CN116998515A - Noodle feeding mechanism for noodle stretching - Google Patents

Abstract

The invention relates to the technical field of a stretcher, in particular to a noodle feeding mechanism for stretching noodles, which comprises two groups of symmetrically arranged foldable supporting frames, wherein one end of each supporting frame is connected with a three-dimensional frame, one end of each supporting frame is connected with a feeding fixing frame at the opposite end of each supporting frame, a feeding driving sprocket, a feeding driven sprocket, a feeding chain and a rotating disc are arranged on each fixing frame, the feeding driving sprocket and the feeding driven sprocket are respectively arranged at two ends of each fixing frame and are connected through the feeding chain, a plurality of first conical bearing blocks are fixedly connected to the outer wall of each feeding chain at equal intervals, and each noodle feeding assembly, each conveying assembly and each noodle discharging assembly are driven by one group of driving assemblies, so that noodles can be sequentially transitionally conveyed among the noodle feeding assemblies, each conveying assembly and the noodle discharging assembly, the noodle conveying efficiency is improved, the conveying stability is ensured, and the production cost is reduced.

Description

Noodle feeding mechanism for noodle stretching

Technical Field

The invention relates to the technical field of a stretcher, in particular to a noodle feeding mechanism for stretching noodles.

Background

Along with the improvement of economic level and the acceleration of life rhythm, the dried noodles which are convenient to eat and easy to store are appeared in the market, and most of the dried noodles sold in the market are extruded or pressed into tablets and then are directly cut into strips or tablets, so that the dried noodles are not resistant to boiling, are easy to break after boiling, have poor taste and influence on eating; the stretched noodles are produced under the condition that the internal fiber textures are not damaged by pulling and kneading, are boiling resistant, chewy and good in taste, but cannot be produced in batches by replacing manpower through machine equipment at present, and the stretched noodles are low in efficiency, time-consuming, labor-consuming, high in labor intensity, uneven in thickness and influence on the sales of products. To this end, we provide an automatic noodle stretching machine to solve the above problems; to this end, we provide a noodle feeding mechanism for noodle stretching to solve the above problems.

Disclosure of Invention

The invention aims to provide a noodle feeding mechanism for noodle stretching, which solves the technical problems.

In order to achieve the above purpose, the present invention provides the following technical solutions: the noodle conveying mechanism comprises a noodle feeding assembly, a conveying assembly, a noodle discharging assembly and a first driving assembly, wherein the noodle feeding assembly, the conveying assembly, the noodle discharging assembly and the first driving assembly are mutually matched, and the first driving assembly is respectively connected with the noodle feeding assembly, the conveying assembly and the noodle discharging assembly;

the feeding assembly comprises two groups of supporting frames which are symmetrically provided with a folding structure, one end of each supporting frame is connected with a three-dimensional frame, one end of each supporting frame is connected with a feeding fixing frame relative to the other end of each supporting frame, a feeding driving sprocket, a feeding driven sprocket, a feeding chain and a rotating disc are arranged on each fixing frame, the feeding driving sprocket and the feeding driven sprocket are respectively arranged at two ends of each fixing frame, the feeding driving sprocket and the feeding driven sprocket are connected through the feeding chain, a plurality of first conical bearing blocks are fixedly connected to the outer wall of each feeding chain at equal intervals, openings of the first conical bearing blocks are far away from the corresponding feeding chain, the rotating disc and the feeding driving sprocket are coaxially arranged, and five arc-shaped material transferring grooves matched with the first conical bearing blocks are formed in the edge equiangular direction of each rotating disc;

the conveying assembly comprises a conveying fixing frame, a conveying driving sprocket, a conveying driven sprocket and a conveying chain, wherein the conveying fixing frame is arranged in the three-dimensional frame, the conveying driving sprocket and the conveying driven sprocket are respectively arranged at two ends of the conveying fixing frame, the conveying driven sprocket is close to the feeding driving sprocket, the conveying chain is connected between the conveying fixing frames, a plurality of second cone-shaped bearing blocks matched with the rotating disc are equidistantly arranged on the outer wall of the conveying chain, and the opening of each second cone-shaped bearing block faces the conveying chain;

the noodle making machine comprises a noodle making assembly, a noodle making machine body and a noodle making machine body, wherein the noodle making assembly comprises a noodle making fixing frame, a noodle making driving sprocket, a noodle making driven sprocket, a noodle making chain and a poking rod mechanism, the noodle making fixing frame is arranged on a three-dimensional frame, the noodle making driving sprocket and the noodle making driven sprocket are respectively arranged at two ends of the noodle making fixing frame, the noodle making chain is connected between the noodle making driving sprocket and the noodle making driven sprocket, the noodle making driven sprocket is close to the conveying driving sprocket, the noodle making driven sprocket is positioned below the conveying driving sprocket, the poking rod mechanism is connected with the noodle making driving sprocket, and the poking rod mechanism is used for poking noodles from the conveying chain to the noodle making chain.

