CN209825009U - Noodle maker and multi-roller noodle pressing device thereof - Google Patents

Abstract

The utility model discloses a noodle and multiroll press face device thereof, wherein the multiroll press face device is including the pan feeding mouth that is used for inserting the face wadding for the discharge gate of output dough sheet is linked together, is used for suppressing the input compression roller set of dough sheet with the pan feeding mouth, is linked together, sets up the output compression roller set in input compression roller set below with the discharge gate, is used for driving the drive assembly of input compression roller set and output compression roller set, and is used for providing the power of electric energy. So set up, the face wadding gets into input compression roller group and carries out the suppression for the first time, continues again to carry out the suppression for the second time through output compression roller group to produce the dough sheet that the suppression is good, through extrusion many times, make the dough sheet receive more extrusion forces, improved the toughness of dough sheet and the taste of finished product noodless, thereby solved among the prior art the poor problem of making finished product noodless taste of dough sheet toughness.

Description

Noodle maker and multi-roller noodle pressing device thereof

Technical Field

The utility model relates to a food processing technology field, more specifically say, relate to a noodle and multi-roll press face device thereof.

Background

At present, in the process of making noodles, dough or dough skin is processed and formed, generally, manual operation or mechanical operation is carried out, wherein the mechanical processing is completed by a noodle machine. However, the existing noodle maker can only perform one-time extrusion on dough, namely, the subsequent operation is performed, so that the dough sheet is insufficient in density, poor in taste and free of toughness. Therefore, how to solve the problem that the noodle sheet in the prior art has poor toughness so that the taste of the finished noodles is not good becomes an important technical problem to be solved by technical personnel in the field.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a noodle and multi-roll press face device thereof to thereby solve among the prior art poor problem that makes finished product noodless taste of dough sheet toughness.

The utility model aims at realizing through the following technical scheme:

the utility model provides a pair of multi-roll noodle pressing device of noodle, including the pan feeding mouth that is used for inserting the face wadding for the discharge gate of output dough sheet, with the pan feeding mouth is linked together, is used for suppressing the input compression roller set of dough sheet, with the discharge gate is linked together, sets up the output compression roller set of input compression roller set below is used for the drive input compression roller set with the drive assembly of output compression roller set to and be used for providing the power of electric energy.

Preferably, the feeding device further comprises a first guide panel arranged between the feeding port and the input press roller group, and a second guide panel arranged between the input press roller group and the output press roller group.

Preferably, the input compression roller group at least comprises a first input roller group and a second input roller group which are distributed along the horizontal direction, the first input roller group comprises a first roller and a second roller which is arranged side by side with the first roller and turns opposite to the first roller, the first roller and the second roller are distributed at intervals to form a compression gap, the second input roller group comprises a third roller and a fourth roller which is arranged side by side with the third roller and turns opposite to the third roller, the third roller and the fourth roller are distributed at intervals to form a compression gap, the output compression roller group comprises a fifth roller and a sixth roller which is arranged side by side with the fifth roller and turns opposite to the fifth roller, and the fifth roller and the sixth roller are distributed at intervals to form a compression gap.

Preferably, the driving assembly comprises a motor for providing power and a gear chain transmission mechanism in transmission connection with an output shaft of the motor, and the gear chain transmission mechanism at least comprises a first chain wheel set for driving the first input roller set, a second chain wheel set for driving the second input roller set and a third chain wheel set for driving the output pressing roller set.

Preferably, the first sprocket set comprises a driving wheel arranged on the output shaft of the motor, a first gear and a second gear respectively arranged on the first roller and the second roller, a first adjusting gear for adjusting the first gear and the second gear to rotate in opposite directions, and a first chain meshed with the driving wheel, the first gear, the second gear and the first adjusting gear;

the second chain wheel set comprises a third gear arranged on the first roller, a fourth gear and a fifth gear which are respectively arranged on the third roller and the fourth roller, a second adjusting gear used for adjusting the fourth gear and the fifth gear to rotate reversely, and a second chain meshed with the third gear, the fourth gear, the fifth gear and the second adjusting gear;

the third chain wheel set comprises a sixth gear arranged on the first roller, a seventh gear and an eighth gear which are respectively arranged on the fifth roller and the sixth roller, a third adjusting gear used for adjusting the seventh gear and the eighth gear to rotate reversely, and a third chain meshed with the sixth gear, the seventh gear, the eighth gear and the third adjusting gear.

