CN216796320U - Noodle press with thickness of dough sheet easy to adjust - Google Patents

Abstract

The utility model discloses a noodle press with an easily adjustable dough sheet thickness, which solves the problem that the dough sheet pressing thickness needs to be synchronously adjusted in the prior art. The utility model discloses a contain the frame, go up the compression roller, lower compression roller, the feeder hopper, go out the flitch, go up compression roller thickness adjusting device, frame upper portion is equipped with thickness adjusting device, thickness adjusting device's output shaft and slip axle sleeve threaded connection, and connect the upper compression roller through slip axle sleeve, the compression roller has been cup jointed down to the frame lower part, the horizontal position of going up the compression roller is higher than the compression roller down, wherein thickness adjusting device contains left side thickness control wheel, right side thickness control wheel, left side thickness control pole, right side thickness control pole, the turbine worm speed reducer that linkage sleeve pipe and two symmetries set up, the one end that left side thickness control pole and right side thickness control pole were connected respectively to the linkage sleeve pipe through the key. The technology synchronously or asynchronously rotates the left and right thickness adjusting rods through a spline structure in the linkage sleeve.

Description

Noodle press easy to adjust thickness of dough sheet

Technical Field

The utility model relates to food processing machinery, in particular to a noodle press with an easily-adjusted dough sheet thickness.

Background

The wheaten food is one of the main foods in China, and noodles, dumplings, wontons and the like are common foods on dining tables of people, but the processes of kneading dough, making wrappers and the like in the traditional process are mainly finished manually, and the method has high labor intensity and low working efficiency. Therefore, the design and manufacture of various noodle rolling machines are carried forward, and great convenience is provided for the life of people. The dough press is a food machine for replacing the traditional manual dough kneading, can further form a fine network on the gluten in the dough, enables the dough to become a dough sheet with certain thickness and plasticity and extensibility, and is widely used for making pastries such as noodles, cakes, bread and the like.

However, the size of the machine determines the size of the noodle pressing roller, the width of the noodle pressing roller determines the production efficiency of the cooked wheaten food in unit time, the wider noodle pressing roller and the machine cannot easily control the thickness of the noodle pressing on two sides by one person, one person needs to run around, time and labor are wasted, and therefore the noodle pressing machine capable of conveniently adjusting the thickness of the noodle pressing on two sides of the noodle pressing roller is quite necessary.

SUMMERY OF THE UTILITY MODEL

The utility model overcomes the problem that the dough sheet pressing thickness needs to be synchronously adjusted in the prior art, and provides the dough pressing machine which is reasonable in structure, convenient to use and easy to adjust the dough sheet thickness.

The technical scheme of the utility model is to provide a noodle press with the following structure and easy adjustment of dough sheet thickness: comprises a frame, an upper compression roller, a lower compression roller, a feed hopper, a discharge plate and an upper compression roller thickness adjusting device, wherein the upper part of the frame is provided with the thickness adjusting device, the output shaft of the thickness adjusting device is in threaded connection with a sliding shaft sleeve and is connected with the upper compression roller through the sliding shaft sleeve, the lower part of the frame is sleeved with the lower compression roller, the horizontal position of the upper compression roller is higher than that of the lower compression roller, the thickness adjusting device comprises a left thickness adjusting wheel, a right thickness adjusting wheel, a left thickness adjusting rod, a right thickness adjusting rod, a linkage sleeve and two turbine worm reducers which are symmetrically arranged, the turbine worm reducers are positioned at the upper side of the frame, the input ends of the turbines are respectively connected with the left thickness adjusting rod and the right thickness adjusting rod, the outer side end of the right thickness adjusting rod is provided with the right thickness adjusting wheel, the inner side end is connected with one end of the left thickness adjusting rod through the linkage sleeve, and the left thickness adjusting wheel is arranged close to the linkage sleeve, the linkage sleeve is connected with one end of the left thickness adjusting rod and one end of the right thickness adjusting rod through keys respectively, wherein the matching length of the keys on the right thickness adjusting rod is smaller than the length of the linkage sleeve from the left thickness adjusting wheel.

