixed roller; 312. a first regulating roller; 313. a first slider; 314. a first hand wheel; 321. a second fixed roller; 322. a second dancer roll; 323. a second slide carriage; 324. a second hand wheel; 341. a first plate; 342. a second plate; 343. a seventh plate; 351. a first rotating shaft; 352. a first cam; 353. breaking hands; 354. a second rotating shaft; 355. a first scraper fixing seat; 356. a first scraper; 361. a second scraper; 362. a second scraper fixing seat; 371. a third scraper; 372. a third rotating shaft; 373. a third hand wheel; 381. a fourth scraper; 382. a fourth rotating shaft; 383. a fourth hand wheel; 391. a first motor; 392. a first gear; 393. a second gear; 394. a third gear; 395. a fourth gear; 396. a fifth gear; 397. a sixth gear; 398. a seventh gear; 3131. a fourth plate; 3132. a third plate; 3231. a sixth plate; 3232. and a fifth plate.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", "front", "rear", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation or be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Specifically, "front" refers to a direction approaching the viewer perpendicular to the paper surface, and "rear" refers to a direction departing the viewer perpendicular to the paper surface. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present invention. Rather, they are merely examples of apparatus or methods consistent with certain aspects of the utility model.

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be described in detail below. It is to be understood that the described embodiments are merely exemplary of the utility model, and not restrictive of the full scope of the utility model. All other embodiments, which can be derived by a person skilled in the art from the examples given herein without any inventive step, are within the scope of the present invention.

Hereinafter, embodiments will be described with reference to the drawings. The embodiments described below do not limit the scope of the utility model described in the claims. Further, the entire contents of the configurations shown in the following embodiments are not limited to those necessary as a solution of the utility model described in the claims.

Referring to fig. 1-8, the present invention provides an intelligent double-pressure-face roller noodle machine, including an electric control assembly 6, a quantitative lower assembly 1, a dough kneading assembly 2 disposed below the quantitative lower assembly 1, a pressure face assembly 3 disposed below the dough kneading assembly 2, a cut face assembly 4 disposed below the pressure face assembly, a conveying assembly 5 disposed below the cut face assembly 4, and a water supply assembly supplying water to the dough kneading assembly 2, wherein the pressure face assembly 3 includes a first pressure face roller assembly 31 and a second pressure face roller assembly 32 disposed directly below the first pressure face roller assembly 31, the first fixed roller 311 and the first adjusting roller 312 in the first pressure face roller assembly 31 have the same diameter, the second fixed roller 321 and the second adjusting roller 322 in the second pressure face roller assembly 32 have the same diameter, the first fixed roller 311 has a diameter larger than that of the second fixed roller 321, and the first fixed roller 311, the first adjusting roller 312, The second fixed roller 321 and the second regulating roller 322 are respectively provided with a first blade assembly 35, a second blade assembly 36, a third blade assembly 37 and a fourth blade assembly 38.

Therefore, under the control of the electric control component 6, a certain amount of noodles are placed below the quantitative lower component 1, the noodles enter the dough kneading component 2, the water supply component supplies a certain amount of water to the dough kneading component 2, after the dough kneading component 2 kneads the noodles, the noodles are fed into the first dough pressing roller component 31 of the dough pressing component 3 to be rolled for the first time (specifically, a noodle ear interface component 33 can be arranged above the first dough pressing roller component 31, the kneaded noodles enter the first dough pressing roller component 31 through the noodle ear interface component 33), then the noodles enter the second dough pressing roller component 32 to be rolled for the second time, the noodles enter the dough cutting component 4 to form noodles after being formed, the noodles fall into the conveying component 5 and are delivered out through the conveying component.

