CN209965169U - Slurry temporary storage mechanism and steamed vermicelli roll manufacturing device - Google Patents

Abstract

The utility model discloses a thick liquid temporary storage mechanism for steamed vermicelli roll mechanism that evaporates, steamed vermicelli roll mechanism that evaporates includes base and conveying strap, thick liquid temporary storage mechanism includes the thick liquid hopper, the bottom of thick liquid hopper is equipped with the liquid outlet, be connected with the sealing member inside slidable of thick liquid hopper, the thick liquid hopper is located the feed end of the upper band section of conveying strap, the sealing member can remove to stopping up the liquid outlet, so that the liquid outlet forms the liquid seal, the sealing member can remove in the liquid outlet, so that the liquid outlet is opened. The slurry hopper of the slurry temporary storage mechanism is of an open structure, and the slurry temporary storage mechanism is simple in structure, easy to manufacture and convenient to clean.

Description

Slurry temporary storage mechanism and steamed vermicelli roll manufacturing device

Technical Field

The utility model relates to a thick liquid temporary storage mechanism and steamed vermicelli roll making devices.

Background

The steamed vermicelli roll machine in the prior art adopts a structure as in Chinese patent 201210482625.7, see paragraph [ 0036 ] of the patent specification, the steamed vermicelli roll machine in the field of food processing provided by the invention comprises a material feeding device 1 for pouring materials, wherein the material feeding device 1 comprises a material feeding hole 11, a pressure cavity 13 and a material discharging seam 16, the materials enter the material feeding device from the material feeding hole 11, the materials are evenly spread by the pressure cavity 13 of the material feeding device and then poured on a conveyor belt 8 through the material discharging seam 16, the conveyor belt 8 conveys the materials into a steaming bin 4, after the materials are steamed, the conveyor belt 8 conveys the steamed vermicelli roll out of the steaming bin 4, and the steamed vermicelli roll shaft 7 automatically rolls up the steamed vermicelli roll for containing and eating. The conventional rice noodle roll machine needs a feeder to pour the slurry onto the conveyor belt 8, however, the feeder has a complicated structure (see fig. 3 of the patent), is difficult to process and manufacture, and has a narrow gap inside, which is difficult to clean.

Disclosure of Invention

In order to overcome the defects of the prior art, one of the purposes of the utility model is to provide a slurry temporary storage mechanism, which can pour slurry onto a conveyor belt and has simple structure and easy cleaning. A second object of the utility model is to provide a steamed vermicelli roll making devices, it can be with the thick liquids pouring to the conveyer belt on to, its thick liquids temporary storage mechanism's simple structure easily washs.

The purpose of the utility model is realized by adopting the following technical scheme:

slurry temporary storage mechanism for steamed vermicelli roll system constructs, steamed vermicelli roll system constructs including base and conveying strap, slurry temporary storage mechanism includes the slurry hopper, the bottom of slurry hopper is equipped with the liquid outlet, the inside slidable ground of slurry hopper is connected with the sealing member, the slurry hopper is located the feed end of the upper band section of conveying strap, the sealing member can remove to stopping up the liquid outlet, so that the liquid outlet forms the liquid seal, the sealing member can remove from the liquid outlet, so that the liquid outlet is opened.

Specifically, the cross section of thick liquid hopper is "V" font, the opening of thick liquid hopper is up, the liquid outlet is the liquid gap, the sealing member is the liquid seal slide, the bottom side edge of liquid seal slide can block up the liquid gap.

Specifically, electromagnets are arranged at two ends of the slurry hopper, a sliding rod penetrates through the electromagnets in a sliding manner, the upper end and the lower end of the sliding rod are exposed out of the electromagnets, the upper end of the sliding rod is fixedly connected with the liquid seal sliding plate, a metal block is arranged at the lower end of the sliding rod, a compression spring is sleeved on the lower section of the sliding rod, two ends of the compression spring respectively abut against the metal block and the electromagnets, when the electromagnets are not powered on, the sliding rod is in a lower extreme position under the action of the elastic force of the compression spring, so that the liquid seal sliding plate keeps blocking the liquid outlet seam, and when the electromagnets are powered on, the electromagnets form magnetic attraction force on the metal block to enable the sliding rod to move upwards, so that the liquid seal sliding plate is moved away from the liquid outlet seam.