Preferably, the linkage sleeve is respectively connected with one end of the left thickness adjusting rod and one end of the right thickness adjusting rod through a flat key or a spline.

Preferably, one end of the linkage sleeve is connected with one end of the left thickness adjusting rod through a flat key or a spline, and the other end of the linkage sleeve is connected with a pin shaft on the right thickness adjusting rod through a spline.

Preferably, one end of the linkage sleeve is connected with the pin shaft on the right thickness adjusting rod through an open type external spline or a closed type external spline.

Preferably, the cross section of the pin shaft is round, triangular square or drop-shaped, wherein the tip of the drop-shaped is towards the linkage sleeve.

Preferably, a material feeding hopper is arranged on the high side of the position, opposite to the upper pressing roller and the lower pressing roller, of the upper pressing roller, a falling surface sliding plate is arranged on the lower position of the opposite position of the upper pressing roller and the lower pressing roller, and a falling surface drawer is arranged below the falling surface sliding plate.

Preferably, the side of the dough falling sliding plate is away from the upper pressing roller from near to far and is sequentially provided with a primary dough sheet winding wheel and a finished dough sheet winding wheel, and the vertical height of the primary dough sheet winding wheel is larger than that of the finished dough sheet winding wheel.

Preferably, a dough sheet reversing wheel is arranged on the side of the dough inlet hopper.

Preferably, the outer side annular surface of the upper pressing roller is provided with a surface gathering ring.

Compared with the prior art, the noodle press easy to adjust the thickness of the dough sheet has the following advantages: the rotation of the left thickness adjusting rod and the right thickness adjusting rod is synchronized or asynchronized through a spline structure in the linkage sleeve, so that the phenomenon of uneven thickness of the dough cover is adjusted, and single-side respective adjustment and synchronous adjustment of two sides are achieved. The overall structure complexity is low, the practicability is high, and the popularization is easy.

Drawings

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

FIG. 2 is a schematic side view of the construction of the lower and upper rolls of the present invention;

FIG. 3 is a schematic view of the structure of the present invention when the linkage sleeve, the left thickness adjusting rod and the right thickness adjusting rod are engaged;

FIG. 4 is a schematic view of the structure of the present invention when the linkage sleeve, the left thickness adjusting rod and the right thickness adjusting rod are not matched;

FIG. 5 is a schematic cross-sectional view of A-A' of FIG. 4 according to the present invention;

FIG. 6 is a second schematic view of the structure of the present invention when the linkage sleeve, the left thickness adjusting rod and the right thickness adjusting rod are engaged;

FIG. 7 is a second schematic structural view of the present invention when the linkage sleeve, the left thickness adjusting rod and the right thickness adjusting rod are not engaged;

FIG. 8 is a schematic cross-sectional view of B-B' of FIG. 7 according to the present invention.

In the description of the attached drawings, the reference numeral 1 is a frame, 2-1 is a primary dough sheet winding wheel, 2-2 is a finished dough sheet winding wheel, 2-3 is a dough sheet reversing wheel, 2-4 is a primary dough sheet, 3-1 is a right side thickness adjusting wheel, 3-2 is a turbine worm speed reducer, 3-3 is an upper pressing roller, 3-4 is a sliding shaft sleeve, 3-5 is a lower pressing roller, 3-6 is an output shaft, 3-7 is a face gathering ring, 3-8 is a gear, 3-9 is a motor, 3-10 is a left side thickness adjusting rod, 3-11 is a left side thickness adjusting wheel, and 3-12 is a right side thickness adjusting rod; 4-1 is a noodle feeding hopper, 4-2 is a noodle falling sliding plate, and 4-3 is a noodle falling drawer; 5-1 is a pin shaft, 5-2 is an internal spline, 5-3 is a linkage sleeve, 5-4 is a closed external spline, and 5-5 is an open external spline.

