CN215898745U - Feeding and discharging mechanism for automatic noodle stretching machine - Google Patents

Abstract

The utility model relates to the technical field of noodle stretching machines, in particular to a feeding and discharging mechanism for an automatic noodle stretching machine, which comprises two groups of symmetrically arranged vertical machine boxes, wherein the feeding and discharging mechanisms are symmetrically arranged on one side surface of each group of vertical machine boxes close to each other, and are used for conveying noodles.

Description

Feeding and discharging mechanism for automatic noodle stretching machine

Technical Field

The utility model relates to the technical field of noodle stretching machines, in particular to a feeding and discharging mechanism for an automatic noodle stretching machine.

Background

With the improvement of economic level and the acceleration of life rhythm, the dried noodles which are convenient to eat and easy to store appear in the market, most of the dried noodles sold in the market are extruded or directly cut into strips or small pieces after being pressed into tablets, are not boiling-resistant, are easy to break after being boiled, have poor taste and influence the eating; the stretched noodles are produced under the condition that the internal fiber texture is not damaged by pulling and kneading, are boiling-resistant, tough and good in taste, but cannot be produced in batches by replacing manpower with mechanical equipment at present, the manual stretched noodles are low in efficiency, time-consuming, labor-consuming and high in labor intensity, and the pulled stretched noodles are different in length and uneven in thickness, so that the product sale is influenced. Therefore, the feeding and discharging mechanism for the automatic noodle stretching machine is provided to solve the problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a feeding and discharging mechanism for an automatic noodle stretching machine so as to solve the technical problem.

In order to achieve the purpose, the utility model provides the following technical scheme: a feeding and discharging mechanism for an automatic noodle stretching machine comprises two groups of symmetrically arranged vertical cases, wherein feeding and discharging mechanisms are symmetrically arranged on one side surface, close to each other, of the two groups of vertical cases, and the feeding and discharging mechanisms are used for conveying noodles;

the feeding and discharging mechanism comprises a feeding assembly, a transfer assembly, a discharging assembly and a buffering assembly, wherein the feeding assembly, the transfer assembly and the discharging assembly are sequentially arranged from front to back in an end-to-end mode, the buffering assembly is located above the transfer assembly and faces the transfer assembly, a first material blocking strip is arranged on the vertical case, the first material blocking strip is arranged in parallel with the buffering assembly and located above the buffering assembly in an inclined mode, a second material blocking strip is arranged on the vertical case, and the second material blocking strip is located above the feeding assembly.

Preferably, the feeding assembly comprises a feeding support frame, a feeding driving chain wheel, a feeding driven chain wheel and a feeding chain wheel, the feeding support frame is fixedly connected to the vertical case, the feeding driven chain wheel is arranged at the end of the feeding support frame, the feeding driving chain wheel is arranged on the vertical case, the feeding chain wheel is connected between the feeding driving chain wheel and the feeding driven chain wheel, a plurality of groups of clamping blocks are fixedly connected to the feeding chain wheel at equal intervals, and clamping grooves are formed between every two adjacent groups of clamping blocks.

Preferably, the transfer subassembly includes the transfer action wheel, the transfer is from the driving wheel and the transfer belt, the transfer is from the coaxial and relative rotation setting of driving sprocket from the driving wheel with the feeding, the transfer action wheel sets up at vertical quick-witted case, the transfer action wheel and the transfer are connected with the transfer belt from between the driving wheel, transfer belt outer wall rigid coupling has two sets of transfer driving levers, and both sides about two sets of transfer driving levers are located the transfer belt.

Preferably, ejection of compact subassembly includes ejection of compact support frame, ejection of compact action wheel, ejection of compact from driving wheel and ejection of compact belt, ejection of compact support frame sets up in vertical quick-witted case another side, and ejection of compact support frame sets up with the feeding support frame relatively, ejection of compact support frame tip is provided with the ejection of compact from the driving wheel, ejection of compact action wheel and the coaxial and relative rotation setting of transfer action wheel, ejection of compact action wheel and ejection of compact are connected with ejection of compact belt from between the driving wheel.

Preferably, the buffering subassembly includes the buffering action wheel, the buffering is followed driving wheel and buffer belt, the buffering action wheel all sets up on vertical quick-witted case with the buffering from the driving wheel, buffer action wheel and buffering are connected with buffer belt from between the driving wheel.

