阅读说明：本技术 一种粉条加工系统及方法 (Vermicelli processing system and method ) 是由 耿平 于 2021-07-10 设计创作，主要内容包括：本发明涉及粉条加工领域,特别是涉及一种粉条加工系统及方法,该方法包括以下步骤：步骤一、将湿淀粉和粉芡混和,搅拌得到软粉团；步骤二、将软粉团导入漏粉机构,由漏粉机构漏粉至热箱的热水内的承托机构上,加热至适当时间；步骤三、由移动动力机构传动承托机构携带粉条移动至冷箱内进行冷却,再入酸浆中浸泡,清洗后再进行晾晒,干燥均匀后得到粉条；该加工系统包括水箱、隔板、滑道、移动动力机构、漏粉机构和承托机构,水箱的中部设有使水箱分为冷箱和热箱的隔板,所述热箱内设有加热板,滑道前后方向贯穿水箱侧板,水箱的上端连接有移动动力机构,漏粉机构滑动连接在两个滑道内且与移动动力机构滑动连接,漏粉机构的下端连接有承托机构。(The invention relates to the field of vermicelli processing, in particular to a vermicelli processing system and a method, wherein the method comprises the following steps: step one, mixing wet starch and starch paste, and stirring to obtain soft dough; secondly, guiding the soft powder dough into a powder leaking mechanism, leaking powder from the powder leaking mechanism onto a supporting mechanism in hot water of a hot box, and heating for a proper time; thirdly, the bearing mechanism is driven by a moving power mechanism to carry the vermicelli to move to a cold box for cooling, then the vermicelli is soaked in the acid pulp, and then the vermicelli is aired after being cleaned and dried uniformly to obtain the vermicelli; this system of processing includes water tank, baffle, slide, mobile power mechanism, leaks whitewashed mechanism and bearing mechanism, and the middle part of water tank is equipped with the baffle that makes the water tank divide into cold box and hot box, the hot incasement is equipped with the hot plate, and the water tank curb plate is run through to the slide fore-and-aft direction, and the upper end of water tank is connected with mobile power mechanism, leaks whitewashed mechanism sliding connection just with mobile power mechanism sliding connection in two slides, and the lower extreme that leaks whitewashed mechanism is connected with bearing mechanism.)

1. The utility model provides a vermicelli system of processing, includes water tank (101), baffle (102), slide (103), mobile power unit, leaks whitewashed mechanism and bearing mechanism, its characterized in that: baffle (102) set up and make water tank (101) divide into cold box and hot box at the middle part of water tank (101), the hot incasement is equipped with the hot plate, all is equipped with slide (103) on the curb plate around water tank (101), leak whitewashed mechanism sliding connection in two slides (103), removal power unit connect on water tank (101) and with leak whitewashed mechanism sliding connection, bearing mechanism connects the lower extreme at leaking whitewashed mechanism.

2. The vermicelli processing system of claim 1 wherein: the lower extreme of cold box with hot case all is equipped with the drain pipe.

3. The vermicelli processing system of claim 1 wherein: the moving power mechanism comprises a threaded rod (201) and a threaded sliding block (202), the threaded rod (201) is arranged in the left-right direction, the threaded rod (201) is rotatably connected with the upper end of the water tank (101), and the threaded sliding block (202) is in threaded connection with the threaded rod (201).

4. A vermicelli processing system according to claim 3 wherein: leak whitewashed mechanism including leaking whitewashed case (301), leak whitewashed hole (302), slip landing leg (303), connecting seat (304) and advance powder pipe (305), the lower extreme of leaking whitewashed case (301) transversely evenly is equipped with a plurality of holes (302) that leak whitewashed, the equal fixedly connected with slip landing leg (303) in both ends of leaking whitewashed case (301), connecting seat (304) fixed connection is in the upper end of leaking whitewashed case (301), it sets up at the middle part of leaking whitewashed case (301) to advance powder pipe (305), two slip landing legs (303) are sliding connection respectively in two slides (103), threaded slider (202) sliding connection is in connecting seat (304).