Preferably, the first driving assembly comprises a first driving motor, the first driving motor is mounted at the top of the three-dimensional frame, a driving gear is fixedly connected to the outer wall of the output end of the first driving motor, a first driven gear is fixedly connected to the outer wall of a rotating rod for conveying the driving sprocket and is meshed with the driving gear, a second driven gear is fixedly connected to the outer wall of the rotating rod for conveying the driven sprocket, a third driven gear is fixedly connected to the outer wall of the rotating rod for feeding the driving sprocket and is meshed with the second driven gear, a fourth driven gear is rotatably connected to the surface fixing frame and is meshed with the first driven gear, and the shifting lever mechanism is connected with the fourth driven gear.

Preferably, the driving lever mechanism comprises a first connecting rod, a second connecting rod, a third connecting rod and a driving lever, one end of the first connecting rod is connected with a rotating rod of the surface driving sprocket, one end of the second connecting rod is connected with a rotating rod of the surface driven sprocket, one end of the third connecting rod is hinged with a fourth driven gear through a pin shaft, one ends of the first connecting rod, the second connecting rod and the third connecting rod, which are close to each other, are hinged with each other, one end of the first connecting rod, which is far away from the surface driving sprocket, is provided with the driving lever, and one end of the driving lever, which is far away from the first connecting rod, is provided with a conical groove.

Preferably, an infrared detection mechanism matched with the second cone-shaped bearing block is arranged at one end, close to the conveying driving sprocket, of the conveying fixing frame, and the infrared detection mechanism is in sliding connection with the conveying fixing frame.

Preferably, a material blocking mechanism is arranged at the discharge end of the surface fixing frame.

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

the noodle feeding assembly, the conveying assembly and the noodle discharging assembly are driven by only one group of driving assemblies, so that noodles can be orderly transitionally conveyed among the noodle feeding assembly, the conveying assembly and the noodle discharging assembly, the noodle conveying efficiency is improved, the conveying stability is ensured, and the production cost is reduced.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

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

FIG. 2 is a schematic view of another angle structure of the present invention;

FIG. 3 is a schematic top view of the present invention;

FIG. 4 is a schematic view of an angle structure of the dough feeding mechanism according to the present invention;

FIG. 5 is a schematic view of another angle structure of the dough feeding mechanism according to the present invention;

FIG. 6 is a schematic view of the internal structure of the dough feeding mechanism according to the present invention;

FIG. 7 is a schematic view of a stretching mechanism according to the present invention;

FIG. 8 is a schematic view of an angular configuration of the faceted mechanism of the present invention;

FIG. 9 is a schematic view of another angular configuration of the faceted mechanism of the present invention;

fig. 10 is an enlarged schematic view of the structure at a in fig. 9.

In the drawings, the list of components represented by the various numbers is as follows:

1. a stereoscopic frame;

2. a dough feeding mechanism; 21. a dough feeding assembly; 211. a support frame; 212. a feeding fixing frame; 213. a feed chain; 214. a rotating disc; 215. a first tapered receiving block; 216. arc-shaped material transferring grooves; 22. a transport assembly; 221. conveying a fixing frame; 222. a conveyor chain; 223. a second tapered receiving block; 23. a face assembly; 231. a fixing frame for the surface; 232. a surface-out chain; 233. a deflector rod mechanism; 2331. a first connecting rod; 2332. a second connecting rod; 2333. a third connecting rod; 2334. a deflector rod; 2335. a conical groove; 24. a first drive assembly; 241. a first driving motor; 242. a drive gear; 243. a first driven gear; 244. a second driven gear; 245. a third driven gear; 246. a fourth driven gear;

3. a stretching mechanism; 31. a second driving mechanism; 311. a second driving motor; 312. a first bearing seat; 313. a transmission rod; 314. driven wheel; 315. a driving wheel; 316. a drive belt; 317. a first drive sprocket; 318. a first driven sprocket; 319. a first drive chain; 32. a mounting plate; 33. an inverted V-shaped hanging plate; 34. a first limit post; 35. a first slider;