Preferably, the outer wall of the buffer belt is provided with two groups of buffer deflector rods, and the two groups of buffer deflector rods are arranged on two opposite sides of the buffer belt.

Compared with the prior art, the utility model has the beneficial effects that:

according to the noodle stretching device, the feeding assembly, the transfer assembly and the discharging assembly are arranged in a tail-ending connection mode, so that the noodles can be stably fed in the stretching process, the stretching of the noodles is more uniform, the second material blocking strip can play a blocking and limiting role in the stretching process, the noodles positioned at the feeding assembly are prevented from shifting during stretching, the noodles can slowly fall onto the transfer assembly through the buffering assembly after the stretching of the noodles is finished, and then the discharging is performed, so that the stretching of the noodles is smoother and more stable.

Drawings

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

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

FIG. 2 is a schematic front view of the present invention;

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

FIG. 4 is a schematic structural view of a stretching mechanism according to the present invention;

FIG. 5 is a schematic view of the lifting frame of the present invention;

FIG. 6 is a schematic view of the translating carriage of the present invention;

FIG. 7 is a partial schematic view of the present invention;

fig. 8 is a schematic structural diagram of a driving motor and a connecting mechanism thereof according to the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

1. a vertical chassis; 3. a feeding and discharging mechanism; 31. a feed assembly; 311. a feeding support frame; 312. a feed sprocket; 313. a clamping block; 32. a transfer component; 321. transferring a belt; 322. a transfer deflector rod; 33. a discharge assembly; 331. discharging and supporting; 332. a discharge belt; 34. a buffer assembly; 341. a buffer belt; 342. A buffer deflector rod; 35. a first material blocking strip; 36. a second material blocking strip;

2. a power chassis; 21. a box body; 22. a drive motor; 23. a first rotating lever; 24. a second rotating lever; 25. a third rotating rod; 26. a turntable; 27. a cylindrical pin; 28. step sheave; 4. a stretching mechanism; 41. a lifting assembly; 411. lifting the support; 412. a lifting bar; 413. lifting the power structure; 4131. a fixed block; 4132. fixing the rod; 4133. a slider; 4134. a connecting rod; 4135. a crank; 4136. a cam; 414. a lifting clamping groove; 415. a blanking clamping groove; 416. a positioning sleeve; 42. a translation assembly; 421. a translation support; 4211. a blanking guide rod; 422. a translation connecting rod; 4221. a limiting column; 423. a translation clamping groove; 424. an L-shaped connecting rod; 425. a limiting rod; 426. a limiting sleeve; 427. connecting sleeves; 428. a limiting wheel; 429. a limiting strip; 5. a transmission assembly; 51. a first rotating wheel; 52. a second rotating wheel; 53. A third rotating wheel; 54. a fourth rotating wheel; 55. a fifth rotating wheel; 56. a sixth rotating wheel; 57. a first drive belt; 58. a second drive belt.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-8, the present invention provides a technical solution: a feeding and discharging mechanism for an automatic noodle stretching machine comprises two groups of vertical machine boxes 1 which are symmetrically arranged, wherein feeding and discharging mechanisms 3 are symmetrically arranged on one side surfaces, close to each other, of the two groups of vertical machine boxes 1, and the feeding and discharging mechanisms 3 are used for conveying noodles;

feeding and discharging mechanism 3 includes feeding component 31, transfer component 32, ejection of compact subassembly 33 and buffering subassembly 34, feeding component 31, transfer component 32 and ejection of compact subassembly 33 are from preceding to back in proper order end to end and are arranged the setting, buffering subassembly 34 is located transfer component 32 top and towards transfer component 32, be provided with first fender material strip 35 on vertical quick-witted case 1, and first fender material strip 35 and buffering subassembly 34 parallel arrangement are located the oblique top of buffering subassembly 34, be provided with second fender material strip 36 on vertical quick-witted case 1, and second fender material strip 36 is located feeding component 31 top.