Preferably, the first input roller set further comprises a first adjusting mechanism for adjusting a distance between the first roller and the second roller, the second input roller set further comprises a second adjusting mechanism for adjusting a distance between the third roller and the fourth roller, and the output roller set further comprises a third adjusting mechanism for adjusting a distance between the fifth roller and the sixth roller.

Preferably, the roller diameter of the output set of rollers is greater than the roller diameter of the input set of rollers.

Preferably, the rollers of the output and input roller sets are both hollow rollers.

Preferably, the bottom of the rollers of the output and input roller sets are provided with scrapers.

The utility model also provides a noodle machine, including the multiple roll noodle device, the multiple roll noodle device be as above arbitrary the multiple roll noodle device.

The utility model provides an among the technical scheme, a multi-roll noodle pressing device of noodle is including the pan feeding mouth that is used for inserting the face wadding for the discharge gate of output dough sheet is linked together, is used for suppressing the input compression roller set of dough sheet with the pan feeding mouth, is linked together, sets up the output compression roller set in input compression roller set below with the discharge gate, is used for driving the drive assembly of input compression roller set and output compression roller set, and is used for providing the power of electric energy. So set up, the face wadding gets into input compression roller group and carries out the suppression for the first time, continues again to carry out the suppression for the second time through output compression roller group to produce the dough sheet that the suppression is good, through extrusion many times, make the dough sheet receive more extrusion forces, improved the toughness of dough sheet and the taste of finished product noodless, thereby solved among the prior art the poor problem of making finished product noodless taste of dough sheet toughness.

Drawings

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 described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic view of the internal structure of a multi-rolling noodle maker according to an embodiment of the present invention;

fig. 2 is a first schematic structural diagram of a gear chain transmission mechanism in an embodiment of the present invention;

fig. 3 is a second schematic structural view of the gear chain transmission mechanism in the embodiment of the present invention;

fig. 4 is a cross-sectional view of a first adjustment mechanism in an embodiment of the present invention;

fig. 5 is an external structural schematic diagram of the first adjusting mechanism in the embodiment of the present invention.

In fig. 1-5:

a feeding port-1, a discharging port-2, an output press roller group-3, a first guide plate-4, a second guide plate-5, a first input roller group-6, a second input roller group-7, a first roller-8, a second roller-9, a third roller-10, a fourth roller-11, a fifth roller-12, a sixth roller-13, a motor-14, a driving wheel-15, a first gear-16, a second gear-17, a first adjusting gear-18, a first chain-19, a third gear-20, a fourth gear-21, a fifth gear-22, a second adjusting gear-23, a second chain-24, a sixth gear-25, a seventh gear-26, an eighth gear-27, a third adjusting gear-28, a third adjusting gear-24, a third adjusting gear-14, a fourth adjusting gear-23, a fourth adjusting gear-25, a fourth gear-26, a fourth, A third chain-29, a scraper-30, a push block-31, a valve core-32 and an adjusting hand wheel-33.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be described in detail below. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

This embodiment provides a noodle and multi-roll press face device thereof, thereby has solved among the prior art dough sheet toughness poor problem that makes finished product noodless taste not good.

Hereinafter, embodiments will be described in detail with reference to the accompanying drawings. The embodiments described below do not limit the scope of the invention 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 invention described in the claims.