5. A vermicelli processing system according to claim 4 wherein: the supporting mechanism comprises a grid plate (401) and rotating shafts (403), the two ends of the grid plate (401) are fixedly connected with the rotating shafts (403), and the two rotating shafts (403) are respectively rotatably connected to the lower ends of the two sliding supporting legs (303).

6. A vermicelli processing system according to claim 5 wherein: the grid plate fixing device is characterized by further comprising a through hole (402), arc-shaped teeth (404) and a rotating frame (405), the through hole (402) is formed in the middle of the grid plate (401), the upper end of the rotating frame (405) is rotatably connected to the upper end of one sliding supporting leg (303), the arc-shaped teeth (404) are fixedly connected to the lower end of the rotating frame (405), and the arc-shaped teeth (404) are in meshing transmission connection with the rotating shaft (403) on the corresponding side.

7. A vermicelli processing system according to claim 4 wherein: the powder leakage box (301) is internally provided with a uniform distribution mechanism for uniformly distributing soft powder balls entering the powder leakage box (301).

8. A vermicelli processing system according to claim 4 wherein: still include dead pin axle (306) and shutdown mechanism, dead pin axle (306) fixed connection is in the side of leaking powder case (301), shutdown mechanism rotate connect on dead pin axle (306) and with leak the lower extreme sliding connection of powder case (301), shutdown mechanism is connected with sliding leg (303) of dead pin axle (306) corresponding side.

9. A vermicelli processing system according to claim 2 wherein: the hot box is characterized by further comprising a discharge hole (104) and a discharge mechanism, wherein the discharge hole (104) is formed in a side plate, far away from the hot box, of the cold box, the discharge mechanism is connected in the cold box in a sliding mode, and the discharge mechanism is connected with the threaded rod (201) in a sliding mode and fixedly connected with the threaded sliding block (202).

10. A method of processing using the vermicelli processing system of claim 1, wherein: the method comprises the following steps:

step one, mixing wet starch and starch paste, and stirring to obtain soft dough;

secondly, guiding the soft powder dough into a powder leaking mechanism, leaking powder from the powder leaking mechanism onto a supporting mechanism in hot water of a hot box, and heating for a proper time;

and step three, the bearing mechanism is driven by a moving power mechanism to carry the vermicelli to move to a cold box for cooling, then the vermicelli is soaked in the acid pulp, and then the vermicelli is aired after being cleaned and dried uniformly to obtain the vermicelli.

Technical Field

The invention relates to the field of vermicelli processing, in particular to a vermicelli processing system and method.

Background

Vermicelli is characterized in that sweet potatoes, potatoes and the like are used as raw materials, and the vermicelli is made into a special traditional food with the characteristics of drying in a strand silk shape after being ground, precipitated and processed. The production process is unique in every place of China, and the finished vermicelli is gray, yellow or yellow brown, and can be divided into round vermicelli, thin vermicelli, wide vermicelli and the like according to the shape. The vermicelli need heat earlier to the vermicelli that leaks the powder and spill in the course of working, and the recooling is coiled into the bundle and is gone into the wintercherry again and soak after cold, drags for and uses the clear water rinsing, but when cooling off after heating the vermicelli, mostly adopt the manual work to shift at present, shift the danger of inefficiency and take place the scald easily.

Disclosure of Invention

The invention aims to provide a vermicelli processing system and a vermicelli processing method, which can carry out automatic transfer when vermicelli is cooled after being heated, have high transfer efficiency and are not easy to cause the danger of scalding.

The purpose of the invention is realized by the following technical scheme:

the utility model provides a vermicelli system of processing, includes water tank, baffle, slide, mobile power unit, leaks whitewashed mechanism and bearing mechanism, and the middle part of water tank is equipped with the baffle that makes the water tank divide into cold box and hot box, the hot incasement is equipped with the hot plate, and the water tank curb plate is run through to the slide fore-and-aft direction, and the upper end of water tank is connected with mobile power unit, leaks whitewashed mechanism sliding connection in two slides and with mobile power unit sliding connection, and the lower extreme that leaks whitewashed mechanism is connected with bearing mechanism.