Specifically, feeding subassembly 31 includes feeding support frame 311, feeding drive sprocket, feeding driven sprocket and feeding sprocket 312, feeding support frame 311 rigid coupling is on vertical quick-witted case 1, feeding driven sprocket sets up at feeding support frame 311 tip, feeding drive sprocket sets up on vertical quick-witted case 1, be connected with feeding sprocket 312 between feeding drive sprocket and the feeding driven sprocket, equidistant rigid coupling has a plurality of groups fixture block 313 on feeding sprocket 312, and form the draw-in groove between two sets of adjacent fixture block 313.

Specifically, transfer subassembly 32 includes the transfer action wheel, the transfer is from driving wheel and transfer belt 321, and the transfer is from the coaxial and relative rotation setting of driving sprocket with the feeding, and the transfer action wheel sets up at vertical quick-witted case 1, and the transfer action wheel and transfer are connected with transfer belt 321 from between the driving wheel, and transfer belt 321 outer wall rigid coupling has two sets of transfer driving levers 322, and both sides about two sets of transfer driving levers 322 are located transfer belt 321.

Specifically, ejection of compact subassembly 33 includes ejection of compact support frame 331, the ejection of compact action wheel, the ejection of compact is from driving wheel and ejection of compact belt 332, ejection of compact support frame 331 sets up in vertical quick-witted case 1 another side, and ejection of compact support frame 331 sets up with feeding support frame 311 relatively, ejection of compact support frame 331 tip is provided with the ejection of compact from the driving wheel, the coaxial and relative rotation setting of ejection of compact action wheel and transfer action wheel, ejection of compact action wheel and ejection of compact are connected with ejection of compact belt 332 from between the driving wheel.

Specifically, buffering subassembly 34 includes the buffering action wheel, the buffering is followed driving wheel and buffer belt 341, and the buffering action wheel all sets up on vertical quick-witted case 1 with the buffering from the driving wheel, and buffering action wheel and buffering are followed and are connected with buffer belt 341 between the driving wheel.

Specifically, the outer wall of the buffer belt 341 is provided with two sets of buffer shift levers 342, and the two sets of buffer shift levers 342 are arranged on two opposite sides of the buffer belt 341, so that the noodle can be received through the buffer shift levers when being unloaded from the stretching mechanism, and then the noodle is slowly conveyed to the transfer assembly, thereby reducing the impact force.

When the feeding and discharging mechanism of the stretcher is used in the stretcher, the stretcher comprises two vertical machine boxes 1 which are symmetrically arranged, a power machine box 2 is arranged between the two groups of vertical machine boxes 1, a feeding and discharging mechanism 3 and a stretching mechanism 4 are symmetrically arranged on one side surface, close to each other, of the two groups of vertical machine boxes 1, the stretching mechanism 4 is positioned above the feeding and discharging mechanism 3, the feeding and discharging mechanism 3 is used for conveying noodles, the stretching mechanism 4 is used for stretching the noodles, and the power machine box 2 is respectively connected with the feeding and discharging mechanism 3 and the stretching mechanism 4 and drives the feeding and discharging mechanism 3 and the stretching mechanism 4 to work;

the feeding and discharging mechanism 3 comprises a feeding assembly 31, a transfer assembly 32, a discharging assembly 33 and a buffer assembly 34, the feeding assembly 31, the transfer assembly 32 and the discharging assembly 33 are sequentially arranged end to end from front to back, the buffer assembly 34 is positioned above the transfer assembly 32 and faces the transfer assembly 32, a first material blocking strip 35 is arranged on the vertical case 1, the first material blocking strip 35 is arranged in parallel with the buffer assembly 34 and is positioned obliquely above the buffer assembly 34, a second material blocking strip 36 is arranged on the vertical case 1, and the second material blocking strip 36 is positioned above the feeding assembly 31;

the stretching mechanism 4 comprises a lifting component 41 and a translation component 42, and the lifting component 41 and the translation component 42 stretch the noodles after being matched.