Specifically, the two ends of the liquid seal sliding plate are provided with connecting sheets, the connecting sheets transversely extend out of the side wall of the slurry hopper, and the connecting sheets are fixedly connected with the upper end of the sliding rod.

Specifically, a partition plate is arranged in the slurry hopper, the inner cavity of the slurry hopper is divided into a slurry cavity and an egg liquid cavity by the partition plate, a slurry liquid outlet seam is formed in the bottom of the slurry cavity, an egg liquid outlet seam is formed in the bottom of the egg liquid cavity, the liquid seal sliding plate is slidably arranged in the slurry cavity, and the slurry liquid outlet seam can be blocked by the liquid seal sliding plate.

Specifically, the cross section of the bottom edge of the liquid seal sliding plate is in a downward convex arc shape.

The egg liquid guide groove is used for receiving egg liquid, the liquid outlet end of the egg liquid guide groove is arranged in the egg liquid cavity, and the egg liquid guide groove is inclined downwards along the liquid flow direction of the egg liquid guide groove.

Specifically, state egg liquid guiding gutter and rotationally be equipped with the carousel of beating eggs, the lateral wall of the carousel of beating eggs is equipped with the stirring piece, the stirring piece encircles the lateral wall of the carousel of beating eggs and establishes, the stirring piece is upper and lower reciprocal corrugate, the egg liquid guiding gutter is equipped with the motor of beating eggs, the axis of rotation of the motor of beating eggs with the carousel of beating eggs is connected, the motor of beating eggs is used for the drive the motor of beating eggs rotates.

Specifically, the liquid seal slide rigid coupling has egg liquid to keep off the brake lining, egg liquid keeps off the brake lining than the carousel of beating eggs is closer to in go out the liquid end, egg liquid keeps off the brake lining with the inner wall adaptation of egg liquid guiding gutter, works as the liquid seal slide blocks up when powder thick liquid goes out the liquid seam, egg liquid keeps off the brake lining shutoff the egg liquid guiding gutter, works as the liquid seal slide moves away from upwards when powder thick liquid goes out the liquid seam, egg liquid keeps off the brake lining and moves away from upwards the egg liquid guiding gutter makes the egg liquid guiding gutter switch on.

The steamed vermicelli roll steaming mechanism comprises the slurry temporary storage mechanism.

Compared with the prior art, the beneficial effects of the utility model reside in that:

the inside slidable of thick liquid hopper is connected with the sealing, and thick liquid hopper is located the feed end of the upper band section of conveying strap, and the sealing can move to and block up the liquid outlet to make the liquid outlet form liquid seal. The sealing piece can move away from the liquid outlet so as to open the liquid outlet. In thick liquid temporary storage mechanism use, the sealing member removes earlier to stopping up the liquid outlet, can add thick liquid toward thick liquid hopper this moment, makes the inside thick liquid accumulation of thick liquid hopper certain height, then, the sealing member shifts up to make the liquid outlet open, and the thick liquid that the thick liquid hopper stored flows through the sealing member. Because a certain amount of slurry is temporarily stored in the slurry hopper, after the liquid outlet is opened, the slurry flows out gradually, and because the upper belt section of the conveying cloth belt moves previously, the slurry flowing to the upper belt section is in a strip shape. The strip-shaped slurry is steamed into sheet jelly at the subsequent ring section. The slurry hopper of the slurry temporary storage mechanism is of an open structure, and the slurry temporary storage mechanism is simple in structure, easy to manufacture and convenient to clean.

