CN105480687A

CN105480687A - Fine dried noodle head change device and fine dried noodle conveying line

Info

Publication number: CN105480687A
Application number: CN201610026036.6A
Authority: CN
Inventors: 宗向东; 付俊辉; 冯森; 焦翠萍
Original assignee: DENGFENG QIMINGXUAN PROGRAM CONTROL EQUIPMENT Co Ltd
Current assignee: DENGFENG QIMINGXUAN PROGRAM CONTROL EQUIPMENT Co Ltd
Priority date: 2016-01-15
Filing date: 2016-01-15
Publication date: 2016-04-13
Anticipated expiration: 2036-01-15
Also published as: CN105480687B

Abstract

The invention provides a fine dried noodle head change device and a fine dried noodle conveying line. The fine dried noodle conveying line comprises an upstream conveying device and a downstream conveying device. The upstream conveying device and the downstream conveying device are in transmission communication through the fine dried noodle head change device. The fine dried noodle head change device comprises a rack. The rack is provided with a feeding end in transmission communication with the upstream conveying device, a discharging end in transmission communication with the downstream conveying device, and a material guide structure or a material guide channel or a falling space which is arranged between the feeding end and the discharging end for keeping the left ends and right ends of fined dried noodles not turned during fine dried noodle conveying. The feeding end and the discharging end are vertically arranged, and the fine dried noodle conveying direction at the feeding end and the fine dried noodle conveying direction at the discharging end are opposite. According to the conveying line, head change of fine dried noodles can be achieved automatically in the conveying process through the fine dried noodle head change device, and use is very convenient.

Description

A kind of vermicelli change head unit and vermicelli travel line

Technical field

The present invention relates to a kind of vermicelli and change head unit and vermicelli travel line.

Background technology

Updating and developing along with food processing machinery and equipment, the production of the vermicelli also continuous mode of production towards automatic assembly line is drawn close.In existing producing technology for fine dried noodles, vermicelli are being carried by longitudinal travel line after noodle cutter slitting, and artificial being transported in wrapping machine by vermicelli on longitudinal travel line is packed.Because the vermicelli cut out from noodle cutter are when delivering on longitudinal travel line, vermicelli stub end is positioned at the left side of direct of travel, and need the stub end of vermicelli to be positioned at the right side of direct of travel when wrapping machine is packed, also need to change head to vermicelli like this in artificial process vermicelli are transported in wrapping machine, be easy to the direction mistaking pipe reducer because of workman's carelessness, affect the packaging of vermicelli, manually change head simultaneously and also make the labor content of workman very large, extremely affect packaging efficiency.

Summary of the invention

The object of the present invention is to provide a kind of can being applied on vermicelli travel line to make vermicelli vermicelli of achieving automatic head replacement in course of conveying change head unit, solve needs and manually change head and cause the problem that labor strength is large, production efficiency is low; In addition, present invention also offers a kind of vermicelli travel line using these vermicelli to change head unit.

In order to solve the problems of the technologies described above, vermicelli of the present invention change head unit and adopt following technical scheme: a kind of vermicelli change head unit, comprise frame, frame be provided with for upstream feedway transmit be communicated with feed end, for transmitting with downstream feedway the discharge end be communicated with, and be located at the material guide structure or guide passage or droping space do not turned at two ends, left and right between feed end and discharge end, the maintenance vermicelli when carrying vermicelli, feed end and discharge end are arranged up and down, and the vermicelli throughput direction on feed end is contrary with the vermicelli throughput direction on discharge end.

Described material guide structure comprises is located at feed end back outlet position, sliding surface plate downward-sloping gradually from front to back, also comprises the vermicelli the feed mechanism delivered to by vermicelli on discharge end that receive landing on sliding surface plate.