Specifically, the lifting assembly 41 includes a lifting support 411, a lifting rod 412 and a lifting power structure 413, the lifting support 411 and the lifting rod 412 are both connected with the lifting power structure 413, the lifting support 411 and the lifting rod 412 are both arranged on the outer side surface of the vertical case 1, the lifting support 411 and the lifting rod 412 are located on the same vertical plane, a lifting slot 414 is arranged at the top of the lifting rod 412, more than three lifting slots 414 sequentially arranged in a step-like manner in an upward step-by-step increasing manner are arranged from front to back at the top of the lifting support 411, and a blanking slot 415 lower than the adjacent lifting slot 414 is arranged at the rear side of the top of the lifting support 411;

the translation component 42 comprises a translation support 421 and a translation connecting rod 422, the translation support 421 is arranged on the outer side of the vertical case 1 and is located on the outer side of the lifting support 411, the top of the translation support 421 is provided with a translation clamping groove 423 matched with the lifting clamping groove 414, the translation connecting rod 422 is arranged in the vertical case 1 and is fixedly connected with the translation support 421, one side of the translation connecting rod 422 away from the translation support 421 is hinged with an L-shaped connecting rod 424, the bending part of the L-shaped connecting rod 424 is hinged with the inner wall of the vertical case 1, one end of the L-shaped connecting rod 424 away from the translation connecting rod 422 is hinged with a limiting rod 425, the upper end and the lower end of the outer wall of the limiting rod 425 are respectively fixedly connected with a limiting sleeve 426, the outer wall of the limiting rod 425 is sleeved with a connecting sleeve 427, the connecting sleeve 427 is located between the two groups of limiting sleeves 426, the connecting sleeve 427 is connected with the lifting power structure 413, the inner wall of the vertical case 1 is provided with four limiting wheels 428, and the four limiting wheels 428 are arranged symmetrically up and down, the translating link 422 is positioned between the upper and lower restraint wheels 428 and is slidably coupled to the restraint wheels 428.

Specifically, the lifting power structure 413 comprises a fixed block 4131, the fixed block 4131 is fixedly connected to the inner wall of the vertical case 1, two groups of fixing rods 4132 which are arranged in parallel are fixedly connected between the fixed block 4131 and the top of the inner cavity of the vertical case 1, the outer wall of each fixing rod 4132 is slidably connected with a slider 4133, one side surface of each slider 4133 is fixedly connected with the lifting support 411, one side surface of each slider 4133 is symmetrically and fixedly connected with a connecting rod 4134 opposite to the other side surface, the other side surface of one side surface of each slider 4133 is respectively fixedly connected with the lifting rod 412 and the connecting sleeve 427, a crank 4135 is hinged to the other side surface of one side surface of each slider 4133, one end of each crank 4135 far away from the corresponding slider 4133 is fixedly connected with a cam 4136, and one end of each cam 4135 far away from the corresponding crank is rotatably connected with the inner wall of the vertical case 1;

the limiting sleeve 426 is fixedly connected with the limiting rod 425 through a bolt, so that the limiting sleeve can slide along the limiting rod to adjust the distance, and then the limiting sleeve is fixedly connected through the bolt, so that the translation distance of the translation assembly can be adjusted;

the inner wall of the vertical case 1 is fixedly connected with a limiting strip 429, the limiting strip 429 is positioned above the limiting wheel 428, the top of the translation connecting rod 422 is fixedly connected with a limiting column 4221, the limiting column 4221 is positioned between the limiting wheels 428, inserted in the limiting strip 429 and connected with the limiting strip 429 in a sliding manner, and the sliding of the translation connecting rod is further limited, so that the sliding stability of the translation connecting rod is ensured;

and the vertical case 1 is provided with a through groove which is mutually matched with the lifting bracket 411 and the translation bracket 421;

the vertical case 1 is provided with a positioning sleeve 416 which is matched with the lifting rod 412, so that the sliding of the lifting rod is limited, and the sliding stability of the lifting rod is ensured;

and a blanking guide rod 4211 is fixedly connected to the rear side of the translation support 421.

Specifically, feeding subassembly 31 includes feeding support frame 311, feeding drive sprocket, feeding driven sprocket and feeding chain 312, feeding support frame 311 rigid coupling is on vertical quick-witted case 1, feeding driven sprocket sets up at feeding support frame 311 tip, feeding drive sprocket sets up on vertical quick-witted case 1, be connected with feeding chain 312 between feeding drive sprocket and the feeding driven sprocket, the equidistance rigid coupling has a plurality of groups fixture block 313 on feeding chain 312, and form the draw-in groove between adjacent two sets of fixture block 313.