Furthermore, the lower ends of the cold box and the hot box are provided with drain pipes.

Furthermore, the moving power mechanism comprises a threaded rod and a threaded sliding block, the threaded rod is arranged in the left-right direction, the upper end of the water tank is rotatably connected with the threaded rod, and the threaded rod is connected with the threaded sliding block through threads.

Further, leak whitewashed mechanism including leaking whitewashed case, hourglass powder hole, sliding leg, connecting seat and advancing the powder pipe, sliding leg is equipped with two, and two sliding leg symmetry fixed connection are at the both ends of leaking whitewashed case, and the hourglass powder hole is equipped with a plurality ofly, and a plurality of hourglass powder holes transversely evenly set up at the lower extreme of leaking whitewashed case, leak the upper end fixedly connected with connecting seat of whitewashed case, and the middle part of leaking whitewashed case is equipped with into the powder pipe, and screw slider sliding connection is in the connecting seat.

Furthermore, the supporting mechanism comprises two grid plates and two rotating shafts, the two rotating shafts are rotatably connected to the two sliding support legs, and the grid plates are arranged between the two rotating shafts.

Furthermore, the vermicelli processing system further comprises a through hole, arc-shaped teeth and a rotating frame, the through hole is formed in the middle of the grid plate, the upper end of the rotating frame is rotatably connected to the upper end of one sliding supporting leg through a rotating shaft, the arc-shaped teeth are fixedly connected to the lower end of the rotating frame, and the arc-shaped teeth are in meshed transmission connection with the rotating shaft on the corresponding side.

Furthermore, the powder leakage box is internally provided with a uniform distribution mechanism for uniformly distributing the soft powder lumps entering the powder leakage box.

Further, a vermicelli system of processing still include fixed pin axle and shutdown mechanism, leak the side fixedly connected with fixed pin axle of powder case, rotate on the fixed pin axle and be connected with shutdown mechanism, shutdown mechanism and the lower extreme sliding connection who leaks the powder case, shutdown mechanism is connected with the slip landing leg of the corresponding side of fixed pin axle.

Furthermore, the vermicelli processing system also comprises a discharge hole and a discharge mechanism, wherein the discharge hole is arranged on a side plate of the cold box far away from the hot box, the discharge mechanism is connected in the cold box in a sliding manner, and the discharge mechanism is connected with the threaded rod in a sliding manner and is fixedly connected with the threaded sliding block.

The method for processing the vermicelli processing system comprises the following steps:

step one, mixing wet starch and starch paste, and stirring to obtain soft dough;

secondly, guiding the soft powder dough into a powder leaking mechanism, leaking powder from the powder leaking mechanism onto a supporting mechanism in hot water of a hot box, and heating for a proper time;

and step three, the bearing mechanism is driven by a moving power mechanism to carry the vermicelli to move to a cold box for cooling, then the vermicelli is soaked in the acid pulp, and then the vermicelli is aired after being cleaned and dried uniformly to obtain the vermicelli.

The invention has the beneficial effects that: the invention provides a vermicelli processing system and a vermicelli processing method, which can carry out automatic transfer when vermicelli is cooled after being heated, have high transfer efficiency and are not easy to cause the danger of scalding.

Drawings

FIG. 1 is a schematic view of an embodiment of the present invention for cooling by automated transfer after heating of noodles;

FIG. 2 is a schematic structural diagram of a mobile power mechanism, a powder leaking mechanism and a supporting mechanism according to the present invention;

FIG. 3 is a schematic view of the structure of the water tank of the present invention;

FIG. 4 is a first schematic structural diagram of a powder leaking mechanism according to the present invention;

FIG. 5 is a schematic structural diagram II of the powder leaking mechanism of the present invention;

FIG. 6 is a schematic view of the construction of the racking mechanism of the present invention;

FIG. 7 is a schematic structural view of the cutting mechanism of the present invention;

FIG. 8 is a schematic structural view of the equipartition mechanism of the present invention;

FIG. 9 is a schematic view of an embodiment of the vermicelli of the present invention discharged after cooling;

fig. 10 is a schematic view of the discharge mechanism of the present invention.