Referring to fig. 1-5, the multi-roller dough pressing device of the noodle maker provided in this embodiment includes a feeding port 1 for feeding dough wadding, a discharging port 2 for discharging dough sheets, an input roller set communicated with the feeding port 1 for pressing dough sheets, an output roller set 3 communicated with the discharging port 2 and disposed below the input roller set, a driving assembly for driving the input roller set and the output roller set 3, and a power supply for supplying power, wherein the power supply can supply power to all electrical devices in the device. So set up, the face wadding gets into input compression roller group and carries out suppression for the first time, continues again and carries out suppression for the second time through output compression roller group to produce the dough sheet that the suppression is good, through a lot of extrusion, make the dough sheet receive more extrusion forces, improve the extrusion effect, compare and only carry out a pressure face process in current noodle, improved the toughness of dough sheet and the taste of finished product noodless, thereby solved among the prior art the poor problem of messenger's finished product noodless taste of dough sheet toughness. The term "below" of the input nip roller group as used herein means a state in which the multi-nip surface apparatus shown in fig. 1 is placed, that is, a lower side of the input nip roller group in the drawing is a lower side of the input nip roller group.

In this embodiment, the multi-nip apparatus further includes a first guide panel 4 disposed between the feeding port 1 and the input nip roller group, and a second guide panel 5 disposed between the input nip roller group and the output nip roller group 3. Optionally, the first guide panel 4 and the second guide panel 5 are sheet metal parts with smooth surfaces, so that the sliding of the object is facilitated, meanwhile, the cost can be saved, and in addition, the device can be made into a proper shape and structure according to the design requirements of the device. So set up, play the guide effect, can conveniently introduce the face wadding of pan feeding mouth into the input compression roller group, avoid the face wadding to splash to other positions, improve work efficiency and the wadding utilization ratio of kneading dough, also will once suppress the dough sheet that forms simultaneously better and lead into the output compression roller group, suppress once more, under the effect of guide panel, make the pressure face process more smooth, continuous, avoid the material extravagant, guarantee the pressure face effect.

In a preferred scheme of the embodiment, the input press roller group at least comprises a first input roller group 6 and a second input roller group 7 which are distributed along the horizontal direction, the first input roller group 6 comprises a first roller 8 and a second roller 9 which is arranged side by side with the first roller 8 and turns reversely, the first roller 8 and the second roller 9 are distributed at intervals to form a press face gap, the second input roller group 7 comprises a third roller 10 and a fourth roller 11 which is arranged side by side with the third roller 10 and turns reversely, the third roller 10 and the fourth roller 11 are distributed at intervals to form a press face gap, the output press roller group 3 comprises a fifth roller 12 and a sixth roller 13 which is arranged side by side with the fifth roller 12 and turns reversely, and the fifth roller 12 and the sixth roller 13 are distributed at intervals to form a press face gap. Thus, the rollers are arranged in pairs, a dough pressing space is formed between the two rollers, and the two rollers can smoothly guide the dough wadding into the dough pressing space in opposite rotation directions to press the dough. Alternatively, as shown in fig. 1, the first guide plate 4 is provided with two branches leading from the inlet 1 to two sets of input rollers, respectively, to guide the dough-wadding simultaneously to the space between the two rollers in each set; the second guide plate 5 is also provided with two branches, converging from the two input roller groups to the output roller group 3, respectively, to converge the respective produced dough sheets between the fifth roller 12 and the sixth roller 13. So set up, the locating place of first input roller set, second input roller set and output compression roller set forms the shape of falling triangle-shaped, and the face wadding gets into first input roller set, second input roller set respectively earlier and shunts the extrusion, reduces the extrusion volume, improves the extrusion effect, then extrudees the dough sheet confluence, makes the dough sheet receive the extrusion force of more directions, and the density that makes the dough sheet suppression is better, more has toughness.