Specifically, transfer subassembly 32 includes the transfer action wheel, the transfer is from driving wheel and transfer belt 321, and the transfer is from the coaxial and relative rotation setting of driving sprocket with the feeding, and the transfer action wheel sets up at vertical quick-witted case 1, and the transfer action wheel and transfer are connected with transfer belt 321 from between the driving wheel, and transfer belt 321 outer wall rigid coupling has two sets of transfer driving levers 322, and both sides about two sets of transfer driving levers 322 are located transfer belt 321.

Specifically, ejection of compact subassembly 33 includes ejection of compact support frame 331, the ejection of compact action wheel, the ejection of compact is from driving wheel and ejection of compact belt 332, ejection of compact support frame 331 sets up in vertical quick-witted case 1 another side, and ejection of compact support frame 331 and feeding support frame 311 set up relatively, ejection of compact support frame 331 tip is provided with the ejection of compact from the driving wheel, ejection of compact action wheel and the coaxial setting of transfer action wheel, ejection of compact action wheel and ejection of compact are connected with ejection of compact belt 332 from between the driving wheel.

Specifically, the buffer assembly 34 includes a buffer driving wheel, a buffer driven wheel and a buffer belt 341, the buffer driving wheel and the buffer driven wheel are both disposed on the vertical case 1, and the buffer belt 341 is connected between the buffer driving wheel and the buffer driven wheel;

and the outer wall of the buffer belt 341 is provided with two groups of buffer deflector rods 342, and the two groups of buffer deflector rods 342 are arranged on two opposite sides of the buffer belt 341, so that the noodles can be received through the buffer deflector rods when being unloaded from the stretching mechanism, and then are slowly conveyed to the transfer assembly, and the impact force is reduced.

Specifically, the power chassis 2 comprises a box body 21 and a driving motor 22, a first rotating rod 23, a second rotating rod 24 and a third rotating rod 25 are rotatably connected between the side walls of the inner cavity of the box body 21, the first rotating rod 23 and the second rotating rod 24 are in transmission connection through a gear assembly, a rotating disk 26 is sleeved on the outer wall of the second rotating rod 24, a cylindrical pin 27 is arranged on one side surface of the rotating disk 26, a stepping grooved pulley 28 matched with the cylindrical pin 27 is sleeved on the outer wall of the third rotating rod 25, and the driving motor 22 is in transmission connection with the first rotating rod 23 through a transmission belt assembly;

two ends of the second rotating rod 24 penetrate through the vertical case 1 and are connected with the stretching mechanism 4, the first rotating rod 23 is connected with the transfer component 32 and the buffer component 34, and the third rotating rod 25 is connected with the feeding component 31 and the discharging component 33;

a transmission assembly 5 is arranged on the inner wall of the vertical case 1, the transmission assembly 5 comprises a first rotating wheel 51, a second rotating wheel 52, a third rotating wheel 53, a fourth rotating wheel 54, a fifth rotating wheel 55 and a sixth rotating wheel 56, the first rotating wheel 51, the second rotating wheel 52, the third rotating wheel 53, the fourth rotating wheel 54, the fifth rotating wheel 55 and the sixth rotating wheel 56 are all rotatably connected with the inner wall of the vertical case 1, and the fifth rotating wheel 55 and the sixth rotating wheel 56 are coaxially and relatively rotatably arranged;

the first rotating wheel 51, the fourth rotating wheel 54 and the fifth rotating wheel 55 are in transmission connection through a first transmission belt 57, two ends of the first rotating rod 23 are connected with the first rotating wheel 51, the fourth rotating wheel 54 is connected with a buffer driving wheel of the buffer assembly 34, and the fifth rotating wheel 55 is connected with a transfer driving wheel;

the second rotating wheel 52, the third rotating wheel 53 and the sixth rotating wheel 56 are in transmission connection through a second transmission belt 58, the second rotating wheel 52 is connected with the third rotating rod 25, the third rotating wheel 53 is connected with a feeding driving sprocket of the feeding assembly 31, and the sixth rotating wheel 56 is connected with a discharging driving wheel of the discharging assembly 33;

the second rotating lever 24 is connected to the cam 4136.