In the figure:

a water tank 101; a partition plate 102; a slide 103; an exhaust hole 104;

a threaded rod 201; a threaded slider 202;

a powder leakage box 301; a powder leakage hole 302; a sliding leg 303; a connecting base 304; a powder inlet pipe 305; a fixed pin 306;

a grid plate 401; a perforation 402; a rotating shaft 403; arcuate teeth 404; a turret 405;

an arc-shaped cutting plate 501; a rotating plate 502; an arc toothed plate 503; a control gear 504;

a uniform distribution shaft 601; uniformly distributing spiral plates 602;

a discharge swash plate 701; water leakage holes 702; a side panel 703; a slide hole 704; a slider 705; a spool 706; a spring 707.

Detailed Description

The following detailed description of the present invention will be made with reference to the accompanying drawings, but the present invention is not limited to the specific embodiments.

Referring to fig. 1-6, an embodiment of cooling by automatic transfer after heating vermicelli is described;

the utility model provides a vermicelli system of processing, includes water tank 101, baffle 102, slide 103, mobile power mechanism, leaks whitewashed mechanism and bearing mechanism, and the middle part of water tank 101 is equipped with the baffle 102 that makes water tank 101 divide into cold box and hot box, the hot incasement is equipped with the hot plate, and the water tank 101 curb plate is run through to slide 103 fore-and-aft direction, and the upper end of water tank 101 is connected with mobile power mechanism, leaks whitewashed mechanism sliding connection in two slides 103 and with mobile power mechanism sliding connection, and the lower extreme that leaks whitewashed mechanism is connected with bearing mechanism.

Firstly, adding a proper amount of water into a cold box and a hot box, heating through a heating plate in the hot box, then guiding soft dough into a powder leaking mechanism, leaking powder by the powder leaking mechanism to discharge vermicelli, dropping the vermicelli into hot water of the hot box under the action of self gravity, bearing the vermicelli falling into the hot water by a bearing mechanism, heating for a certain time in the hot water, driving the powder leaking mechanism to slide in a slide way 103 through a moving power mechanism, driving the bearing mechanism to slide along the slide way 103 by the powder leaking mechanism, supporting the vermicelli to cross a partition plate 102 to enter the cold box water through the bearing mechanism, cooling the vermicelli, fishing out the vermicelli, soaking the vermicelli in acid slurry, fishing out, rinsing with clear water, airing, and drying uniformly to obtain the vermicelli.

Referring to fig. 3, an embodiment of the water tank is explained;

the lower extreme of cold box with hot case all is equipped with the drain pipe.

Through the setting of drain pipe, with the log raft in cold box and the hot box discharge, change new water again, avoid not trading water for a long time, produce the adhesion when vermicelli heating and cooling.

With reference to fig. 3, an embodiment of the movement power mechanism will be described;

the moving power mechanism comprises a threaded rod 201 and a threaded sliding block 202, the threaded rod 201 is arranged in the left-right direction, the upper end of the water tank 101 is rotatably connected with the threaded rod 201, and the threaded rod 201 is connected with the threaded sliding block 202 through threads.

When the heated vermicelli is cooled, the threaded rod 201 is driven to rotate by the driving motor, and the threaded rod 201 drives the threaded slider 202 through the thread, so that the threaded slider 202 moves on the threaded rod 201 to drive the vermicelli leaking mechanism to slide in the slideway 103.