In other embodiments, at least one pressing roller group formed by two rollers arranged in pairs can be added between the input pressing roller group and the output pressing roller group 3, and each pressing roller group is arranged in a line along the vertical direction to form a linear structure, so that the wadding is continuously extruded for multiple times from top to bottom once, twice, three times and the like, and the extrusion effect is better. In addition, a guide panel can be arranged between the press roll sets. Of course, the number and the arrangement of the compression roller sets can be changed according to the actual factors such as the size and the requirement of the equipment, so that the equipment has reasonable manufacturing cost and proper volume while the multiple pressing surfaces are ensured to be realized, and the use requirement of a user is met.

As an alternative embodiment, the roller diameter of the output roller set 3 is larger than the roller diameter of the input roller set. Like this when the face wadding through input compression roller set suppression back, extrude with bigger flour pressing roller, the extrusion effect is better, improves the toughness of dough sheet and the taste of finished product noodless. Optionally, the roller diameter of the input nip roller set is 40 mm to 140 mm, preferably 110 mm; the roll diameter of the output roll stack 3 is 60 mm to 200 mm, preferably 140 mm. If the diameter of the roller is larger, the weight is larger, the cost of the device is increased, and the device is large in size and inconvenient to install and use; if the roller diameter is small, the squeezing effect is affected. By the design, the manufacturing cost is reasonable, materials are saved, and a good noodle pressing effect is achieved.

In this embodiment, the driving assembly comprises a motor 14 for providing power and a gear chain transmission mechanism in driving connection with an output shaft of the motor 14, and the gear chain transmission mechanism comprises a first sprocket set for driving the first input roller set 6, a second sprocket set for driving the second input roller set 7 and a third sprocket set for driving the output pressure roller set 3. Wherein the power source can provide power to the motor 14. Therefore, when the motor runs, the pressing rollers can be conveyed through the gear chain and the like, so that the pressing rollers of all groups start to work, and the reliable operation of the device is ensured.

As a specific embodiment of the present invention, as shown in fig. 2, the first sprocket set includes a driving wheel 15 disposed on the output shaft of the motor 14, a first gear 16 and a second gear 17 respectively disposed on the first roller 8 and the second roller 9, a first adjusting gear 18 for adjusting the first gear 16 and the second gear 17 to rotate in opposite directions, and a first chain 19 engaged with the driving wheel 15, the first gear 16, the second gear 17, and the first adjusting gear 18; the first chain 19 is a closed ring chain, the driving wheel 15, the first gear 16 and the first adjusting gear 18 are all meshed with the inner ring of the first chain 19, and the second gear 17 is meshed with the outer ring of the first chain 19, so that the first gear 16 and the second gear 17 rotate in opposite directions.

The second chain wheel set comprises a third gear 20 arranged on the first roller 8, a fourth gear 21 and a fifth gear 22 respectively arranged on the third roller 10 and the fourth roller 11, a second adjusting gear 23 used for adjusting the reverse rotation of the fourth gear 21 and the fifth gear 22, and a second chain 24 meshed with the third gear 20, the fourth gear 21, the fifth gear 22 and the second adjusting gear 23; the second chain 24 is a closed ring chain, the third gear 20, the fourth gear 21 and the second adjusting gear 23 are all meshed with the inner ring of the second chain 24, and the fifth gear 22 is meshed with the outer ring of the second chain 24, so that the fourth gear 21 and the fifth gear 22 are opposite in rotation direction.

The third chain wheel set comprises a sixth gear 25 arranged on the first roller 8, a seventh gear 26 and an eighth gear 27 respectively arranged on the fifth roller 12 and the sixth roller 13, a third adjusting gear 28 for adjusting the seventh gear 26 and the eighth gear 27 to rotate reversely, and a third chain 29 meshed with the sixth gear 25, the seventh gear 26, the eighth gear 27 and the third adjusting gear 28; the third chain 29 is a closed ring chain, the sixth gear 25, the seventh gear 26 and the third adjusting gear 28 are all meshed with the inner ring of the third chain 29, and the eighth gear 27 is meshed with the outer ring of the third chain 29, so that the seventh gear 26 and the eighth gear 27 rotate in opposite directions.