Detailed Description

The utility model is further explained by the dough pressing machine which can easily adjust the thickness of the dough sheet with the combination of the attached drawings and the detailed embodiment: as shown in figure 1, in the embodiment, a frame 1, an upper press roll 3-3, a lower press roll 3-5, a feed hopper, a discharge plate and an upper press roll 3-3 thickness adjusting device are arranged on the upper portion of the frame 1, an output shaft 3-6 of the thickness adjusting device is in threaded connection with a sliding shaft sleeve 3-4 and is connected with the upper press roll 3-3 through the sliding shaft sleeve 3-4, the lower portion of the frame 1 is sleeved with the lower press roll 3-5, and the horizontal position of the upper press roll 3-3 is higher than that of the lower press roll 3-5.

A motor 3-9 drives an upper press roller 3-3 and a lower press roller 3-5 to generate relative rotation through a gear 3-8, moist flour or flour dough slides between the upper press roller 3-3 and the lower press roller 3-5 in a flour inlet hopper 4-1 to be extruded into primary flour skin to be conveyed out, then the primary flour skin or the flour dough is wound on a primary flour sheet winding wheel 2-1 by manpower, the primary flour skin 2-4 is wound around a flour sheet reversing wheel 2-3 above a rack 1 and then plugged into a flour hopper 4-1, then the moist flour or the flour dough is supplemented in a proper amount, the primary flour skin is continuously supplemented to be integrally compacted and filled, then the wound primary flour skin with a certain length is compacted and wound for a plurality of times to meet the cutting forming of subsequent flour products, and the last compression forming of the primary flour sheet 2-4 can be wound on a finished flour sheet winding wheel 2-5 2, and then the dough is transferred to a dough cutting device to be cut into various dough products.

Because the pressing thickness of the dough cover in the processing process is a process which needs to be gradually reduced, the gap between the upper pressing roller 3-3 and the lower pressing roller 3-5 needs to be adjusted frequently, and because the fit gap between each part of the machine is loose, the upper pressing roller 3-3 is easy to generate micro displacement due to the irregular binding force of the dough cover and the moist dough. The displacement degrees of the two sides of the upper pressing roller 3-3 are different, so that the micro thickness deviation of the two ends of the dough sheet can form a frustum-shaped dough roll after the primary dough sheet winding wheel 2-1 and the finished dough sheet winding wheel 2-2 are accumulated, and therefore, in the process of pressing the dough sheet, not only the pressing sizes of the two sides are required to be synchronously adjusted, but also the pressing sizes of the upper pressing roller 3-3 on each side are required to be independently adjusted.

When the two ends of the upper press roll 3-3 need consistent adjustment quantity, the two ends of the linkage sleeve 5-3 are respectively connected with the internal spline 5-2 on the left thickness adjusting rod 3-10 and the pin shaft 5-1 on the right thickness adjusting rod 3-12, at the moment, the right thickness adjusting wheel 3-1 is rotated, the rotation actions of the left thickness adjusting rod 3-10 and the right thickness adjusting rod 3-12 are consistent, and the purpose of synchronous adjustment of the two sides is achieved.

When the left end or the right end of the upper press roll 3-3 needs to be independently adjusted, the linkage sleeve 5-3 is separated from the pin shaft 5-1 on the right thickness adjusting rod 3-12, at the moment, linkage does not exist between the left thickness adjusting rod 3-10 and the right thickness adjusting rod 3-12, at the moment, the left thickness adjusting wheel 3-11 can be independently rotated, the left thickness adjusting rod 3-10 is adjusted, or the right thickness adjusting wheel 3-1 and the right thickness adjusting rod 3-12 are rotated, so that the thicknesses of the pressed dough sheets are consistent.

When the left end or the right end of the upper press roll 3-3 needs to be adjusted independently and then is adjusted to be the left end and the right end simultaneously, the linkage sleeve 5-3 is separated from the pin shaft 5-1 on the right thickness adjusting rod 3-12, the left thickness adjusting rod 3-10 or the right thickness adjusting rod 3-12 is adjusted independently, so that the thickness of the pressed dough sheet meets the leveling consistency, the two ends of the linkage sleeve 5-3 are connected with the internal spline 5-2 on the left thickness adjusting rod 3-10 and the pin shaft 5-1 on the right thickness adjusting rod 3-12 respectively, and at the moment, the rotation actions of the left thickness adjusting rod 3-10 and the right thickness adjusting rod 3-12 are consistent, so that the purpose of synchronously adjusting the thicknesses at the two sides is achieved. Otherwise, the single thickness of the left side or the right side can be independently adjusted after synchronous adjustment is carried out.