With reference to fig. 4 and 5, an embodiment of the powder leaking mechanism is explained;

leak whitewashed mechanism including leaking whitewashed case 301, leak whitewashed hole 302, sliding leg 303, connecting seat 304 and advancing powder pipe 305, sliding leg 303 is equipped with two, two sliding leg 303 symmetry fixed connection are at the both ends that leak whitewashed case 301, leak whitewashed hole 302 is equipped with a plurality ofly, a plurality of leak whitewashed holes 302 are horizontal evenly to be set up at the lower extreme that leaks whitewashed case 301, the upper end fixedly connected with connecting seat 304 that leaks whitewashed case 301, the middle part that leaks whitewashed case 301 is equipped with advances powder pipe 305, threaded slider 202 sliding connection is in connecting seat 304.

The soft powder dough is guided into the powder leakage box 301 through the powder inlet pipe 305, after the soft powder dough is filled in the powder leakage box 301 and forms a certain pressure, the soft powder dough in the powder leakage box 301 is extruded out through the plurality of powder leakage holes 302 to form powder leakage outlet strips, the powder leakage outlet strips fall into hot water in a hot box for heating, and the powder leakage outlet holes 302 are transversely and uniformly arranged at the lower end of the powder leakage box 301, so that the situation that the powder strips leaked from the powder leakage holes 302 are contacted and adhered to influence the quality of the powder strips is avoided, when the heated powder strips need to be cooled, the driving motor driving threaded rod 201 rotates the driving threaded slide block 202 to move on the threaded rod 201, then the connecting seat 304 is driven, the powder leakage box 301 drives the two sliding support legs 303 to slide in the two slide ways 103, when the two sliding support legs 303 slide in the two slide ways 103 to enable the powder leakage box 301 to rise and cross the partition plate 102, the connecting seat 304 and the threaded slide block 202 relatively, when the screw slider 202 drives the powder leakage box 301 to move, the influence of the lifting movement of the powder leakage box 301 is avoided.

An embodiment of the supporting mechanism will be described with reference to fig. 6;

further, the supporting mechanism comprises a grid plate 401 and two rotating shafts 403, the two rotating shafts 403 are arranged, the two sliding legs 303 are rotatably connected with the rotating shafts 403, and the grid plate 401 is arranged between the two rotating shafts 403.

The grid plate 401 is used for holding the vermicelli, and the grid plate 401 is connected to the sliding legs 303 through the rotating shafts 403, so that the grid plate 401 can move along with the vermicelli leaking box 301 through the sliding legs 303, and then the vermicelli on the grid plate 401 is cooled from hot water in the hot box, passes through the partition plate 102 and enters the cold box.

Referring to fig. 2 and 6, an embodiment of winding vermicelli is explained;

the vermicelli processing system further comprises a through hole 402, arc-shaped teeth 404 and a rotating frame 405, wherein the through hole 402 is arranged in the middle of the grid plate 401, the upper end of the rotating frame 405 is rotatably connected to the upper end of one sliding supporting leg 303 through a rotating shaft, the arc-shaped teeth 404 are fixedly connected to the lower end of the rotating frame 405, and the arc-shaped teeth 404 are in meshing transmission connection with the rotating shaft 403 on the corresponding side.