Thus, as shown in fig. 3, the first gear 16, the third gear 20 and the sixth gear 25 are all disposed on the first roller 8, so that the transmission structure can be simplified and the cost can be reduced on the premise of ensuring normal operation. Furthermore, the multi-rolled surface device is rotatably provided with rotating shafts for mounting the first adjusting gear 18, the second adjusting gear 23, and the third adjusting gear 28, respectively. The connection mode between each gear and the corresponding roller, and between each adjusting gear and the corresponding rotating shaft may be a key connection, etc., and the related settings are conventional means of those skilled in the art, and are prior art in the field, and the specific structure thereof is not the main content studied herein, and therefore, it is not described herein again.

In order to press the wrappers with different thicknesses, in the embodiment, the first input roller group 6 further comprises a first adjusting mechanism for adjusting the distance between the first roller 8 and the second roller 9, the second input roller group 7 further comprises a second adjusting mechanism for adjusting the distance between the third roller 10 and the fourth roller 11, and the output press roller group 3 further comprises a third adjusting mechanism for adjusting the distance between the fifth roller 12 and the sixth roller 13. Alternatively, the first roller 8 is fixed in position and the second roller 9 is adjustable in position and connected to the first adjustment mechanism. As shown in fig. 4 and 5, the first adjusting mechanism includes a pushing block 31 connected to the second roller 9, a valve core 32 fixedly disposed in the pushing block 31, and an adjusting hand wheel 33 connected to the valve core 32, wherein the adjusting hand wheel 33 is connected to the valve core 32 through a jackscrew, the valve core 32 may be a square structure, and when the adjusting hand wheel 33 is rotated, the valve core 32 does not rotate in the pushing block 31 and drives the pushing block 31 to move toward the first roller 8 under the action of the jackscrew, so as to change the distance between the two rollers for adjusting the thickness of the dough sheet. Similarly, the second and third adjusting mechanisms can be adaptively changed with reference to the first adjusting mechanism to adjust the distances between the third and fourth rollers 10 and 11, and between the fifth and sixth rollers 12 and 13, respectively.

In this embodiment, the rollers of the output and input nip roller sets 3 and 3 are both hollow rollers. By the arrangement, the weight of the roller can be properly reduced and materials can be saved under the condition that the surface pressing effect is not influenced. In addition, the bottom of the rollers of the output and input pressure roller sets 3 and 30 are provided with scrapers, so that the flour on the pressure roller can be effectively cleaned, and the pressure roller can be prevented from being blocked. Optionally, one of the two scrapers 30 under each press roll set is designed as a movable scraper, so that the cleaning is convenient and the use is convenient. It should be noted that the "bottom" of the roller as referred to herein refers to the position of the multi-roller dough pressing device as shown in fig. 1, i.e., the bottom of the roller is the lower end of the roller in the figure. The multi-roll noodle pressing device is also provided with a shell which plays roles of fixing, supporting and protecting each part and the like.

The embodiment also provides a noodle maker, which comprises a multi-rolling noodle device, wherein the multi-rolling noodle device is the multi-rolling noodle device described above.

It should be noted that the various functional devices or components in the above embodiments can be combined, for example, the multi-roller dough pressing device of the noodle maker in the preferred embodiment includes a feeding port 1 for feeding dough into the dough wadding, a discharging port 2 for discharging dough sheets, an input roller set communicated with the feeding port 1 and used for pressing dough sheets, an output roller set 3 communicated with the discharging port 2 and arranged below the input roller set, a driving assembly for driving the input roller set and the output roller set 3, and a power supply for supplying power to all the electric devices in the device. Wherein the roller diameter of the output compression roller group 3 is larger than that of the input compression roller group, and the roller diameter of the input compression roller group is 40 mm to 140 mm, preferably 110 mm; the roll diameter of the output roll stack 3 is 60 mm to 200 mm, preferably 140 mm. The rollers of the output compression roller group 3 and the input compression roller group are hollow rollers, and the bottom of each roller is provided with a scraper 30.