Drawings

FIG. 1 is a view showing a state where a steamed vermicelli roll preparing apparatus and a steam generating apparatus are combined;

FIG. 2 is a view showing a combination state of the steamed vermicelli roll preparing device, the steam generating device and the egg liquid output mechanism;

FIG. 3 is a view showing a state where the steamed vermicelli roll preparing apparatus and the steam generating apparatus are combined;

FIG. 4 is a perspective view of the steamed vermicelli roll manufacturing device;

FIG. 5 is a partially exploded view of the steamed vermicelli roll forming apparatus;

FIG. 6 is a sectional view of the steamed vermicelli roll manufacturing device;

FIG. 7 is a view, partly in section, taken at A in FIG. 6;

FIG. 8 is another cutaway view of the device for making steamed vermicelli roll;

FIG. 9 is an enlarged partial view taken at B in FIG. 8;

FIG. 10 is an exploded view of the slurry staging mechanism;

FIG. 11 is a view showing the combination of the steamed vermicelli roll preparing device and the egg liquid output mechanism;

FIG. 12 is a partial exploded view of the breading unit;

FIG. 13 is a cut-away view of a meat piece feeding unit and a non-meat piece feeding unit;

FIG. 14 is an exploded view of the meat slice feeding unit and the non-meat slice feeding unit;

FIG. 15 is a radial cross-sectional view of the meat slice discharge rotor;

FIG. 16 is an enlarged partial view at C of FIG. 8;

FIG. 17 is an enlarged partial view taken at D in FIG. 16;

FIG. 18 is a partial view of the steamed vermicelli roll forming apparatus;

FIG. 19 is another partial view of the breading unit;

FIG. 20 is another partial view of the breading unit;

FIG. 21 is a perspective view of the turntable;

figure 22 is a cross-sectional view of section E-E of figure 10 in an assembled state.

In the figure:

11. a housing; 111. an outer passage opening; 112. a main cover; 113. a sub-cover; 114. a feed inlet; 12. a rear roller; 13. a front roller; 14. conveying the cloth belt; 15. a steam line; 16. a sliding cover cylinder; 17. a cover plate; 18. a side plate; 181. mounting a rolling bearing on the roller; 182. an inner passage opening; 183. a cloth belt driving motor; 184. supporting the roller; 19. a steam generating device;

21. a slurry hopper; 211. an electromagnet; 212. a slide bar; 213. a partition plate; 214. a powder slurry chamber; 215. an egg liquid cavity; 216. slurry discharging from the liquid gap; 217. the egg liquid goes out of the liquid gap; 219. a metal block; 22. a liquid seal sliding plate; 222. egg liquid damper brake pads; 223. connecting sheets; 23. egg liquid diversion trenches; 231. a rotary egg-beating disc; 232. a stirring sheet; 233. a motor for beating eggs; 24. an egg liquid output mechanism; 25. a compression spring;

31. a guide hopper; 311. a discharge slot; 32. a meat slice feeding unit; 321. discharging the sliced meat and rotating the rod; 322. stirring the material sheet; 323. material surface sliding; 324. shoveling the material surface; 325. a material poking groove; 33. a non-meat slice feeding unit; 331. a non-meat slice discharging rotary rod; 332. accommodating grooves; 34. a storage bin; 341. discharging the material seam;

41. a position adjusting cylinder; 42. a turning and folding motor; 421. a motor mounting plate; 43. turning and folding the plate; 431. connecting columns; 432. an empty-avoiding inclined plane; 44. a guide slide rail; 45. a sliding seat; 46. scraping out silk strips;

51. a water receiving tank; 511. washing and brushing the motor; 512. extending the plate; 513. a limiting chute; 514. water outlet seams; 515. a drain pipe; 52. a lifting cylinder; 53. a water spraying cylinder; 531. a first water inlet; 54. a guide block; 55. a water spraying pipe; 551. a second water inlet.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that the embodiments or technical features described below can be arbitrarily combined to form a new embodiment without conflict.