The utility model comprises the following steps: firstly, the degree of automation is high, people can freely select the quantity of the prepared noodles, and the selected quantity of noodles can be obtained by quantifying the lower component 1 after clicking. Each subassembly sets up from last to down, the dough sheet receives the action of gravity and obtains the direction, need not other guider, the dough sheet can get into second pressure face roller assembly 32 through first pressure face roller assembly 31, get into tangent plane device 4 by second pressure face roller assembly 32 again, and do not receive the restriction of dough sheet length (the length of dough sheet also can normally roll in short time, if two pressure face subassemblies set up horizontally, the length of dough sheet need be greater than the distance between two pressure face subassemblies and just can roll in, and need continuous production just can, otherwise only roll in quantitative dough, all need hold the dough sheet with the hand and make it remove to second pressure face roller assembly from first pressure face roller assembly during preparation at every turn, it just can go on automatically), can freely select the required volume of preparation noodless like this. Secondly, the dough sheet is rolled in two rolling processes, and the noodles are relatively chewy. Third, the diameter of the first fixed roller 311 is larger than that of the second fixed roller 321, the dough sheet is rolled by the roller with the larger diameter, and then is rolled by the roller with the smaller diameter, and the rolling effect is better. Fourthly, the first fixed roller 311, the first adjusting roller 312, the second fixed roller 321 and the second adjusting roller 322 are respectively and correspondingly provided with a first scraper component 35, a second scraper component 36, a third scraper component 37 and a fourth scraper component 38, and in the rolling process, the surface on the roller can be scraped in time, so that the rolling effect of the dough sheet is better.

The pressing surface assembly 3 comprises a U-shaped fixing frame 34, the fixing frame 34 comprises a first plate 341 and a seventh plate 343 which are arranged oppositely, and a second plate 342 connected with the first plate 341, both ends of the first fixing roller 311 and the second fixing roller 321 are respectively connected on the first plate 341 and the seventh plate 343 through bearing assemblies in a rotating manner, the fixing frame 34 is further provided with a U-shaped first sliding seat 313 and a U-shaped second sliding seat 323 in a sliding manner, the first sliding seat 313 comprises two third plates 3132 and a fourth plate 3131 which are arranged oppositely, the second sliding seat 323 comprises two fifth plates 3232 and a sixth plate 3231 which are arranged oppositely, the fourth plate 3131 and the sixth plate 3231 are respectively provided with a first threaded hole and a second threaded hole, the second plate 342 is connected with a first hand wheel 314 and a second hand wheel 324 in a rotating manner, the first hand wheel 314 and the second hand wheel 324 are respectively provided with a first threaded column and a second threaded column, the first threaded column and the second threaded column are respectively in threaded connection with the first threaded hole and the second threaded column, both ends of the first and second dancer rollers 312 and 322 are rotatably coupled to the two third plates 3132 and the two fifth plates 3232, respectively, by bearing assemblies.

Thus, the first and second sliders 313 and 323 can be moved along the first and second threaded columns by rotating the first and second hand wheels 314 and 324, thereby adjusting the distances between the first adjustment roller 312 and the first fixed roller 311 and between the second adjustment roller 322 and the second fixed roller 321, and thus finely adjusting the thickness of the dough sheet.

The dough pressing member 3 includes a first driving member 39, the first driving member 39 includes a first motor 391, a first gear 392 and a second gear 393 connected to a rotation shaft of the first fixing roller 311, a third gear 394 connected to a rotation shaft of the first adjusting roller 312, a fourth gear 395 and a fifth gear 396 connected to a rotation shaft of the second fixing roller 321, a sixth gear 397 connected to a rotation shaft of the second adjusting roller 322, and a seventh gear 398 rotatably connected to the first plate 341, an output shaft of the first motor 391 is connected to the rotation shaft of the first fixing roller 311, the seventh gear 398 is engaged with the first gear 392 and the fourth gear 395, the second gear 393 is engaged with the third gear 394, and the fifth gear 396 is engaged with the sixth gear 397.

Therefore, the rotation of each roller can be realized through one motor, and the rotation of each roller is more stable by adopting a gear transmission mode.

The first scraper assembly 35 comprises a first rotating shaft 351 and a second rotating shaft 354, wherein two ends of the first rotating shaft 351 and the second rotating shaft 354 are respectively and rotatably connected to the first plate 341 and the seventh plate 343, a breaking hand 353 and a first cam 352 are fixedly connected to the first rotating shaft 351, a first scraper fixing seat 355 is fixedly connected to the second rotating shaft 354, a first scraper 356 is fixedly connected to the first scraper fixing seat 355, and the first scraper fixing seat 355 is abutted to the first cam 352.