When powder leaks, the grid plate 401 is in a horizontal state, the vermicelli falls through the powder leakage hole 302 until the lowermost end of the vermicelli enters the hot water and passes through the through hole 402, then the driving motor is started, the rotating frame 405 is driven to rotate on the sliding support leg 303 by the speed reducer at the output end of the driving motor, the rotating frame 405 drives the rotating shaft 403 on the corresponding side to rotate through the arc-shaped teeth 404, then the grid plate 401 is driven to rotate by taking the rotating shaft 403 as an axis, so that the vermicelli is wound on the grid plate 401, after the grid plate 401 rotates 180 degrees, the rotation is stopped, the powder leakage is stopped at the same time, the finally falling vermicelli end automatically falls to the through hole 402, so that the vermicelli can be kept in a state of being wound on the grid plate 401 and heated in the hot water, after the heating is carried out for a proper time, the threaded slide block 202 is driven by the threaded rod 201 to drive the connecting base 304, so that the powder leakage box 301 drives the two sliding support legs 303 to slide in the two slide ways 103, when the two sliding support legs 303 slide in the two slide ways 103 to drive the grid plate 401 to ascend and cross the partition plate 102, after the vermicelli enters the cold water tank, the grid plate 401 simultaneously drives the vermicelli which is kept wound on the grid plate to enter the cold water tank for cooling, then the motor is driven to reversely rotate to drive the rotating frame 405 to reversely rotate for 180 degrees, so that the vermicelli which is kept wound on the grid plate 401 falls off from the grid plate 401 and completely falls into the cold water tank, the vermicelli leaking mechanism and the supporting mechanism are moved back to the original position by reversing the threaded rod 201, then the vermicelli is fished out and soaked in acid slurry, fished out and rinsed with clean water, then the vermicelli is aired, after the vermicelli is dried uniformly, the vermicelli is obtained, the adjacent two vermicelli are wound by the grid plate 401 to keep different interval states on the grid plate 401, and therefore the vermicelli is prevented from completely falling on the grid plate 401 and being adhered to each other; meanwhile, the grids on the grid plate 401 can effectively avoid carrying a large amount of water when the grids rotate, so that the vermicelli wound on the grids can be impacted, the vermicelli is contacted, and adhesion occurs.

With reference to fig. 4, 5 and 8, an embodiment of the equipartition mechanism is described;

the powder leakage box 301 is internally provided with a uniform distribution mechanism for uniformly distributing soft powder balls entering the powder leakage box 301.

The equipartition mechanism includes equipartition axle 601 and equipartition spiral plate 602, and equipartition axle 601 transversely rotates to be connected in leaking powder case 301, and equipartition spiral plate 602 is equipped with two, and the screw thread of two equipartition spiral plates 602 revolves to opposite, and two equipartition spiral plates 602 symmetry fixed connection are on cloth axle 601.

When soft powder lumps are guided into the powder leakage box 301 through the powder inlet pipe 305, the driving motor is started to drive the uniform distribution shaft 601 to drive the two uniform distribution spiral plates 602 to rotate, so that the soft powder lumps entering from the powder inlet pipe 305 are spirally pushed to two sides in the powder leakage box 301, the soft powder lumps are uniformly distributed in the powder leakage box 301, and the phenomena that the powder leakage holes 302 close to the powder inlet pipe 305 leak powder, the powder leakage holes 302 at other positions do not leak powder, or the powder leakage is segmented are avoided.

With reference to fig. 4, 5 and 7, an embodiment of the cutting mechanism is explained;

the vermicelli processing system further comprises a fixed pin shaft 306 and a cutting mechanism, the side end of the vermicelli leakage box 301 is fixedly connected with the fixed pin shaft 306, the fixed pin shaft 306 is rotatably connected with the cutting mechanism, the cutting mechanism is in sliding connection with the lower end of the vermicelli leakage box 301, and the cutting mechanism is connected with the sliding support leg 303 on the corresponding side of the fixed pin shaft 306.

The cutting mechanism comprises an arc-shaped cutting plate 501, a rotating plate 502, an arc-shaped tooth plate 503 and a control gear 504, the rotating plate 502 is fixedly connected to the side end of the arc-shaped cutting plate 501, an arc-shaped tooth plate 503 is arranged on the same side of the rotating plate 502, the rotating plate 502 is rotatably connected to a fixed pin shaft 306, the arc-shaped cutting plate 501 is slidably connected to the lower end of the powder leakage box 301, and the control gear 504 is rotatably connected to sliding support legs 303 on the corresponding sides and is in meshing transmission connection with the arc-shaped tooth plate 503.