Steamed vermicelli roll making device, including steamed vermicelli roll mechanism. Referring to fig. 4 and 5, the steamed rice roll mechanism includes a base and a cover 11, and the base is rotatably provided with a rear roller 12 and a front roller 13. The rear roller 12 and the front roller 13 are provided with a transfer cloth belt 14 (direction a in fig. 5 is a material transfer direction, and direction a is a front direction), and the rear roller 12 and the front roller 13 appropriately tension the transfer cloth belt 14. Either the rear roller 12 or the front roller 13 may be used to carry the transfer tape 14, i.e., one of the rear roller 12 and the front roller 13 serves as a driving roller and the other serves as a driven roller. As an alternative, the rear roller 12 and the front roller 13 jointly drive the transfer cloth belt 14, i.e. the rear roller 12 and the front roller 13 are both driving rollers, and the rotating speeds of the two rollers are consistent. The outer cover 11 covers the conveying cloth belt 14, an outer passage opening 111 is formed in the side wall of the outer cover 11, and the steam pipeline 15 can pass through the outer passage opening 111 (see fig. 2 and 3). In this embodiment, a steam generating device 19 is connected to the air inlet end of the steam pipe 15. The air outlet of the steam duct 15 is located between the upper and lower tape sections of the transfer tape 14 (see fig. 5).

It should be noted that, in this embodiment, the steam generating device 19 adopts the technical solution described in one of chinese patent 201220271976.9 and chinese patent 201620132203.0, and the steam generated by the steam generating device 19 is delivered into the outer covering 11 (delivered between the upper cloth belt section and the lower cloth belt section of the transfer cloth belt 14) through the steam pipeline 15. The principle of the steam generating device 19 and its specific structure are not the subject of the claims of this patent application. The steam generator 19 is a conventional technology, and does not relate to the technical features that distinguish the present application from the conventional technology, and the present embodiment does not describe a specific structure of the steam generator 19 and complies with the regulations of the examination guidelines. The principles and function of the steam generator 19 will be understood by those skilled in the art after reviewing the above referenced patents relating to the steam generator 19, and thus, the present specification will describe the steam generator 19 in accordance with the twenty-sixth clause of the patent law for "disclosure sufficient".

Preferably, the air outlet of the steam pipeline 15 is located at the lower side of the middle position of the upper cloth band section of the conveying cloth band 14, after the steam is sprayed out from the steam pipeline 15, the steam is blocked by the upper cloth band section of the conveying cloth band 14, the steam is diffused along the bottom side of the upper cloth band section of the conveying cloth band 14 and passes through the upper cloth band section in the diffusion process, and therefore materials (powder slurry, meat slices, shelled shrimps and other fillings, see the following details) contained in the upper cloth band section are uniformly cooked. Because steam is carried to between the last strap section and the lower strap section of conveying strap 14, the steam of relative high temperature can remain as far as possible between last strap section and the lower strap section, can not run off a large amount of steam of high temperature because of opening apron 17 (see the below for details) to reduce heat and run off, reduce the energy waste.

Referring to fig. 5, the housing 11 has a cross-section of "Contraband", and the top wall of the housing 11 is provided with a feed inlet (fig. 5 does not show this form for reference only) which is elongated and has a width of 4cm to 6cm, preferably 5 cm. The outer cover 11 is fixedly provided with a sliding cover cylinder 16, or the sliding cover cylinder 16 is fixedly arranged on the base. The piston rod of the sliding cover cylinder 16 is connected with a cover plate 17. The cover plate 17 is slidably disposed on the outer wall of the housing 11, and the sliding cylinder 16 can drive the cover plate 17 to slide to cover the feed opening (refer to fig. 6 to 9) to reduce the steam in the housing 11 from overflowing from the feed opening.