Example (b):

the driving motor 22 is started, the driving motor 22 rotates and drives the first rotating rod 23 to rotate through the transmission belt assembly, the first rotating rod 23 drives the second rotating rod 24 to rotate through the transmission of the gear assembly, the second rotating rod 24 drives the rotating disk 26 and the cylindrical pin 27 to rotate, and then the stepping grooved pulley 28 is driven to rotate intermittently, so that the third rotating rod 25 is driven to rotate intermittently;

the third rotating rod 25 rotates to drive the second rotating wheel 52 to rotate, so as to drive the third rotating wheel 53 and the sixth rotating wheel 56 to rotate; thereby driving the feeding driving sprocket and the discharging driving wheel to rotate, and further driving the feeding chain 312 and the discharging belt 332 to rotate intermittently;

the second rotating rod 24 rotates to drive the cam 4136 to rotate, the cam 4136 rotates to drive the crank 4135 and the slider 4133 to slide up and down along the fixed rod 4132, so as to drive the lifting bracket 411 to reciprocate up and down, and respectively drive the lifting rod 412 and the connecting sleeve 427 to reciprocate up and down through the two groups of connecting rods 4134, the connecting sleeve 427 reciprocates up and down so as to strike the limiting sleeves 426 on the upper side and the lower side of the limiting rod 425 in a reciprocating manner, so as to drive the translation connecting rod 422 to reciprocate under the limiting action of the limiting wheel 428 through the L-shaped connecting rod 427, so as to drive the translation bracket 421 to reciprocate to translate, when the lifting bracket 411 is to ascend, the translation bracket 421 moves towards the discharging component 33, and when the lifting bracket 411 is to descend, the translation bracket 421 moves along the feeding component 31;

the first rotating rod 23 rotates to drive the first rotating wheel 51 to rotate, so as to drive the fourth rotating wheel 54 and the fifth rotating wheel 55 to rotate, so as to drive the buffer driving wheel and the transit driving wheel to rotate, and further drive the buffer assembly 34 and the transit assembly 32 to rotate;

when the noodles are stretched, two noodle hanging rods wound with one noodle are horizontally placed and are respectively clamped on two adjacent clamping grooves of the feeding chain 312, then the driving motor 22 is started through the external switch, so that the feeding chain rotates to drive the noodle hanging rods to intermittently move, when the noodle hanging rods move to the position of the lifting rod 412, the lifting rod 412 moves upwards, and the previous noodle hanging rod is jacked up through the lifting clamping groove 414 on the lifting rod 412 to be stretched for the first time; then the translation support 421 moves to the lower part of the lifting rod 412, when the lifting rod 412 descends, the noodle hanging rod is hung on the first translation clamping groove 423 of the translation support 421, then the noodle hanging rod moves to the position of the lifting support 411, and the lifting support 411 moves upwards to jack up the noodle hanging rod on the translation support 421 for the second stretching; then the translation bracket 421 moves to the lower part of the lifting bracket 411, the lifting bracket 411 descends to enable the noodle hanging rod to be hung on a second translation clamping groove 423 of the translation bracket 421, then the translation bracket 421 moves, the lifting bracket 411 moves upwards to jack the noodle hanging rod for third stretching, and the mechanical stretching of the noodles is carried out in a reciprocating manner; after the noodles are stretched to the blanking clamping groove 415 of the lifting bracket 411, the noodles move downwards along with the blanking clamping groove 415, fall on the blanking guide rod 4211, are received by the buffer shift lever 342 on the buffer belt 341 and then are conveyed to the transfer belt 321, and the transfer belt 321 rotates towards the discharging assembly 33; in the stretching process of the front noodle hanging rod, the rear noodle hanging rod is always clamped on the clamping groove and moves along with the feeding chain 312, and the rear noodle hanging rod is separated by the second material blocking strip 36 in the stretching process, so that the rear noodle hanging rod is prevented from moving up and down along with the front noodle hanging rod; after the tensile completion many times, the hang face pole in the place ahead drops 321 on the transfer belt earlier, then the hang face pole at rear breaks away from the draw-in groove to on dropping on transfer belt 321, two sets of hang face poles in the front and back will be pushed gradually the ejection of compact on ejection of compact belt 332 through transfer driving lever 322 at last, accomplish the mechanical stretching of a set of noodless.