4. a facet dividing mechanism; 41. a square frame; 411. a limiting block; 412. a fixed block; 42. a screw rod; 43. a first servo motor; 44. a mounting base; 45. a facet rod mechanism; 451. a rotating shaft; 452. a connecting shaft; 453. a facet rod; 46. a second driven sprocket; 47. a second servo motor; 48. a second drive sprocket; 49. a third driving mechanism; 491. a third driving motor; 492. a second bearing seat; 493. a second transmission rod; 494. a third drive sprocket; 495. a third driven sprocket; 496. a third drive chain; 497. the second limit column; 498. and the second limiting column.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-10, the present invention provides a technical solution: the noodle stretching noodle feeding mechanism comprises a noodle feeding mechanism 2, wherein the noodle feeding mechanism 2 comprises a noodle feeding assembly 21, a conveying assembly 22, a noodle discharging assembly 23 and a first driving assembly 24 which are mutually matched, and the first driving assembly 24 is respectively connected with the noodle feeding assembly 21, the conveying assembly 22 and the noodle discharging assembly 23;

the surface inlet assembly 21 comprises two groups of supporting frames 211 which are symmetrically provided with folding, one end of each supporting frame 211 is connected with the three-dimensional frame 1, one end of each supporting frame 211 is connected with a feeding fixing frame 212 at the opposite end, feeding driving chain wheels, feeding driven chain wheels, feeding chains 213 and rotating discs 214 are arranged on the fixing frames 212, the feeding driving chain wheels and the feeding driven chain wheels are respectively arranged at two ends of the fixing frames 212, the feeding driving chain wheels and the feeding driven chain wheels are connected through the feeding chain wheels 213, a plurality of first conical bearing blocks 215 are fixedly connected to the outer wall of each feeding chain 213 at equal intervals, openings of the first conical bearing blocks 215 are far away from the feeding chain 213, the rotating discs 214 are coaxially arranged with the feeding driving chain wheels, and five arc-shaped material transferring grooves 216 which are mutually matched with the first conical bearing blocks 215 are formed in the same angle at the edges of the rotating discs 214;

the conveying assembly 22 comprises a conveying fixing frame 221, a conveying driving sprocket, a conveying driven sprocket and a conveying chain 222, the conveying fixing frame 221 is arranged in the three-dimensional frame 1, the conveying driving sprocket and the conveying driven sprocket are respectively arranged at two ends of the conveying fixing frame 221, the conveying driven sprocket is arranged close to the feeding driving sprocket, the conveying chain 222 is connected between the conveying fixing frames 221, a plurality of second cone-shaped bearing blocks 223 which are mutually matched with the rotating disc 214 are equidistantly arranged on the outer wall of the conveying chain 222, and the openings of the second cone-shaped bearing blocks 223 are arranged towards the conveying chain 222;

the surface assembly 23 comprises a surface fixing frame 231, a surface driving sprocket, a surface driven sprocket, a surface chain 232 and a poking rod mechanism 233, the surface fixing frame 231 is arranged on the three-dimensional frame 1, the surface driving sprocket and the surface driven sprocket are respectively arranged at two ends of the surface fixing frame 231, the surface chain 232 is connected between the surface driving sprocket and the surface driven sprocket, the surface driven sprocket is close to the conveying driving sprocket, the surface driven sprocket is located below the conveying driving sprocket, the poking rod mechanism 233 is connected with the surface driving sprocket, and the poking rod mechanism 233 is used for poking noodles from the conveying chain 222 to the surface chain 232.

Specifically, the first driving assembly 24 includes a first driving motor 241, the first driving motor 241 is mounted at the top of the stereoscopic frame 1, a driving gear 242 is fixedly connected to an outer wall of an output end of the first driving motor 241, a first driven gear 243 is fixedly connected to an outer wall of a rotating rod for conveying the driving sprocket, the first driven gear 243 is meshed with the driving gear 242, a second driven gear 244 is fixedly connected to an outer wall of a rotating rod for conveying the driven sprocket, a third driven gear 245 is fixedly connected to an outer wall of a rotating rod for feeding the driving sprocket, the third driven gear 245 is meshed with the second driven gear 244, a fourth driven gear 246 is rotatably connected to the surface fixing frame 231, the first driven gear 243 is meshed with the fourth driven gear 246, and the toggle mechanism 233 is connected to the fourth driven gear 246.

Specifically, the toggle mechanism 233 includes a first connecting rod 2331, a second connecting rod 2332, a third connecting rod 2333 and a toggle rod 2334, one end of the first connecting rod 2331 is connected with a rotating rod of the face driving sprocket, one end of the second connecting rod 2332 is connected with a rotating rod of the face driven sprocket, one end of the third connecting rod 2333 is hinged with a fourth driven gear 246 through a pin shaft, one ends of the first connecting rod 2331, the second connecting rod 2332 and the third connecting rod 2333, which are close to each other, are hinged with each other, the toggle rod 2334 is installed at one end of the first connecting rod 2331 far away from the face driving sprocket, and a taper groove 2335 is formed at one end of the toggle rod 2334 far away from the first connecting rod 2331.