As an alternative embodiment, see fig. 5, the outer cover 11 comprises a main cover 112 and an auxiliary cover 113, the main cover 112 and the auxiliary cover 113 are arranged end to end, and the cross sections of the main cover 112 and the auxiliary cover 113 are both shaped like Contraband. A space is left between the discharge end of the sub-cap 113 (direction a in fig. 5 is the conveying direction) and the incoming end of the main cap 112, the space is used as a feed port 114, the width of the feed port 114 is 4cm-6cm, and preferably, the width of the feed port 114 is 5 cm. The cross section of the cover plate 17 is shaped like Contraband, and the cover plate 17 is matched with the feed inlet 114.

Referring to fig. 5, in this embodiment, the base includes two side plates 18, the two side plates 18 being parallel to each other. The rear roller 12 and the front roller 13 are rotatably connected to the side plate 18, and specifically, roller mounting rolling bearings 181 are provided on the inner sides of the side plate 18, and respective ends of the rear roller 12 and the front roller 13 are engaged with the roller mounting rolling bearings 181. The side plates 18 are provided with cloth belt driving motors 183, the rotating shafts of the cloth belt driving motors 183 are connected with the rear rollers 12 or the front rollers 13, and the cloth belt driving motors 183 are used for driving the rear rollers 12 or the front rollers 13 to rotate. Alternatively, the side plates 18 are provided with two tape drive motors 183 for driving the rear roller 12 and the front roller 13 to rotate respectively, and the rotation of the two is identical. The outer cover 11 covers the side plate 18, the side plate 18 is provided with an inner passage 182, the inner passage 182 corresponds to the outer passage 111, and the inner passage 182 can be passed by the steam pipeline 15. The steam duct 15 passes through the outside passing opening 111 and the inside passing opening 182 in this order from the outside to the inside, and thus extends between the upper and lower tape sections of the transfer tape 14.

The side plates 18 are matched with the lateral annular edges of the conveying cloth belts 14, and the inner side walls of the side plates 18 are close to the lateral annular edges of the conveying cloth belts 14, so that the two side plates 18 block steam as much as possible, the quantity of the steam leaking from the two sides of the conveying cloth belts 14 is reduced, the steam is uniformly distributed on the bottom sides of the upper cloth belt sections and then penetrates through the upper cloth belt sections, and the materials are cooked. Since the amount of steam leaking from both sides of the transfer cloth belt 14 is small, the waste of steam is reduced, and energy is saved. The distance between the two side plates 18 corresponds to the width-directional dimension of the housing 11. The dustcoat 11 covers outside lateral plate 18 and conveying strap 14, and the distance between two lateral plates 18 is corresponding with the width direction size of dustcoat 11, makes the steam that is in last strap section top surface department be kept off by dustcoat 11, has reduced steam and has leaked for the space between last strap section top surface and dustcoat 11 keeps sufficient steam volume, thereby can realize cooking effectively.

Referring to fig. 4, a plurality of supporting rollers 184 are rotatably disposed on the outer side wall of the side plate 18, and the circumferential surface of the supporting rollers 184 supports the bottom edge of the cover plate 17, so that a gap is left between the inner wall of the cover plate 17 and the outer wall of the housing 11. With reference to fig. 6 to 9, the sliding cover cylinder 16 can drive the cover plate 17 to slide to uncover the feed port 114, and since a gap is left between the inner wall of the cover plate 17 and the outer wall of the outer cover 11, the friction force between the two is small, which is convenient for driving. When stuffing (sliced meat, shelled shrimps, dried mushroom blocks and the like) needs to be added into the sheet jelly, the cover plate 17 is moved away from the feeding hole 114, so that the feeding hole 114 is opened, because the feeding hole 114 is long-strip-shaped, the width of the feeding hole 114 is 5cm, the area of the feeding hole 114 is small, and when the feeding hole 114 is opened, the amount of steam discharged from the feeding hole 114 is small, so that the steam loss is reduced.