In this way, the first cam 352 can be rotated by rotating the hand 353, and the first cam 352 pushes the first scraper fixing seat 355 to rotate, thereby adjusting the distance between the first scraper 356 and the outer circumferential surface of the first fixing roller 311.

The second scraper assembly 36 is connected to the second scraper holders 362 on the two third plates 3132, and the second scraper holders 362 are fixedly connected with the second scraper 361.

The third scraper assembly 37 includes a third rotating shaft 372 rotatably connected to the first plate 341 and the seventh plate 343 at both ends, and a third hand wheel 373 and a third scraper 371 fixedly connected to the third rotating shaft 372.

Thus, the third scraper 371 can be rotated along with the third rotating shaft 372 by rotating the third hand wheel 373, and the distance between the third scraper 371 and the outer circumferential surface of the second fixed roller 321 can be further adjusted.

The fourth scraper assembly 38 comprises a fourth rotating shaft 382, a fourth handwheel 383 and a fourth scraper 381, wherein the two ends of the fourth rotating shaft 382 are respectively and rotatably connected to the first plate 341 and the seventh plate 343, and the fourth handwheel 383 and the fourth scraper 381 are fixedly connected to the fourth rotating shaft 382.

The quantitative lower component 1 comprises a flour barrel 11, a stirrer 12 is rotationally connected in the flour barrel 11, a quantitative disc 13 is fixedly connected with the stirrer 12, the quantitative disc 13 is provided with a circle of quantitative holes 131 which are arranged at intervals, the bottom of the flour barrel 11 is provided with an outlet 111 communicated with the flour component 2, the outlet 111 corresponds to one quantitative hole 131, a baffle 14 fixedly connected with the flour barrel 11 is arranged above the quantitative disc 13, a flour leakage hole 141 is formed in the baffle 14, and the flour leakage hole 141 and the outlet 111 are staggered and correspond to one or more quantitative holes 131.

The flour enters the quantitative holes 131 through the flour leakage holes 141, and every time the stirrer 12 rotates by a certain angle (the angle of one or more quantitative holes 131), the flour in one or more quantitative holes 131 enters the dough kneading assembly 2 through the outlet 111.

The water supply component comprises a water storage barrel, a water pipe communicated with the dough kneading component 2 and a pump arranged on the water pipe.

It is understood that the same or similar parts in the above embodiments may be mutually referred to, and the same or similar parts in other embodiments may be referred to for the content which is not described in detail in some embodiments.

Although embodiments of the present invention have been shown and described, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that changes, modifications, substitutions and alterations to the above embodiments, which are within the scope of the present invention, may be made by those of ordinary skill in the art.

Claims (8)

1. The intelligent double-dough-pressing roller noodle machine is characterized by comprising an electric control assembly (6), a quantitative lower assembly (1), a dough kneading assembly (2) arranged below the quantitative lower assembly (1), a dough pressing assembly (3) arranged below the dough kneading assembly (2), a dough cutting assembly (4) arranged below the dough pressing assembly, a conveying assembly (5) arranged below the dough cutting assembly (4) and a water supply assembly for supplying water to the dough kneading assembly (2), wherein the dough pressing assembly (3) comprises a first dough pressing roller assembly (31) and a second dough pressing roller assembly (32) arranged right below the first dough pressing roller assembly (31), the diameters of a first fixed roller (311) and a first adjusting roller (312) in the first dough pressing roller assembly (31) are equal, the diameters of a second fixed roller (321) and a second adjusting roller (322) in the second dough pressing roller assembly (32) are equal, the diameter of the first fixed roller (311) is larger than that of the second fixed roller (321), and the first fixed roller (311), the first adjusting roller (312), the second fixed roller (321) and the second adjusting roller (322) are respectively and correspondingly provided with a first scraper component (35), a second scraper component (36), a third scraper component (37) and a fourth scraper component (38).