Specifically, an infrared detection mechanism matched with the second cone-shaped bearing block 223 is arranged at one end, close to the conveying driving sprocket, of the conveying fixing frame 221, and the infrared detection mechanism is in sliding connection with the conveying fixing frame 221.

Specifically, a material blocking mechanism is arranged at the discharge end of the surface fixing frame 231.

Examples

The noodle feeding mechanism 2 can be matched with the noodle dividing mechanism 4 and the stretching mechanism 3 for use when in use, so that a full-automatic noodle stretching machine is formed:

the noodle stretching machine comprises a three-dimensional frame 1 formed by welding a plurality of groups of section steel, wherein a noodle conveying mechanism 2, a stretching mechanism 3 and a noodle dividing mechanism 4 which are matched with each other are arranged in the three-dimensional frame 1, the noodle conveying mechanism 2 is used for conveying noodles to be stretched, the stretching mechanism 3 is used for stretching the noodles in the conveying process, and the noodle dividing mechanism 4 is used for separating the noodles in the stretching process.

The dough feeding mechanism 2 comprises a dough feeding assembly 21, a conveying assembly 22, a dough discharging assembly 23 and a first driving assembly 24 which are mutually matched, and the first driving assembly 24 is respectively connected with the dough feeding assembly 21, the conveying assembly 22 and the dough discharging assembly 23;

the feeding surface assembly 21 comprises two groups of symmetrically arranged foldable supporting frames 211, one end of each supporting frame 211 is connected with the three-dimensional frame 1, one end of each supporting frame 211 is connected with a feeding fixing frame 212 relative to the other end of each supporting frame 211, feeding driving chain wheels, feeding driven chain wheels, feeding chains 213 and rotating discs 214 are arranged on the fixing frames 212, the feeding driving chain wheels and the feeding driven chain wheels are respectively arranged at two ends of the fixing frames 212, the feeding driving chain wheels and the feeding driven chain wheels are connected through the feeding chains 213, a plurality of first conical bearing blocks 215 are fixedly connected to the outer walls of the feeding chains 213 at equal intervals, openings of the first conical bearing blocks 215 are far away from the feeding chains 213, the rotating discs 214 are coaxially arranged with the feeding driving chain wheels, five arc-shaped material transfer grooves 216 which are mutually matched with the first conical bearing blocks 215 are formed in the edges of the rotating discs 214 at equal angles, noodles are limited and fixed by the first conical bearing blocks on the feeding chains 213 and then are transferred to the conveying assembly through the rotating discs and the arc-shaped material transfer grooves 213, and the foldable supporting frames 211 enable the feeding surface assembly to be folded, so that occupied space is reduced when the feeding surface assembly is not used;

the conveying assembly 22 comprises a conveying fixing frame 221, a conveying driving sprocket, a conveying driven sprocket and a conveying chain 222, the conveying fixing frame 221 is arranged in the three-dimensional frame 1, the conveying driving sprocket and the conveying driven sprocket are respectively arranged at two ends of the conveying fixing frame 221, the conveying driven sprocket is arranged close to the feeding driving sprocket, the conveying chain 222 is connected between the conveying fixing frames 221, a plurality of second cone-shaped bearing blocks 223 which are mutually matched with the rotating disc 214 are equidistantly arranged on the outer wall of the conveying chain 222, the opening of the second cone-shaped bearing blocks 223 faces the conveying chain 222, and the second cone-shaped bearing blocks 223 bear the noodles transferred by the rotating disc and the arc-shaped material transferring groove and convey the noodles;

the surface assembly 23 comprises a surface fixing frame 231, a surface driving sprocket, a surface driven sprocket, a surface chain 232 and a pull rod mechanism 233, the surface fixing frame 231 is arranged on the three-dimensional frame 1, the surface driving sprocket and the surface driven sprocket are respectively arranged at two ends of the surface fixing frame 231, the surface chain 232 is connected between the surface driving sprocket and the surface driven sprocket, the surface driven sprocket is close to the conveying driving sprocket, the surface driven sprocket is located below the conveying driving sprocket, the pull rod mechanism 233 is connected with the surface driving sprocket, the pull rod mechanism 233 is used for pulling noodles out from the conveying chain 222 to the surface chain 232, the conveying chain is used for pushing the noodles up after conveying the surface assembly to the position, then the noodles are placed on the surface chain 232, and finally the noodles are conveyed out through the surface chain.