The steamed vermicelli roll manufacturing device comprises a slurry temporary storage mechanism. Referring to fig. 10, the slurry temporary storage mechanism includes a slurry hopper 21, and a slurry outlet is provided at the bottom of the slurry hopper 21 (refer to the slurry outlet slit 216 in fig. 7, and the slurry outlet slit 216 serves as a slurry outlet). A sealing member (refer to a liquid seal sliding plate 22 in fig. 7, and the liquid seal sliding plate 22 serves as a sealing member) is slidably attached to the inside of the slurry hopper 21. A slurry hopper 21 is located at the feed end of the upper tape section of the transfer tape 14 (see figure 4). The sealing member can move to block the liquid outlet, so that the liquid outlet forms a liquid seal. The sealing piece can move away from the liquid outlet so as to open the liquid outlet.

Referring to fig. 7, the slurry hopper 21 has a V-shaped cross section, the opening of the slurry hopper 21 faces upward, and the slurry outlet is a slurry outlet slot (refer to the slurry outlet slot 216 in fig. 7) formed in the bottom of the slurry hopper 21. The sealing piece is a liquid seal sliding plate 22, and the bottom side edge of the liquid seal sliding plate 22 can block the liquid outlet seam.

Referring to fig. 10 and 22, electromagnets 211 are provided at both ends of the slurry hopper 21, and the electromagnets 211 are slidably provided with slide rods 212. Both upper and lower ends of the sliding rod 212 are exposed to the electromagnet 211. The upper end of the sliding rod 212 is fixedly connected with the liquid seal sliding plate 22, specifically, connecting pieces 223 are arranged at two ends of the liquid seal sliding plate 22, the connecting pieces 223 transversely extend out of the side wall of the slurry hopper 21, and the connecting pieces 223 are fixedly connected with the upper end of the sliding rod 212. The lower end of the sliding rod 212 is provided with a metal block 219. The lower section of the sliding rod 212 is sleeved with a compression spring 25, and two ends of the compression spring 25 respectively abut against the metal block 219 and the electromagnet 211. When the electromagnet 211 is not powered on, the sliding rod 212 is in the lower pole position (as shown in fig. 22) under the action of the elastic force of the compression spring 25, so that the liquid seal sliding plate 22 is kept blocking the liquid outlet slot. When the electromagnet 211 is electrified, the electromagnet 211 forms magnetic attraction force on the metal block 219, so that the sliding rod 212 moves upwards, and the liquid seal sliding plate 22 moves away from the liquid outlet slot.

Referring to fig. 6 to 9, a partition plate 213 is provided in the slurry hopper 21, and the partition plate 213 divides the inner cavity of the slurry hopper 21 into a slurry chamber 214 and an egg liquid chamber 215. The bottom of the powder slurry cavity 214 is provided with a powder slurry liquid outlet slit 216, and the bottom of the egg liquid cavity 215 is provided with an egg liquid outlet slit 217. The liquid seal sliding plate 22 is slidably disposed in the slurry chamber 214, and the liquid seal sliding plate 22 can block the slurry outlet slit 216. The cross section of the bottom edge of the liquid seal sliding plate 22 is in a downward convex arc shape. When the liquid seal sliding plate 22 moves down to the bottom edge thereof to touch the slurry outlet slit 216, since the bottom section of the slurry cavity 214 is "V" shaped and the bottom edge of the liquid seal sliding plate 22 has a downwardly convex arc-shaped section, the bottom edge of the liquid seal sliding plate 22 and two opposite inner walls of the slurry outlet slit 216 are tightly attached to each other (see fig. 7), so that the liquid seal sliding plate 22 and the slurry outlet slit 216 form an effective liquid seal.