An output shaft 3-6 in the thickness adjusting device is in threaded connection with a sliding shaft sleeve 3-4, and the adjusting distance of the threads is larger than the depth of the screw hole, so that the adjusting range is more free and is not interfered by the depth of the screw hole.

Wherein the thickness adjusting device comprises a left thickness adjusting wheel 3-11, a right thickness adjusting wheel 3-1, a left thickness adjusting rod 3-10, a right thickness adjusting rod 3-12, a linkage sleeve 5-3 and two symmetrically arranged turbine worm speed reducers 3-2, the turbine worm speed reducer 3-2 is positioned at the upper side of the frame 1, the input end of the worm is respectively connected with the left thickness adjusting rod 3-10 and the right thickness adjusting rod 3-12, the outer side end of the right thickness adjusting rod 3-12 is provided with the right thickness adjusting wheel 3-1, the inner side end is connected with one end of the left thickness adjusting rod 3-10 through the linkage sleeve 5-3, the left thickness adjusting wheel 3-11 is arranged close to the linkage sleeve 5-3, the linkage sleeve 5-3 is respectively connected with one end of the left thickness adjusting rod 3-10 and one end of the right thickness adjusting rod 3-12 through keys, wherein the matching length of the keys on the right thickness adjusting rod 3-12 is less than the length of the linkage sleeve 5-3 from the left thickness adjusting wheel 3-11.

The first embodiment structure of the linkage sleeve 5-3 is that the linkage sleeve 5-3 is respectively connected with one end of a left thickness adjusting rod 3-10 and one end of a right thickness adjusting rod 3-12 through a flat key or a spline, when the linkage sleeve 5-3 is toggled back and forth, both ends can be synchronously or asynchronously connected, and the function of regulating the thickness of the dough cover on one side or on both sides simultaneously is realized.

The second embodiment structure of the linkage sleeve 5-3 is that one end of the linkage sleeve 5-3 is connected with one end of the left thickness adjusting rod 3-10 through a flat key or a spline, the other end of the linkage sleeve 5-3 is connected with the pin shaft 5-1 on the right thickness adjusting rod 3-12 through a spline, and when the linkage sleeve 5-3 is pushed back and forth, both ends can be synchronously connected or asynchronously connected, so that the function of adjusting the thickness of the dough cover on one side or on both sides simultaneously is realized.

One end of the linkage sleeve 5-3 is connected with a pin shaft 5-1 on the right thickness adjusting rod 3-12 through an open type external spline 5-5 or a closed type external spline 5-4. The cross section of the pin shaft 5-1 is round, triangular square or drop-shaped, wherein the tip of the drop-shaped is towards the linkage sleeve 5-3, which is beneficial for the pin shaft 5-1 at the side to rapidly enter the spline on the inner surface of the linkage sleeve 5-3 at the side.

A noodle feeding hopper 4-1 is arranged at the high side of the opposite position of the upper compression roller 3-3 and the lower compression roller 3-5, a noodle falling sliding plate 4-2 is arranged at the low position of the opposite position, and a noodle falling drawer 4-3 is arranged below the noodle falling sliding plate 4-2. The dough inlet hopper 4-1 is the feeding side of the moist flour, the dough falling sliding plate 4-2 is the discharging side of the moist flour which is not formed into the primary dough sheet 2-4, and the moist flour finally slides in the dough falling drawer 4-3 to be recycled and then is put in the dough inlet hopper 4-1 again.

The side of the dough falling sliding plate 4-2, which is far away from the upper press roller 3-3, is sequentially provided with a primary dough sheet winding wheel 2-1 and a finished dough sheet winding wheel 2-2 from near to far, the vertical height of the primary dough sheet winding wheel 2-1 is greater than that of the finished dough sheet winding wheel 2-2, and the structure is favorable for winding finished dough sheets.