In order to stop powder leakage after the powder leakage hole 302 rotates 180 degrees in time on the grid plate 401, the driving motor is started to drive the control gear 504 to rotate, the control gear 504 drives the arc toothed plate 503 to drive the arc cutting plate 501 to rotate on the fixed pin shaft 306 through the rotating plate 502, so that the arc cutting plate 501 is formed to rotate by taking the fixed pin shaft 306 as a shaft and is attached to the lower end of the powder leakage box 301, the vermicelli leaked from the powder leakage hole 302 is cut off, vermicelli with any length in a certain range can be obtained, for the vermicelli with different lengths, when the vermicelli is wound and supported by rotating the grid plate 401, the initial state of the grid plate 401 can be adjusted, the vermicelli is rotated by different angles according to the different lengths, the vermicelli is finally overlapped on the grid plate 401 without contact between two adjacent vermicelli, the heating state is kept, the heating is transferred to a cold box for cooling, the grid plate 401 is rotated, the vermicelli is separated from the grid plate 401.

With reference to fig. 9 and 10, an embodiment of the discharge mechanism is explained;

the vermicelli processing system further comprises a discharge hole 104 and a discharge mechanism, wherein the discharge hole 104 is arranged on a side plate of the cold box far away from the hot box, the discharge mechanism is connected in the cold box in a sliding manner, and the discharge mechanism is connected with the threaded rod 201 in a sliding manner and is fixedly connected with the threaded sliding block 202.

The discharging mechanism comprises a discharging inclined plate 701, water leakage holes 702, side plates 703, slide holes 704, a sliding block 705, sliding columns 706 and a spring 707, the discharging inclined plate 701 is arranged in a manner of inclining from high to low, the side plates 703 are fixedly connected to the front side and the rear side of the discharging inclined plate 701, the slide holes 704 are arranged on the two side plates 703, the discharging inclined plate 701 is connected to the cold box in a lifting sliding manner, the sliding block 705 is connected to the threaded rod 201 in a sliding manner, the sliding columns 706 are fixedly connected to the front end and the rear end of the sliding block 705, the two sliding columns 706 are respectively connected to the two slide holes 704 in a sliding manner, the spring 707 is sleeved on the threaded rod 201, and the two ends of the spring 707 are respectively.

Through the fixed connection of the two ends of the spring 707 with the slide block 705 and the threaded slide block 202, when the device leaks powder, the threaded slide block 202 is located at the upper end of the hot box along with the powder leaking box 301, at this time, the spring 707 is in a stretched state, the slide block 705 is pulled to move towards the threaded slide block 202, so that the slide column 706 is located at the side of the slide hole 704 far from the discharge hole 104, at this time, the discharge inclined plate 701 is located at the highest position in the cold box, at the same time, the lowest end of the discharge inclined plate 701 is communicated with the discharge hole 104, when the device cools, the threaded slide block 202 is located at the upper end of the cold box along with the powder leaking box 301, at this time, the spring 707 is in a compressed state, the slide block 705 is pushed away from the threaded slide block 202, so that the slide column 706 is located at the side of the discharge hole 704 close to the discharge hole 104, at this time, after the powder strips are separated from the grid plate 401, the slide block 701 falls onto the slide block 202, the powder leaking box 301 is driven to slide back by the threaded slide block 202, and the spring 707 is changed from a compressed state to a stretched state, the sliding column 706 slides in the sliding hole 704, so that the discharging inclined plate 701 rises in the cold box until the sliding column 706 slides to the lowest position of the sliding hole 704, the discharging inclined plate 701 stops rising, the vermicelli thereon automatically slides downwards along the inclined surface and slides out of the device through the discharging hole 104, and then is collected in a centralized way, and the water leakage holes 702 on the discharging inclined plate 701 are used for water to pass when the discharging inclined plate 701 rises or descends.

The method for processing the vermicelli processing system comprises the following steps:

step one, mixing wet starch and starch paste, and stirring to obtain soft dough;

secondly, guiding the soft powder dough into a powder leaking mechanism, leaking powder from the powder leaking mechanism onto a supporting mechanism in hot water of a hot box, and heating for a proper time;

and step three, the bearing mechanism is driven by a moving power mechanism to carry the vermicelli to move to a cold box for cooling, then the vermicelli is soaked in the acid pulp, and then the vermicelli is aired after being cleaned and dried uniformly to obtain the vermicelli.