In this embodiment, the multi-roller dough pressing device further includes a first guide panel 4 disposed between the feeding port 1 and the input roller set, and a second guide panel 5 disposed between the input roller set and the output roller set 3, and the first guide panel 4 and the second guide panel 5 are sheet metal parts. The input compression roller group comprises a first input roller group 6 and a second input roller group 7 which are distributed along the horizontal direction, so that the arrangement positions of the first input roller group 6, the second input roller group 7 and the output compression roller group 3 form an inverted triangle shape; the first input roller group 6 comprises a first roller 8 and a second roller 9 which is arranged side by side with the first roller 8 and turns reversely, the first roller 8 and the second roller 9 are distributed at intervals to form a dough pressing gap, the second input roller group 7 comprises a third roller 10 and a fourth roller 11 which is arranged side by side with the third roller 10 and turns reversely, the third roller 10 and the fourth roller 11 are distributed at intervals to form a dough pressing gap, the output roller group 3 comprises a fifth roller 12 and a sixth roller 13 which is arranged side by side with the fifth roller 12 and turns reversely, and the fifth roller 12 and the sixth roller 13 are distributed at intervals to form a dough pressing gap.

In this embodiment, the drive assembly comprises a motor 14 for providing power and a gear chain drive in driving connection with the output shaft of the motor 14, the gear chain drive comprising a first set of sprockets for driving the first set of input rollers 6, a second set of sprockets for driving the second set of input rollers 7 and a third set of sprockets for driving the output set of pressure rollers 3. The first chain wheel set comprises a driving wheel 15 arranged on an output shaft of the motor 14, a first gear 16 and a second gear 17 which are respectively arranged on the first roller 8 and the second roller 9, a first adjusting gear 18 used for adjusting the first gear 16 and the second gear 17 to rotate reversely, and a first chain 19 meshed with the driving wheel 15, the first gear 16, the second gear 17 and the first adjusting gear 18. The second sprocket set comprises a third gear 20 arranged on the first roller 8, a fourth gear 21 and a fifth gear 22 respectively arranged on the third roller 10 and the fourth roller 11, a second adjusting gear 23 for adjusting the reverse rotation of the fourth gear 21 and the fifth gear 22, and a second chain 24 meshed with the third gear 20, the fourth gear 21, the fifth gear 22 and the second adjusting gear 23. The third sprocket set includes a sixth gear 25 provided on the first roller 8, seventh and eighth gears 26 and 27 provided on the fifth and sixth rollers 12 and 13, respectively, a third regulating gear 28 for regulating the reverse rotation of the seventh and eighth gears 26 and 27, and a third chain 29 engaged with the sixth, seventh, eighth, and third regulating gears 25, 26, 27 and 28.

In addition, in order to press dough sheets with different thicknesses, the first input roller group 6 further comprises a first adjusting mechanism for adjusting the distance between the first roller 8 and the second roller 9, the second input roller group 7 further comprises a second adjusting mechanism for adjusting the distance between the third roller 10 and the fourth roller 11, and the output press roller group 3 further comprises a third adjusting mechanism for adjusting the distance between the fifth roller 12 and the sixth roller 13.

So set up, the face wadding gets into first input roller set respectively through first leading the panel earlier, the second input roller set shunts the extrusion, reduce the extrusion volume, improve extrusion effect, the panel is led to the rethread second and is returned the output compression roller set of below and suppress once more, make the dough sheet receive the extrusion force of more directions, thereby produce the better dough sheet of density, through extrudeing many times, the toughness of dough sheet and the taste of finished product noodless have been improved, thereby the poor problem of messenger finished product noodless taste of dough sheet toughness among the prior art has been solved.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. The multi-roller noodle pressing device of the noodle maker is characterized by comprising a feeding port (1) used for being connected into noodle wadding, a discharging port (2) used for outputting a dough sheet, an input compression roller set communicated with the feeding port (1) and used for pressing the dough sheet, an output compression roller set (3) communicated with the discharging port (2) and arranged below the input compression roller set, a driving assembly used for driving the input compression roller set and the output compression roller set (3), and a power supply used for providing electric energy.