The first driving assembly 24 comprises a first driving motor 241, the first driving motor 241 is mounted at the top of the three-dimensional frame 1, a driving gear 242 is fixedly connected to the outer wall of the output end of the first driving motor 241, a first driven gear 243 is fixedly connected to the outer wall of a rotating rod for conveying the driving sprocket, the first driven gear 243 is meshed with the driving gear 242, a second driven gear 244 is fixedly connected to the outer wall of the rotating rod for conveying the driven sprocket, a third driven gear 245 is fixedly connected to the outer wall of the rotating rod for feeding the driving sprocket, the third driven gear 245 is meshed with the second driven gear 244, a fourth driven gear 246 is rotatably connected to the surface fixing frame 231, the first driven gear 243 is meshed with the fourth driven gear 246, and the deflector rod mechanism 233 is connected with the fourth driven gear 246.

The toggle rod mechanism 233 includes a first connecting rod 2331, a second connecting rod 2332, a third connecting rod 2333 and a toggle rod 2334, one end of the first connecting rod 2331 is connected with a rotating rod of the face driving sprocket, one end of the second connecting rod 2332 is connected with a rotating rod of the face driven sprocket, one end of the third connecting rod 2333 is hinged with the fourth driven gear 246 through a pin shaft, one ends of the first connecting rod 2331, the second connecting rod 2332 and the third connecting rod 2333, which are close to each other, are hinged with each other, one end of the first connecting rod 2331, which is far away from the face driving sprocket, is provided with the toggle rod 2334, and one end of the toggle rod 2334, which is far away from the first connecting rod 2331, is provided with a taper groove 2335.

The infrared detection mechanism matched with the second cone-shaped bearing block 223 is arranged at one end, close to the conveying driving sprocket, of the conveying fixing frame 221, the infrared detection mechanism is in sliding connection with the conveying fixing frame 221 and is used for detecting whether a supporting surface rod is placed on the second cone-shaped bearing block, and when the supporting surface rod is detected, the first driving mechanism stops driving.

The discharge end of the noodle fixing frame 231 is provided with a material blocking mechanism, and the noodle is placed by the material blocking mechanism and falls off from a discharge chain, so that a certain amount of noodle can be stored on the noodle assembly.

The stretching mechanism 3 comprises a second driving mechanism 31 and two groups of mounting plates 32, the two groups of mounting plates 32 are symmetrically arranged on two sides of the surface conveying mechanism 2 and are arranged in parallel with the surface conveying mechanism 32, a plurality of groups of inverted V-shaped hanging plates 33 which are arranged side by side are symmetrically and fixedly connected to one side surface of the two groups of mounting plates 32, the inverted V-shaped hanging plates 33 on the same side are sequentially connected with one another, the second driving mechanism 31 is arranged at the top of the three-dimensional frame 1, the second driving mechanism 31 is respectively connected with two opposite ends of the two groups of mounting plates 32, and the second driving mechanism drives the mounting plates and the inverted V-shaped hanging plates to reciprocate, so that noodles on the conveying assembly are stretched in a reciprocating manner through the inverted V-shaped hanging plates, and the noodles are stretched.

The stretching mechanism 3 further comprises four groups of first limiting columns 34, the four groups of first limiting columns 34 are respectively arranged at two ends of the two groups of mounting plates 32, first sliding blocks 35 are fixedly connected to two opposite ends of the two groups of mounting plates 32, the first sliding blocks 35 are slidably sleeved on the outer walls of the first limiting columns 34, and the limiting columns and the first sliding blocks are matched with each other to ensure the lifting stability of the mounting plates.

The second driving mechanism 31 comprises a second driving motor 311 and four groups of first bearing seats 312, the four groups of first bearing seats 312 are symmetrically arranged at the top of the three-dimensional frame 1 in pairs, transmission rods 313 are rotatably connected between the two groups of first bearing seats 312 which are oppositely arranged, driven wheels 314 are symmetrically fixedly connected to the outer walls of the two groups of transmission rods 313, the second driving motor 311 is arranged at the top of the three-dimensional frame 1 and is positioned between the two groups of transmission rods 313, a driving wheel 315 is fixedly connected to the outer walls of the output end of the second driving motor 311, the driving wheel 315 and the two groups of driven wheels 314 are in transmission connection through a transmission belt 316, first driving chain wheels 317 are symmetrically fixedly connected to the outer walls of the opposite ends of the two groups of transmission rods 313, first driven chain wheels 318 which are in one-to-one correspondence with the four groups of first driving chain wheels 317 are arranged at the bottom of the inner cavity of the three-dimensional frame 1, first transmission chains 319 are connected between the corresponding first driving chain 317 and the first driven chain wheels 318, and one side chains of the first transmission chains 319 are fixedly connected with the end of the mounting plate 32.