Described feed mechanism comprises opening up junction groove and drives the front and back reciprocating drive mechanism of junction groove front-rear reciprocation movement, the rear side cell wall height of junction groove is greater than front side cell wall, when the space on front side of junction groove between the upper end of cell wall and feed end downside is formed in junction groove front-rear reciprocation movement, vermicelli is shaked out from junction groove to fall the junction groove outlet on discharge end.

Frame is also provided with face plate in the arranged on left and right sides of junction groove, and the linear reciprocating motion of left and right reciprocating drive mechanism realization in relative and opposing direction that the face plate of arranged on left and right sides exports left and right directions linear reciprocating motion by being in transmission connection is clapped neat falling to the two ends, vermicelli left and right of junction groove.

Vermicelli travel line of the present invention adopts following technical scheme: a kind of vermicelli travel line, comprise upstream feedway and downstream feedway, change head unit transmission by vermicelli between upstream and downstream feedway to be communicated with, described vermicelli change head unit and comprise frame, frame is provided with transmits with upstream feedway the feed end be communicated with, the discharge end be communicated with is transmitted with downstream feedway, and be located between feed end and discharge end, the material guide structure keeping the two ends, left and right of vermicelli not turn when carrying vermicelli or guide passage or droping space, feed end and discharge end are arranged up and down, vermicelli throughput direction on feed end is contrary with the vermicelli throughput direction on discharge end.

Described material guide structure comprises is located at feed end back outlet position, sliding surface plate downward-sloping gradually from front to back, also comprises the vermicelli the pusher be pushed to by vermicelli on discharge end that receive landing on sliding surface plate.

Described vermicelli travel line also comprises the upstream processing unit (plant) be connected with upstream feedway and the downstream process units be connected with downstream feedway, the stub end of the vermicelli that described upstream processing unit (plant) is sent is positioned at left side or the right side of the working direction of upstream feedway, and the stub end of the vermicelli that described downstream process units receives is positioned at right side or the left side of the working direction of downstream feedway.

Described upstream processing unit (plant) is noodle cutter, and described downstream process units is wrapping machine.

When the vermicelli that vermicelli of the present invention change head unit advance on upstream feedway and feed end, its stub end is positioned at left side, when vermicelli are delivered on discharge end by material guide structure or guide passage or droping space, the two ends, left and right of vermicelli are not turned, but vermicelli are carried to the direction contrary with feed end by discharge end and downstream feedway, such vermicelli working direction changes, and then the stub end of vermicelli is just turned with working direction be the right side of benchmark, realize turning of stub end and little head end, the packaging of convenient wrapping machine below.

Accompanying drawing explanation

Fig. 1 is the front view that vermicelli of the present invention change the embodiment one of head unit;

Fig. 2 is the left view of Fig. 1;

Fig. 3 is the principle schematic that vermicelli of the present invention change the embodiment two of head unit;

Fig. 4 is the principle schematic that vermicelli of the present invention change the embodiment three of head unit;

Fig. 5 is the principle schematic that vermicelli of the present invention change the embodiment four of head unit.

Detailed description of the invention

The embodiment one of vermicelli travel line of the present invention: comprise the upstream feedway and the downstream feedway being connected downstream process units and wrapping machine that connect upstream processing unit (plant) and noodle cutter, the stub end of the vermicelli that noodle cutter is sent is positioned at the left side of the working direction of upstream feedway, the stub end of the vermicelli that wrapping machine receives is positioned at the right side of the working direction of downstream feedway, and upstream feedway changes head unit transmission with downstream feedway by vermicelli and is communicated with.

Vermicelli change the structure of head unit as shown in Figure 1-2, comprise frame 1, and frame 1 is provided with feed end 10, and feed end 10 is for docking with upstream feedway and receiving the vermicelli that upstream feedway sends here; Frame is also provided with discharge end 11, and discharge end 11 is for docking with downstream feedway and the vermicelli received from upstream feedway being delivered to downstream feedway; The material guide structure keeping the two ends, left and right of vermicelli not turn when vermicelli are delivered to discharge end by feed end is also provided with between feed end 10 and discharge end 11.Wherein, feed end 10 is positioned on the upside of discharge end 11, and vermicelli throughput direction on feed end 10 is contrary with the vermicelli throughput direction on discharge end 11.