With reference to fig. 1, 2, 4, 6 and 10, the slurry temporary storage mechanism includes an egg liquid diversion trench 23, the egg liquid diversion trench 23 is used for receiving egg liquid, the egg liquid can be broken by manual work, and then the egg liquid is poured into the egg liquid diversion trench 23. As an alternative embodiment, the output end of the egg liquid guiding groove 23 is connected to the egg liquid output mechanism 24, and the egg liquid output mechanism 24 is a mechanism capable of automatically breaking eggs and outputting egg liquid, i.e. capable of automatically breaking the eggshells of the eggs so as to separate the egg liquid from the eggshells and then output the egg liquid. The egg liquid output mechanism 24 in the above alternative embodiment adopts the technical scheme described in one of chinese patent application 201610629523.1, chinese patent 201220648641.4 and chinese patent 200820025013.4. It should be noted that the principle of the egg liquid output mechanism 24 and its specific structure are not the subject matter of the claims of this patent application. The egg liquid output mechanism 24 is a prior art, and does not relate to the technical features of the present application that are different from the prior art, and the present embodiment does not describe the specific structure of the egg liquid output mechanism 24, and complies with the provisions of the examination guidelines. The principles and functions of the egg liquid output mechanism 24 will be understood by those skilled in the art after reviewing the above cited patent related to the egg liquid output mechanism 24, and thus, the description of the egg liquid output mechanism 24 in this specification is in accordance with the twenty-sixth provision of "fully published" in the patent Law.

Referring to fig. 7 and 10, the liquid outlet end of the egg liquid guiding groove 23 is located at the opening of the egg liquid cavity 215, and alternatively, the liquid outlet end of the egg liquid guiding groove 23 may be located inside the egg liquid cavity 215 or above the opening of the egg liquid cavity 215. Along the infusion direction of the egg liquid diversion groove 23, the egg liquid diversion groove 23 inclines downwards, so that the egg liquid received by the egg liquid diversion groove 23 flows into the egg liquid cavity 215 along the egg liquid diversion groove 23 under the action of gravity. Referring to fig. 21, the bottom of the egg flow guiding groove 23 is rotatably provided with an egg-beating turntable 231, and the side wall of the egg-beating turntable 231 is provided with a stirring piece 232. The stirring plate 232 is disposed around the sidewall of the rotary disk 231, the stirring plate 232 is corrugated up and down, and the stirring plate 232 extends outward along the radial direction of the rotary disk 231. The egg liquid diversion trench 23 is provided with an egg-beating motor 233, a rotating shaft of the egg-beating motor 233 is connected with the egg-beating turntable 231, and the egg-beating motor 233 is used for driving the egg-beating motor 233 to rotate. The liquid seal sliding plate 22 is fixedly connected with an egg liquid blocking shutter 222, the egg liquid blocking shutter 222 is closer to the liquid outlet end of the egg liquid guiding groove 23 than the egg beating turntable 231, and the egg liquid blocking shutter 222 is matched with the inner wall of the egg liquid guiding groove 23. When the liquid seal slide plate 22 blocks the slurry outlet slit 216, the egg liquid blocking piece 222 blocks the egg liquid diversion trench 23 (as shown in fig. 7). When the liquid seal slide plate 22 moves upward away from the slurry outlet slit 216, the egg liquid blocking plate 222 moves upward away from the egg liquid guiding groove 23 (as shown in fig. 9), so that the egg liquid guiding groove 23 is conducted. The egg liquid blocking shutter 222 is made of food grade silica gel, and when the egg liquid blocking shutter 222 blocks the egg liquid guiding groove 23, the edge of the egg liquid blocking shutter 222 is tightly attached to the inner wall of the egg liquid guiding groove 23 and is appropriately deformed, so that the egg liquid in the egg liquid guiding groove 23 is effectively blocked.

When the egg liquid blocking gate 222 blocks the egg liquid guiding groove 23, the egg liquid guiding groove 23 can receive the egg liquid. When the egg flows to the turntable 231, the turntable 231 rotates, and the stirring plate 232 rotates accordingly. The stirring pieces 232 are in a corrugated shape reciprocating up and down, and fully stir the egg liquid in the rotating process. After stirring for a period of time, the yolk and albumen of the egg liquid are stirred uniformly. In the subsequent link, the egg liquid blocking piece 222 is opened, so that the egg liquid which is uniformly stirred can be added to the upper surface of the sheet jelly.