2. An intelligent double-roller noodle maker according to claim 1, wherein the noodle pressing assembly (3) comprises a U-shaped fixing frame (34), the fixing frame (34) comprises a first plate (341) and a seventh plate (343) which are oppositely arranged, and a second plate (342) which connects the first plate (341) and the seventh plate (343), both ends of the first fixed roller (311) and the second fixed roller (321) are respectively and rotatably connected on the first plate (341) and the seventh plate (343) through bearing assemblies, the fixing frame (34) is further provided with a U-shaped first sliding seat (313) and a U-shaped second sliding seat (323) in a sliding way, the first sliding seat (313) comprises two third plates (3132) which are oppositely arranged and a fourth plate (3131), the second sliding seat (323) comprises two fifth plates (3232) which are oppositely arranged and a sixth plate (3231), the fourth plate (3131) and the sixth plate (3231) are provided with a first threaded hole and a second threaded hole respectively, the second plate (342) is connected with a first hand wheel (314) and a second hand wheel (324) in a rotating mode, the first hand wheel (314) and the second hand wheel (324) are provided with a first threaded column and a second threaded column respectively, the first threaded column and the second threaded column are connected with the first threaded hole and the second threaded hole in a threaded mode respectively, the first adjusting roller (312) and the two ends of the second adjusting roller (322) are connected with the third plate (3132) and the two fifth plate (3232) in a rotating mode respectively through bearing assemblies.

3. The intelligent double-platen roller noodle maker according to claim 2, wherein the platen assembly (3) comprises a first driving assembly (39), the first driving assembly (39) comprises a first motor (391), a first gear (392) and a second gear (393) connected to the rotating shaft of the first fixed roller (311), a third gear (394) connected to the rotating shaft of the first adjusting roller (312), a fourth gear (395) and a fifth gear (396) connected to the rotating shaft of the second fixed roller (321), a sixth gear (397) connected to the rotating shaft of the second adjusting roller (322), a seventh gear (398) rotatably connected to the first plate (341), the output shaft of the first motor (391) is connected to the rotating shaft of the first fixed roller (311), and the seventh gear (398) is engaged with the first gear (392) and the fourth gear (395), the second gear (393) is meshed with the third gear (394), and the fifth gear (396) is meshed with the sixth gear (397).

4. The intelligent double-dough roller noodle maker according to claim 2, wherein the first scraper assembly (35) comprises a first rotating shaft (351) and a second rotating shaft (354) which are respectively rotatably connected to the first plate (341) and the seventh plate (343) at two ends, a breaking arm (353) and a first cam (352) are fixedly connected to the first rotating shaft (351), a first scraper fixing seat (355) is fixedly connected to the second rotating shaft (354), a first scraper (356) is fixedly connected to the first scraper fixing seat (355), and the first scraper fixing seat (355) abuts against the first cam (352).

5. The intelligent double-platen roller noodle maker according to claim 2, wherein the second blade assembly (36) comprises a second blade holder (362) attached to the third plate (3132), the second blade holder (362) having a second blade (361) fixedly attached thereto.

6. The intelligent double-pressure-face roller noodle machine as claimed in claim 2, wherein the third scraper component (37) comprises a third rotating shaft (372) with two ends respectively connected to the two first plates (341) in a rotating manner, a third hand wheel (373) fixedly connected to the third rotating shaft (372) and a third scraper (371).

7. The intelligent double-dough-roller noodle maker according to claim 1, wherein the quantitative lower assembly (1) comprises a noodle barrel (11), a stirrer (12) is rotationally connected in the noodle barrel (11), a quantitative disc (13) is fixedly connected to the stirrer (12), a circle of quantitative holes (131) are formed in the quantitative disc (13) at intervals, an outlet (111) communicated with the noodle kneading assembly (2) is formed in the bottom of the noodle barrel (11), the outlet (111) corresponds to one quantitative hole (131), a baffle (14) fixedly connected with the noodle barrel (11) is arranged above the quantitative disc (13), a noodle leaking hole (141) is formed in the baffle (14), and the noodle leaking hole (141) is staggered with the outlet (111) and corresponds to one or more quantitative holes (131).

8. The intelligent double-pressure-face roller noodle machine as claimed in claim 1, wherein the water supply assembly comprises a water storage barrel, a water pipe communicated with the dough kneading assembly (2), and a pump arranged on the water pipe.

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