For the ease of following explanation, the throughput direction of setting vermicelli is always front, and namely the outlet of feed end 10 is positioned at front, and the import of discharge end 11 is positioned at rear.

Material guide structure comprises the sliding surface plate 100 of the front end exit position being located at feed end 10, and sliding surface plate 100 is downward-sloping setting gradually from back to front, also comprises for receiving the vermicelli slided from sliding surface plate 100 and the feed mechanism delivered to by vermicelli on discharge end 11.Particularly, the feed mechanism in the present embodiment comprises opening up junction groove and drives the front and back reciprocating drive mechanism of junction groove front-rear reciprocation movement.Junction groove is located at the lower position of the front end exit of feed end 10, and the lower end of sliding surface plate 100 is stretched in junction groove, and junction groove is made up of front side cell wall 103, rear side cell wall 101 and bottom land.Wherein, the rear side cell wall 101 of junction groove is positioned at the rear of sliding surface plate 100, and front side cell wall 103 is positioned at the entrance location of discharge end 11; On rear side of junction groove, the height of cell wall 101 is greater than the height of front side cell wall 103, and rear side cell wall 101 can carry out block to from the vermicelli of landing on sliding surface plate 100, avoids vermicelli to fall outside junction groove; Front side cell wall 103 is due to highly lower, between the downside of its upper surface and feed end 10, there is certain space, this part space defines an opening, and this opening is the junction groove outlet when junction groove front-rear reciprocation movement, vermicelli wherein shaked out from junction groove to fall on discharge end 11.The lower end of sliding surface plate 100 and the distance between the rear side cell wall 101 of junction groove and swash plate 102 all less and be not more than the length of vermicelli, the process falling into junction groove at vermicelli by sliding surface plate 100 does not like this have enough spaces to allow the two ends of vermicelli turn.

Front and back reciprocating drive mechanism comprises the drive motor 2 and the mouth of the drive motor 2 that is in transmission connection and the slider-crank mechanism of junction groove be located in frame, and the mouth that this slider-crank mechanism exports tandem motion is connected on the bottom land of junction groove.As shown in Figure 2, the mouth Eccentric-hinge of drive motor 2 is connected to connecting rod 105, and the other end of connecting rod 105 is hinged with slip axle clamp 106, on the slideway 107 extended before and after slip axle clamp 106 guiding movement is assemblied in.The bottom land of junction groove comprises the swash plate 102 and horizontal plate 104 that link together, the rear end of swash plate 102 is connected to the lower end of rear side cell wall 101, the front end of swash plate 102 is downward-sloping and connect horizontal plate 104, the front end of horizontal plate 104 connects front side cell wall 103, and the upper end of slip axle clamp 106 is connected on the downside of horizontal plate 104.

When junction groove moves forward and backward and moves back and forth under the driving effect of front and back reciprocating drive mechanism, rear side cell wall 101 push and block can be arranged in the vermicelli of junction groove repeatedly, and can make vermicelli in push and block process repeatedly gradually with throughput direction vertical alignment, vermicelli can be made to shake out forward from the outlet of junction groove by continuous front and back push and block simultaneously, from the outlet of junction groove, the vermicelli shaking off out have just been fallen on discharge end 11 like this, and are seen off by the downstream feedway that discharge end 11 transmits connection.

The principle of work that vermicelli of the present invention change head unit is as follows: the working direction first defining vermicelli is benchmark, and when vermicelli advance on upstream feedway and feed end, its stub end is positioned at left side; Vermicelli fall into junction groove by sliding surface plate 100 and are pushed on discharge end 11 by junction groove is reverse, vermicelli are carried to the direction contrary with feed end by discharge end 11 and downstream feedway, now working direction change and the two ends of vermicelli are not turned, so the stub end of vermicelli is just turned with working direction is the right side of benchmark, realize turning of stub end and little head end, the packaging of convenient wrapping machine below.