Dough sheet reversing wheels 2-3 are arranged on the sides of the dough inlet hoppers 4-1, and the structure can ensure that dough sheets can climb into the dough inlet hoppers 4-1 of the machine, so that repeated extrusion is realized, and the chewy taste of the dough sheets is enhanced. The outer side ring surface of the upper press roll 3-3 is provided with a dough collecting ring 3-7, so that the throwing of flour and dough particles can be reduced as much as possible.

Claims (9)

1. The utility model provides an easy oodle maker of adjusting dough sheet thickness which characterized in that: comprises a frame, an upper compression roller, a lower compression roller, a feed hopper, a discharge plate and an upper compression roller thickness adjusting device, wherein the upper part of the frame is provided with the thickness adjusting device, the output shaft of the thickness adjusting device is in threaded connection with a sliding shaft sleeve and is connected with the upper compression roller through the sliding shaft sleeve, the lower part of the frame is sleeved with the lower compression roller, the horizontal position of the upper compression roller is higher than that of the lower compression roller, the thickness adjusting device comprises a left thickness adjusting wheel, a right thickness adjusting wheel, a left thickness adjusting rod, a right thickness adjusting rod, a linkage sleeve and two turbine worm reducers which are symmetrically arranged, the turbine worm reducers are positioned at the upper side of the frame, the input ends of the turbines are respectively connected with the left thickness adjusting rod and the right thickness adjusting rod, the outer side end of the right thickness adjusting rod is provided with the right thickness adjusting wheel, the inner side end is connected with one end of the left thickness adjusting rod through the linkage sleeve, and the left thickness adjusting wheel is arranged close to the linkage sleeve, the linkage sleeve is connected with one end of the left thickness adjusting rod and one end of the right thickness adjusting rod through keys respectively, wherein the matching length of the keys on the right thickness adjusting rod is smaller than the length of the linkage sleeve from the left thickness adjusting wheel.

2. The noodle press capable of easily adjusting the thickness of a dough sheet according to claim 1, wherein: the linkage sleeve is respectively connected with one end of the left thickness adjusting rod and one end of the right thickness adjusting rod through a flat key or a spline.

3. The noodle press capable of easily adjusting the thickness of a dough sheet according to claim 1, wherein: one end of the linkage sleeve is connected with one end of the left thickness adjusting rod through a flat key or a spline, and the other end of the linkage sleeve is connected with a pin shaft on the right thickness adjusting rod through a spline.

4. The noodle press capable of easily adjusting the thickness of a dough sheet according to claim 3, wherein: one end of the linkage sleeve is connected with a pin shaft on the right thickness adjusting rod through an open type external spline or a closed type external spline.

5. The noodle press capable of easily adjusting the thickness of a dough sheet according to claim 3, wherein: the cross section of the pin shaft is round, triangular and square or drop-shaped, wherein the tip of the drop-shaped end faces the linkage sleeve.

6. The noodle press capable of easily adjusting the thickness of a dough sheet according to claim 1, wherein: the high side of the opposite position of the upper press roller and the lower press roller is provided with a fabric feeding hopper, the low position of the opposite position is provided with a falling surface sliding plate, and a falling surface drawer is arranged below the falling surface sliding plate.

7. The noodle press capable of easily adjusting the thickness of a dough sheet according to claim 6, wherein: the side of the falling surface sliding plate is away from the upper pressing roller and is sequentially provided with a primary dough sheet winding wheel and a finished dough sheet winding wheel from near to far, and the vertical height of the primary dough sheet winding wheel is greater than that of the finished dough sheet winding wheel.

8. The noodle press capable of easily adjusting the thickness of a dough sheet according to claim 6, wherein: a dough sheet reversing wheel is arranged on the side of the dough inlet hopper.

9. The noodle press capable of easily adjusting the thickness of a dough sheet according to claim 1, wherein: and a surface closing ring is arranged on the outer side annular surface of the upper compression roller.

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