The noodle dividing mechanism 4 comprises a square frame 41, a screw rod 42 is rotationally connected to the middle positions of two opposite sides of the square frame 41, a first servo motor 43 is fixedly connected to one side of the square frame 41, the output end of the first servo motor 43 is fixedly connected with one end of the screw rod 42, a mounting seat 44 is in threaded connection with the outer wall of the screw rod 42, one side of the mounting seat 44 is rotationally connected with a plurality of noodle dividing rod mechanisms 45 in an array shape, the noodle dividing rod mechanisms 45 face the noodle feeding mechanism 2, one end of each noodle dividing rod mechanism 45 penetrates through the mounting seat 44 and is sleeved with a second driven sprocket 46, a second servo motor 47 is mounted on the side face of the mounting seat 44, a second driving sprocket 48 is fixedly connected with the outer wall of the output end of the second servo motor 47 through a second driving chain, a third driving mechanism 49 is arranged at the top of the three-dimensional frame 1, the third driving mechanism 49 is connected with the square frame 41 and drives the square frame 41 to move up and down, the first servo motor can drive the screw rod mechanisms to rotate, and accordingly the mounting seat and the noodle dividing rod mechanisms move back and forth, the noodle dividing rod mechanisms are inserted into each group of motors, then the second noodle dividing rod mechanisms and the noodle dividing rod mechanisms are driven by the second driving chain and the noodle dividing rod mechanisms to be prevented from being adhered to each other by the noodle dividing mechanism.

The third driving mechanism 49 comprises a third driving motor 491 and two groups of second bearing seats 492, the third driving motor 491 is installed at the middle part of the top of the three-dimensional frame 1, the two groups of second bearing seats 492 are installed at the opposite ends of the top of the three-dimensional frame 1, the output end of the third driving motor 491 is connected with a speed reducer, the output end of the speed reducer is connected with a second transmission rod 493, the two ends of the second transmission rod 493 are rotationally connected with the two groups of second bearing seats 492, the outer walls of the two opposite ends of the second transmission rod 493 are symmetrically fixedly connected with third driving sprockets 494, third driven sprockets 495 which are mutually matched with the third driving sprockets 494 are installed at the bottom of the inner cavity of the three-dimensional frame 1, a third transmission chain 496 is connected between the third driving sprockets 494 and the third driven sprockets 495, and one side chains of the third transmission chain 496 are fixedly connected with the square frame 41.

The third driving mechanism 49 further comprises four groups of second limiting columns 497 and four groups of second sliding blocks 498, the four groups of second sliding blocks 498 are symmetrically arranged at two opposite ends of two opposite sides of the square frame 41, each group of second sliding blocks 498 is correspondingly sleeved on the outer wall of each group of second limiting columns 497 in a sliding manner, and the mutual matching of the limiting columns and the second sliding blocks can play a role in assisting in stabilizing the square frame, so that the square frame can be lifted more stably.

Two groups of limiting blocks 411 and two groups of fixing blocks 412 are symmetrically and fixedly connected to two opposite side walls of the square frame 41, the fixing blocks are fixedly connected with one side chain of the third transmission chain 496, a limiting groove is formed in the limiting block 411, the other side chain of the third transmission chain 496 is clamped into the limiting groove and is in sliding connection with the limiting groove, and the limiting block and the limiting groove can limit the up-and-down sliding of the third transmission chain.

The facet rod mechanism 45 comprises a rotating shaft 451, one end of the rotating shaft 451 penetrates through the mounting seat 44 and is sleeved with the second driven sprocket 46, one end of the rotating shaft 451 is perpendicularly connected with a connecting shaft 452 relative to the other end of the rotating shaft 451, the facet rod 453 is installed at one end, far away from the rotating shaft 451, of the connecting shaft 452, a certain distance is reserved between the rotation of the facet rod and the rotating shaft due to the fact that the connecting shaft perpendicular to the rotating shaft is arranged, and therefore the facet effect of the facet rod is better.