In addition, vermicelli of the present invention change on head unit and are also provided with for carrying out the neat neat device of bat of bat to the two ends, left and right of vermicelli.As shown in Figure 1, clap neat device and comprise the face plate 126 being located at junction groove arranged on left and right sides, the left and right reciprocating drive mechanism that the face plate of arranged on left and right sides exports left and right directions linear reciprocating motion by being in transmission connection realizes the linear reciprocating motion in relative and opposing direction, fall in the process of junction groove at vermicelli from sliding surface plate 100 like this, relative and the opposing crank motion of two face plates 126 constantly can pat the two ends, left and right of vermicelli to make vermicelli justify align, further increase the neat effect of vermicelli, improve the packaging quality of vermicelli.

Left and right reciprocating drive mechanism comprises the transmission device of engine installation and connecting power device and face plate.In the present embodiment, in order to save manufacturing cost, engine installation is drive motor 2, and namely face plate and junction groove share an engine installation.Transmission device comprises main gear roller bearing 1201 and two cover time transmission devices of main gear roller bearing 1201 and left and right two the face plates 126 that are in transmission connection, main gear roller bearing 1201 is provided with power wheel 120, and power wheel 120 is in transmission connection by driving band with the mouth of drive motor 2.The corresponding both sides of junction groove are all stretched out at the two ends, left and right of main gear roller bearing 1201, and two cover time transmission devices are in transmission connection respectively at the two ends of main gear roller bearing 1201 and are symmetrical arranged.Secondary transmission device comprises the transition wheel 1200 be located on roller bearing 1201, and on transition wheel 1200, Eccentric-hinge is connected to screw mandrel 121, and the upper end swivel coupling of screw mandrel 121 is on cam 122, and the pivot axis that cam 122 extends around front and back is assemblied in frame 1; The upside of cam 122 is provided with the U-type groove 1220 of front and back extension, and the bearing pin 123 extended before and after being fitted with in U-type groove 1220, frame 1 is also provided with the pilot bar 125 of left and right extension, bearing pin 123 coordinates with pilot bar 125 guiding movement at left and right directions.When drive motor 2 drives main gear roller bearing 1201 to rotate, the axis that ferry boat 1200 walked around by screw mandrel 121 rotates and is with moving cam 122 around its axis oscillating, and the bearing pin 123 in the U-type groove 1220 of cam 122 just moves back and forth along pilot bar about 125 with the swing of cam 122.Bearing pin 123 upper end is connected with connecting arm 124, and connecting arm about 124 extends and is being fixedly connected with corresponding face plate 126 near junction groove one end, and axially the crank motion of 123 just drives face plate 126 crank motion.

As shown in Figure 2, frame 1 is also being provided with catch face sheet 110 in the front side of junction groove outlet, and catch face sheet 110 is arranged with front side cell wall 103 time interval of junction groove, and spacing distance is setpoint distance.Can control the amount of the vermicelli shaked out from the outlet of junction groove by arranging this setpoint distance, the vermicelli amount namely shaked out from junction groove in the unit time is the amount of the vermicelli filled up between catch face sheet 110 and front side cell wall 103, realizes evenly carrying.The lower end of catch face sheet 110 is the arcuate structure of forward fold, can be floating by the vermicelli upper end flowed out to from the space between catch face sheet 110 and front side cell wall 103 on discharge end 11 by this arcuate structure, time discharge end 11 and downstream feedway on vermicelli high uniformity.Preferably, cause junction groove outlet obstruction in the space that a large amount of vermicelli enter between catch face sheet 110 and front side cell wall 102 within certain time period, the upper end of catch face sheet 110 is hinged in frame 1 by the axis that hinged block 111 extends in left-right direction, hinged block 111 being also connected with the extension spring 112 being supplied to catch face sheet 110 and rotating towards junction groove Way out and clockwise direction, frame 1 being also provided with the Stop structure that can only turn to vertical position for limiting catch face sheet 110 when rotating to junction groove Way out.When entering within a large amount of vermicelli short time like this in the space between catch face sheet 110 and front side cell wall 102, catch face sheet 110 can be overworked to be promoted and rotates counterclockwise, and plays certain buffer action.