In the description of the present invention, it is to be understood that the terms "coaxial", "bottom", "one end", "top", "middle", "other end", "upper", "one side", "top", "inner", "front", "center", "both ends", and the like, indicate orientations or positional relationships based on the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the referred device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "disposed," "connected," "secured," "screwed" and the like are to be construed broadly, e.g., as meaning fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; the terms may be directly connected or indirectly connected through an intermediate, and may be communication between two elements or interaction relationship between two elements, unless otherwise specifically limited, and the specific meaning of the terms in the present invention will be understood by those skilled in the art according to specific situations.

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 utility model, the scope of which is defined in the claims and their equivalents.

Claims (6)

1. The utility model provides a noodless are feeding and discharging mechanism for automatic drawing machine, includes vertical quick-witted case (1) that two sets of symmetries set up, its characterized in that: the feeding and discharging mechanisms (3) are symmetrically arranged on one side surface, close to each other, of the two groups of vertical cases (1), and the feeding and discharging mechanisms (3) are used for conveying noodles;

feeding and discharging mechanism (3) are including feeding subassembly (31), transfer subassembly (32), ejection of compact subassembly (33) and buffer assembly (34), feeding subassembly (31), transfer subassembly (32) and ejection of compact subassembly (33) are arranged from the past to the back end to end in proper order and are set up, buffer assembly (34) are located transfer subassembly (32) top and towards transfer subassembly (32), be provided with first fender material strip (35) on vertical machine case (1), and first fender material strip (35) and buffer assembly (34) parallel arrangement and lie in buffer assembly (34) oblique top, be provided with second fender material strip (36) on vertical machine case (1), and second fender material strip (36) are located feeding subassembly (31) top.

2. The feeding and discharging mechanism for the automatic noodle stretching machine according to claim 1, characterized in that: feeding subassembly (31) is including feeding support frame (311), feeding drive sprocket, feeding driven sprocket and feeding sprocket (312), feeding support frame (311) rigid coupling is on vertical quick-witted case (1), feeding driven sprocket sets up at feeding support frame (311) tip, feeding drive sprocket sets up on vertical quick-witted case (1), be connected with feeding sprocket (312) between feeding drive sprocket and the feeding driven sprocket, equidistant rigid coupling has a plurality of groups fixture block (313) on feeding sprocket (312), and forms the draw-in groove between adjacent two sets of fixture block (313).

3. The feeding and discharging mechanism for the automatic noodle stretching machine according to claim 2, characterized in that: transfer subassembly (32) are including the transfer action wheel, the transfer from driving wheel and transfer belt (321), the transfer is from the driving wheel and the coaxial and relative rotation setting of feeding driving sprocket, the transfer action wheel sets up at vertical quick-witted case (1), the transfer action wheel and the transfer are connected with transfer belt (321) from driving wheel, transfer belt (321) outer wall rigid coupling has two sets of transfer driving lever (322), and both sides about two sets of transfer driving lever (322) are located transfer belt (321).

4. The feeding and discharging mechanism for the automatic noodle stretching machine according to claim 3, characterized in that: ejection of compact subassembly (33) are including ejection of compact support frame (331), ejection of compact action wheel, ejection of compact from driving wheel and ejection of compact belt (332), ejection of compact support frame (331) set up in vertical quick-witted case (1) another side, and ejection of compact support frame (331) set up with feeding support frame (311) relatively, ejection of compact support frame (331) tip is provided with the ejection of compact from the driving wheel, the setting is just rotated relatively to ejection of compact action wheel and transfer action wheel coaxial, ejection of compact action wheel and ejection of compact are connected with ejection of compact belt (332) from between the driving wheel.

5. The feeding and discharging mechanism for the automatic noodle stretching machine according to any one of claims 1 or 3, characterized in that: buffering subassembly (34) are including buffering action wheel, buffering follow driving wheel and buffering belt (341), buffering action wheel and buffering follow driving wheel all set up on vertical quick-witted case (1), buffering action wheel and buffering are connected with buffering belt (341) from between the driving wheel.

6. The feeding and discharging mechanism for the automatic noodle stretching machine according to claim 5, characterized in that: two groups of buffer deflector rods (342) are arranged on the outer wall of the buffer belt (341), and the two groups of buffer deflector rods (342) are arranged on two opposite sides of the buffer belt (341).

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