2. A multi-roller dough moulding device according to claim 1, further comprising a first guide plate (4) arranged between the inlet opening (1) and the set of input rollers, and a second guide plate (5) arranged between the set of input rollers and the set of output rollers (3).

3. A multi-roller dough moulding device according to claim 1, wherein the input roller set comprises at least a first input roller set (6) and a second input roller set (7) distributed in a horizontal direction, the first input roller set (6) comprising a first roller (8) and a second roller (9) arranged alongside and turned opposite to the first roller (8), the first roller (8) being spaced apart from the second roller (9) to form a dough gap, the second input roller set (7) comprising a third roller (10) and a fourth roller (11) arranged alongside and turned opposite to the third roller (10), the third roller (10) being spaced apart from the fourth roller (11) to form a dough gap, the output roller set (3) comprising a fifth roller (12) and a sixth roller (13) arranged alongside and turned opposite to the fifth roller (12), the fifth roller (12) and the sixth roller (13) are distributed at intervals to form a pressing surface gap.

4. A multi-roller dough moulding device according to claim 3, wherein said drive assembly comprises a motor (14) for providing power and a gear chain drive in driving connection with an output shaft of said motor (14), said gear chain drive comprising at least a first set of sprockets for driving said first set of input rollers (6), a second set of sprockets for driving said second set of input rollers (7) and a third set of sprockets for driving said set of output rollers (3).

5. A device for multi-rolling dough as in claim 4, wherein said first sprocket set comprises a driving wheel (15) arranged at the output shaft of said motor (14), a first gear (16) and a second gear (17) arranged at said first roller (8) and said second roller (9), respectively, a first adjusting gear (18) for adjusting the rotation of said first gear (16) and said second gear (17) in opposite directions, and a first chain (19) meshing with said driving wheel (15), said first gear (16), said second gear (17) and said first adjusting gear (18);

the second chain wheel set comprises a third gear (20) arranged on the first roller (8), a fourth gear (21) and a fifth gear (22) respectively arranged on the third roller (10) and the fourth roller (11), a second adjusting gear (23) used for adjusting the fourth gear (21) and the fifth gear (22) to rotate reversely, and a second chain (24) meshed with the third gear (20), the fourth gear (21), the fifth gear (22) and the second adjusting gear (23);

the third chain wheel set comprises a sixth gear (25) arranged on the first roller (8), a seventh gear (26) and an eighth gear (27) respectively arranged on the fifth roller (12) and the sixth roller (13), a third adjusting gear (28) used for adjusting the seventh gear (26) and the eighth gear (27) to rotate reversely, and a third chain (29) meshed with the sixth gear (25), the seventh gear (26), the eighth gear (27) and the third adjusting gear (28).

6. A device as claimed in claim 3, characterized in that said first set of input rollers (6) further comprises first adjustment means for adjusting the spacing between said first roller (8) and said second roller (9), said second set of input rollers (7) further comprises second adjustment means for adjusting the spacing between said third roller (10) and said fourth roller (11), and said set of output rollers (3) further comprises third adjustment means for adjusting the spacing between said fifth roller (12) and said sixth roller (13).

7. A multi-roller dough moulding device according to claim 1, wherein the roller diameter of the output roller set (3) is larger than the roller diameter of the input roller set.

8. A device for multiple-rolling of dough as claimed in claim 1, characterized in that the rollers of the output roller set (3) and the input roller set are hollow rollers.

9. A device for multiple-rolling of surfaces according to claim 1, characterized in that the bottom of the rolls of the output roll set (3) and the input roll set are provided with scrapers (30).

10. A noodle maker comprising a multi-rolled noodle unit as claimed in any one of claims 1 to 9.