It is simple that vermicelli in vermicelli travel line of the present invention change head unit structure, easy to use, by the course of conveying of turning back that once drops in course of conveying to vermicelli, the pipe reducer made be transposed to working direction be benchmark not homonymy on, achieve the achieving automatic head replacement of vermicelli easily, overcome and manually change a labour intensity greatly, the problem of packaging quality difference.In addition, these vermicelli to be changed on head unit and also to be changed at vermicelli by aligning apparatus that to carry out bat to vermicelli in a process neat, further increase packaging quality.

In above-described embodiment, material guide structure comprises sliding surface plate and feed mechanism, and in other embodiments, material guide structure can only include sliding surface plate, now the rear end of discharge end extended distance backward exceeds sliding surface plate, can directly fall on discharge end like this at the vermicelli from landing on sliding surface plate, or sliding surface plate can be replaced by U-shaped chute, the both sides cell wall of U-shaped chute is used for making vermicelli justify align and turning about avoiding vermicelli, or material guide structure can comprise sliding surface plate and be located at junction plate contrary with sliding surface plate direction of tilt on the downside of sliding surface plate, and the vermicelli from sliding surface plate under landing can be held by junction plate, and be slipped on discharge end towards the direction of turning back, or material guide structure can comprise two U-shaped guiding grooves that left and right is oppositely arranged, guiding groove in the longitudinal direction arc extends, the left and right sides that the upper end of two guiding grooves exports with feed end is respectively connected, the lower end of two guiding grooves is connected with the left and right sides of discharge end import respectively, the notch of two guiding grooves is relative, such vermicelli are when entering in guiding groove from feed end outlet, arc cell wall in two U-shaped guiding grooves that both sides can be slipped in the two ends, left and right of vermicelli and with guiding groove slides into downwards on discharge end, the cell wall of U-shaped guiding groove keeps the two ends, left and right of vermicelli not turn.

In above-described embodiment, vermicelli rely on self gravitation to fall discharge end from feed end, in other embodiments, material guide structure can for being inclined at the feedway between feed end and discharge end, the upper end of feedway is positioned at the segment distance position, front side one of feed end, can accept feed end and export the vermicelli of dishing out, lower end and the discharge end of feedway transmit and are communicated with and vermicelli can be delivered on discharge end.

In above-described embodiment, sliding surface plate is dull and stereotyped, and sliding surface plate also can be arc in other embodiments.

In above-described embodiment, material guide structure comprises sliding surface plate and feed mechanism, in other embodiments, only can arrange sliding surface plate or only arrange feed mechanism.

In above-described embodiment, feed mechanism comprises junction groove and drives the front and back reciprocating drive mechanism moved back and forth before and after junction groove, in other embodiments, feed mechanism can comprise the horizontal splicing groove that is fixedly installed and be located at the push pedal moving back and forth setting before and after in horizontal splicing groove, push pedal is driven by cylinder or cam follower mechanism, the front end of horizontal splicing groove is docked with discharge end, and be slipped on horizontal splicing groove at vermicelli from sliding surface plate, vermicelli can be shifted onto on discharge end by push pedal; Or feed mechanism can for the feedway be obliquely installed, and the upper end of feedway is docked with feed end, lower end is positioned at certain distance position above discharge end, and vermicelli are directly slipped on the discharge end of below from feedway.