Examples

When the stretcher is used, the using steps are as follows:

s1, sequentially placing noodle bundles to be stretched on a noodle inlet assembly 21 by a worker, and then starting a first driving motor 241 to convey noodles;

the method comprises the following steps: the noodle bundles are noodles stretched by a small stretching machine, namely the noodles are hung on two groups of noodle rods, so that when the noodles are placed, two ends of one group of noodle rods are respectively placed on the oppositely arranged first conical bearing blocks 215 of the feeding chains 213 at two sides;

s2, the first driving motor 241 rotates to drive the feeding chain 213 and the rotating disc 214 to rotate, so that when the noodle is conveyed to the position of the rotating disc 214, the arc-shaped rotating groove 216 on the rotating disc 214 jacks up the noodle rod, then continues to rotate and falls onto the second cone-shaped receiving block 223 of the conveying chain 222, and then is conveyed by the conveying chain 222;

s3, after the conveying chain 222 conveys the noodles for a certain distance, when the infrared detection mechanism detects the noodles bars (the infrared detection mechanism is arranged at the discharge end of the conveying assembly 22, so that when the infrared detection mechanism detects the noodles bars, the infrared detection mechanism represents that a certain number of noodles are received on the conveying chain 222), the first driving motor 241 is powered off to stop rotating, and then the second driving motor 311 is started;

s4, a second driving motor 311 rotates and drives two groups of driving rods 313 to rotate through a driven wheel 314, a driving wheel 315 and a driving belt 316 respectively, so as to drive a first driving chain wheel 317 and a first driving chain 319 to rotate, one side of the first driving chain 319 is communicated and fixed on a mounting plate 32, the first driving chain 319 drives the mounting plate 32 and an inverted V-shaped hanging plate 33 to reciprocate up and down, and each group of inverted V-shaped hanging plates 319 respectively hang the end parts of each group of noodle rods, so that noodle strips are stretched and formed;

starting the third driving motor 491, the first servo motor 43 and the second servo motor 47 while stretching the noodles;

the first servo motor 43 rotates to drive the screw rod 42 to rotate so as to drive the square frame 41 to move forwards and backwards, the noodle dividing rod 453 extends between noodle dividing rods of each group of noodles, the second servo motor 47 rotates to drive the second driving chain wheels 48 to rotate, the noodle dividing rods 453 are driven to rotate through the transmission chain, each group of noodles are divided, the noodles are prevented from adhering together, the stretching effect is improved, the second driven chain wheels 46 of two adjacent groups are driven to rotate in opposite directions through different connection positions between the transmission chain and each group of the second driven chain wheels 46, the noodle dividing effect is further improved, the third driving motor 491 is started in the noodle dividing process, the third driving motor 491 drives the second transmission rod 493 to rotate through the speed reducer, the third driving chain wheels 494 are driven to rotate, the square frame 41 and the connecting parts thereof are driven to slide up and down in an overall reciprocating manner through the third transmission chain 496 and the fixed block 412, and noodle dividing operation is carried out in all directions;

s5, after the noodle separation and stretching are finished, a first driving motor 241 is started, the first driving motor 241 drives a conveying chain 222 to continuously convey the stretched noodles, meanwhile, the first driving motor 241 drives a fourth driven gear 246 to rotate through a driving gear 242, and accordingly the fourth driven gear 246 drives a third connecting rod 2333 to swing up and down through a pin shaft, and accordingly a first connecting rod 2331, a second connecting rod 2332 and a deflector 2334 are driven to swing up and down, when the deflector 2334 swings up and down, the noodle rod is lifted up, a second cone-shaped receiving block 223 at the conveying chain 222 continuously drives along with the conveying chain 222, when the deflector 2334 swings down, the noodle rod is enabled to contact with the noodle chain 232, so that the noodle rod is lifted up through the noodle chain 232, and the upward and downward swinging of the first connecting rod 2331 drives the noodle-out chain wheel to rotate, the noodle rod is further driven to be conveyed away, then the lower operation is sequentially carried out, and the noodle rod is blocked by a blocking mechanism after the noodle rod is conveyed to a discharging end, and is periodically collected.

In the description of the present invention, it should be understood that the terms "coaxial," "bottom," "one end," "top," "middle," "another end," "upper," "one side," "top," "inner," "front," "center," "two ends," etc. indicate orientations or positional relationships based on the drawings, merely to facilitate description of the present invention and simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

In the present invention, unless explicitly specified and limited otherwise, the terms "mounted," "configured," "connected," "secured," "screwed," and the like are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly through intermediaries, or in communication with each other or in interaction with each other, unless explicitly defined otherwise, the meaning of the terms described above in this application will be understood by those of ordinary skill in the art in view of the specific circumstances.

Although embodiments of the present invention have been shown and described, it would be appreciated by those skilled in the art that changes may be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the claims and their equivalents.