In above-described embodiment, front and back reciprocating drive mechanism comprises drive motor and slider-crank mechanism, and in other embodiments, crank block structure can adopt the pinion and rack or the replacement of cam follower mechanism that export the movement of fore-and-aft direction linear reciprocation; Or front and back reciprocating drive mechanism can adopt and drive cylinder to replace.

In above-described embodiment, left and right reciprocating drive mechanism comprises the drive motor and secondary transmission device that share with front and back reciprocating drive mechanism, in other embodiments, left and right reciprocating drive mechanism can comprise the auxiliary drive motor arranged in addition, and auxiliary drive motor drives face plate crank motion by exporting left and right directions linear reciprocating motion slider-crank mechanism or pinion and rack or cam follower mechanism; Or left and right reciprocating drive mechanism can be about two cylinders extended, and face plate is connected on the mouth of cylinder.

In above-described embodiment, upstream feedway is noodle cutter, and downstream feedway is wrapping machine, and in other thing embodiments, upstream feedway and downstream feedway can be the equipment of other processing vermicelli, will not enumerate herein.

The above embodiments mainly provide the embodiment being provided with the material guide structure keeping the two ends, left and right of vermicelli not turn when carrying vermicelli between feed end and discharge end, namely realize guide by the material guide structure C changed in head unit between upstream feedway A as shown in Figure 3 and downstream feedway B, this material guide structure C is the structure do not closed of surrounding in the horizontal direction, differently, in the embodiment two of vermicelli travel line, vermicelli change head unit between feed end and discharge end, are provided with the guide passage keeping the two ends, left and right of vermicelli not turn when carrying vermicelli, as shown in Figure 4, this guide passage mainly refers to the passage of all round closure in the horizontal direction, as connected the square tube of C type between feed end and discharge end, the upper end open of C type square tube is docked with feed end, lower end outlet is docked with discharge end, the arc-shaped inner surface of vermicelli along square tube in C type square tube is slipped to discharge end, the tube wall of C type square tube is not turned for keeping the two ends, left and right of vermicelli, now the endoporus of C type square tube also can think guide passage described herein, or when adopting receiving hopper D to carry out splicing as shown in Figure 3, the central space that the sidewall of receiving hopper D surrounds is guide passage, have differently again, in the embodiment three of vermicelli travel line, vermicelli change head unit between feed end and discharge end, are provided with the droping space keeping the two ends, left and right of vermicelli not turn when carrying vermicelli, as shown in Figure 5, this droping space mainly refers to open space, the space E that falls for vermicelli free falling namely formed between feed end and discharge end, vermicelli are inertially dished out forward and are dropped on the feedway B of downstream in the effect of deadweight under the carrying capacity effect of upstream feedway A.

In above-described embodiment, the stub end of the vermicelli that upstream processing unit (plant) is sent is positioned at the left side of the working direction of upstream feedway, the stub end of the vermicelli that downstream process units receives is positioned at the right side of the working direction of downstream feedway, certainly in other embodiments, the stub end of the vermicelli that upstream processing unit (plant) is sent is positioned at the right side of the working direction of upstream feedway, the stub end of the vermicelli that downstream process units receives is positioned at the left side of the working direction of downstream feedway, and arranged on left and right sides is herein relative.

In above-described embodiment, the feed end that vermicelli change head unit is all positioned at the upside of discharge end, vermicelli are fallen downwards by gravity, in other embodiments, feed end can be positioned at the downside of discharging section, vermicelli can be made to pile up the temporary space that gathers materials as feed end tilts to extend from the bottom up and is provided with at feed end exit position place, between feed end and discharge end, scraper lifting machine is set and vermicelli temporary in the space that gathers materials upwards are risen on discharging section, but this complicated structure, manufacturing cost is higher.

Vermicelli of the present invention change the embodiment of head unit: it is identical that its concrete structure and the vermicelli in the embodiment of above-mentioned vermicelli travel line change head unit structure, repeats no more herein.

Claims

1. vermicelli change head unit, it is characterized in that, comprise frame, frame be provided with for upstream feedway transmit be communicated with feed end, for transmitting with downstream feedway the discharge end be communicated with, and be located at the material guide structure or guide passage or droping space do not turned at two ends, left and right between feed end and discharge end, the maintenance vermicelli when carrying vermicelli, feed end and discharge end are arranged up and down, and the vermicelli throughput direction on feed end is contrary with the vermicelli throughput direction on discharge end.

2. vermicelli according to claim 1 change head unit, it is characterized in that, described material guide structure comprises is located at feed end back outlet position, sliding surface plate downward-sloping gradually from front to back, also comprises the vermicelli the feed mechanism delivered to by vermicelli on discharge end that receive landing on sliding surface plate.

3. vermicelli according to claim 2 change head unit, it is characterized in that, described feed mechanism comprises opening up junction groove and drives the front and back reciprocating drive mechanism of junction groove front-rear reciprocation movement, the rear side cell wall height of junction groove is greater than front side cell wall, when the space on front side of junction groove between the upper end of cell wall and feed end downside is formed in junction groove front-rear reciprocation movement, vermicelli is shaked out from junction groove to fall the junction groove outlet on discharge end.

4. vermicelli according to claim 3 change head unit, it is characterized in that, frame is also provided with face plate in the arranged on left and right sides of junction groove, and the linear reciprocating motion of left and right reciprocating drive mechanism realization in relative and opposing direction that the face plate of arranged on left and right sides exports left and right directions linear reciprocating motion by being in transmission connection is clapped neat falling to the two ends, vermicelli left and right of junction groove.

5. a vermicelli travel line, it is characterized in that, comprise upstream feedway and downstream feedway, change head unit transmission by vermicelli between upstream and downstream feedway to be communicated with, described vermicelli change head unit and comprise frame, frame is provided with transmits with upstream feedway the feed end be communicated with, the discharge end be communicated with is transmitted with downstream feedway, and be located between feed end and discharge end, the material guide structure keeping the two ends, left and right of vermicelli not turn when carrying vermicelli or guide passage or droping space, feed end and discharge end are arranged up and down, vermicelli throughput direction on feed end is contrary with the vermicelli throughput direction on discharge end.

6. vermicelli travel line according to claim 5, it is characterized in that, described material guide structure comprises is located at feed end back outlet position, sliding surface plate downward-sloping gradually from front to back, also comprises the vermicelli the pusher be pushed to by vermicelli on discharge end that receive landing on sliding surface plate.

7. vermicelli travel line according to claim 6, it is characterized in that, described feed mechanism comprises opening up junction groove and drives the front and back reciprocating drive mechanism of junction groove front-rear reciprocation movement, the rear side cell wall height of junction groove is greater than front side cell wall, when the space on front side of junction groove between the upper end of cell wall and feed end downside is formed in junction groove front-rear reciprocation movement, vermicelli is shaked out from junction groove to fall the junction groove outlet on discharge end.

8. vermicelli travel line according to claim 7, it is characterized in that, frame is also provided with face plate in the arranged on left and right sides of junction groove, and the linear reciprocating motion of left and right reciprocating drive mechanism realization in relative and opposing direction that the face plate of arranged on left and right sides exports left and right directions linear reciprocating motion by being in transmission connection is clapped neat falling to the two ends, vermicelli left and right of junction groove.

9. the vermicelli travel line according to claim 5-8 any one, it is characterized in that, described vermicelli travel line also comprises the upstream processing unit (plant) be connected with upstream feedway and the downstream process units be connected with downstream feedway, the stub end of the vermicelli that described upstream processing unit (plant) is sent is positioned at left side or the right side of the working direction of upstream feedway, and the stub end of the vermicelli that described downstream process units receives is positioned at right side or the left side of the working direction of downstream feedway.

10. vermicelli travel line according to claim 9, is characterized in that, described upstream processing unit (plant) is noodle cutter, and described downstream process units is wrapping machine.