Claims (5)

1. The utility model provides a noodle stretching is with sending face mechanism which characterized in that: the flour feeding mechanism (2) comprises a flour feeding component (21), a conveying component (22), a flour outputting component (23) and a first driving component (24) which are mutually matched, wherein the first driving component (24) is respectively connected with the flour feeding component (21), the conveying component (22) and the flour outputting component (23);

the feeding surface assembly (21) comprises two groups of supporting frames (211) which are symmetrically arranged and are foldable, one end of each supporting frame (211) is connected with a three-dimensional frame (1), one end of each supporting frame (211) is connected with a feeding fixing frame (212) at the opposite end, feeding driving sprockets, feeding driven sprockets, feeding chains (213) and rotating discs (214) are arranged on the fixing frames (212), the feeding driving sprockets and the feeding driven sprockets are respectively arranged at two ends of the fixing frames (212), the feeding driving sprockets and the feeding driven sprockets are connected through the feeding chains (213), a plurality of first conical bearing blocks (215) are fixedly connected to the outer wall of each feeding chain (213) at equal intervals, openings of the first conical bearing blocks (215) are far away from the feeding chains (213), the rotating discs (214) are coaxially arranged with the feeding driving sprockets, and arc-shaped material transferring grooves (216) which are mutually matched with the first conical bearing blocks (215) are formed in the edges of the rotating discs (214) in an equiangular mode;

the conveying assembly (22) comprises a conveying fixing frame (221), conveying driving sprockets, conveying driven sprockets and conveying chains (222), the conveying fixing frame (221) is arranged inside the three-dimensional frame (1), the conveying driving sprockets and the conveying driven sprockets are respectively arranged at two ends of the conveying fixing frame (221), the conveying driven sprockets are arranged close to the feeding driving sprockets, the conveying chains (222) are connected between the conveying fixing frames (221), a plurality of second cone-shaped bearing blocks (223) which are matched with the rotating disc (214) are arranged on the outer wall of the conveying chains (222) at equal intervals, and openings of the second cone-shaped bearing blocks (223) are arranged towards the conveying chains (222);

the face subassembly (23) is including appearing mount (231), face driving sprocket, face driven sprocket, face chain (232) and driving lever mechanism (233), appear mount (231) and install on three-dimensional frame (1), face driving sprocket and face driven sprocket and install respectively at the mount (231) both ends, be connected with between face driving sprocket and the face driven sprocket and appear chain (232), face driven sprocket is close to and carries driving sprocket, and face driven sprocket is located and carry driving sprocket below, driving lever mechanism (233) are connected with face driving sprocket, and driving lever mechanism (233) are used for driving the noodless from carrying chain (222) to face on chain (232).

2. The noodle feeding mechanism for stretching noodles according to claim 1, wherein: the first driving assembly (24) comprises a first driving motor (241), the first driving motor (241) is mounted at the top of the three-dimensional frame (1), a driving gear (242) is fixedly connected to the outer wall of the output end of the first driving motor (241), a first driven gear (243) is fixedly connected to the outer wall of a rotating rod of the conveying driving sprocket, the first driven gear (243) is meshed with the driving gear (242), a second driven gear (244) is fixedly connected to the outer wall of the rotating rod of the conveying driven sprocket, a third driven gear (245) is fixedly connected to the outer wall of the rotating rod of the feeding driving sprocket, the third driven gear (245) is meshed with the second driven gear (244), a fourth driven gear (246) is connected to the fixing frame (231) in a rotating mode, the first driven gear (243) is meshed with the fourth driven gear (246), and the poking rod mechanism (233) is connected with the fourth driven gear (246).

3. The noodle feeding mechanism for stretching noodles according to claim 2, wherein: the driving rod mechanism (233) comprises a first connecting rod (2331), a second connecting rod (2332), a third connecting rod (2333) and a driving rod (2334), one end of the first connecting rod (2331) is connected with a rotating rod of a driving sprocket, one end of the second connecting rod (2332) is connected with the rotating rod of a driven sprocket, one end of the third connecting rod (2333) is hinged with a fourth driven gear (246) through a pin shaft, one ends of the first connecting rod (2331), the second connecting rod (2332) and the third connecting rod (2333) close to each other are hinged with each other, one end of the first connecting rod (2333) away from the driving sprocket is provided with the driving rod (2334), and one end of the driving rod (2334) away from the first connecting rod (2331) is provided with a taper groove (2335).

4. A noodle stretching noodle feeding mechanism according to claim 3, wherein: and an infrared detection mechanism matched with the second cone-shaped bearing block (223) is arranged at one end, close to the conveying driving chain wheel, of the conveying fixing frame (221), and the infrared detection mechanism is in sliding connection with the conveying fixing frame (221).

5. The noodle feeding mechanism for stretching noodles according to claim 2, wherein: the discharging end of the surface fixing frame (231) is provided with a material blocking mechanism.