The steamed vermicelli roll manufacturing device comprises a feeding mechanism. Referring to fig. 11 to 14, the charging mechanism includes a charging unit and a guide hopper 31. In this embodiment, the number of the charging units is three, and the charging units are arranged in the material conveying direction. The charging unit is provided at an opening of the guide hopper 31 or inside the guide hopper 31. The bottom of the guide hopper 31 is gradually narrowed, and a discharge slit 311 is provided at the bottom of the guide hopper 31. In this embodiment, the feeding mechanism is disposed on the upper side of the steamed rice roll steaming mechanism, the discharge slit 311 is located above the feed port 114, and when the cover plate 17 is moved away from the feed port 114, the material discharged from the discharge slit 311 enters through the feed port 114.

The feeding unit comprises two types, namely a feeding unit for adding the meat-slice food materials and a feeding unit for adding the non-meat-slice food materials. The feeding unit for adding the sliced meat materials is called a sliced meat feeding unit 32, and the sliced meat feeding unit 32 can be used for placing sliced meat such as sliced pork, sliced beef and the like. The feeding unit for adding the non-meat slice food materials is called a non-meat slice feeding unit 33, and the non-meat slice feeding unit 33 can be used for non-meat slice food materials such as shelled shrimps, dried mushroom dices, dried shrimps, bacon and the like.

The structure of the meat slice feeding unit 32 is as follows:

referring to fig. 13 and 14, the meat slice feeding unit 32 includes a storage bin 34, the cross section of the bottom of the storage bin 34 is "V" shaped, and a discharge slit 341 is formed at the bottom of the storage bin 34. The discharging slot 341 is rotatably provided with a discharging rotating rod, which is called a meat discharging rotating rod 321. The meat discharging rotating rod 321 is matched with the discharging slit 341, so that when the meat discharging rotating rod 321 does not rotate, the circumferential surface of the upper side of the meat discharging rotating rod 321 can support the materials stored in the storage bin 34, and the materials cannot fall down through the discharging slit 341 of the meat charging unit 32. The peripheral surface of the meat discharging rotating rod 321 is provided with a plurality of stirring pieces 322. The meat feeding unit 32 is provided with a rotating rod driving motor, the rotating rod driving motor and the meat discharging rotating rod 321 are provided with driving belt wheels, the driving belt wheels are connected through a driving belt (not shown), and the rotating rod driving motor can drive the meat discharging rotating rod 321 to rotate. In the rotating process of the discharging rotating rod 321 for the meat slices, the material shifting piece 322 can drive the material located at the upper side of the discharging rotating rod 321 for the meat slices to rotate along with the discharging rotating rod 321 for the meat slices, and the material rotating to the lower side of the discharging rotating rod 321 for the meat slices is separated from the discharging rotating rod 321 for the meat slices and is discharged from the discharging slit 341.

Referring to fig. 15, the back side surface of the material pulling piece 322 is a material sliding surface 323 (back side surface in the figure), and from the peripheral surface of the meat discharging rotating rod 321, the material sliding surface 323 gradually gets away from the central axis of the meat discharging rotating rod 321 along the rotation direction of the meat discharging rotating rod 321. Specifically, the material sliding surface 323 is a curved surface, and the material sliding surface 323 is tangent to the circumferential surface of the meat slice discharging rotating rod 321. The front side of the material stirring sheet 322 is provided with a material stirring surface 324, and one side of the material stirring surface 324 close to the rotation axis of the meat slice discharging rotating rod 321 is provided with a material stirring groove 325. From the edge of the material stirring groove 325, the material shoveling surface 324 gradually gets away from the central axis of the rotating rod along the rotating direction of the rotating rod. For any one of the plectrum pieces 322, the plane in which the top edge and the rotation axis of the rotating rod lie is called a radial plane, and the included angle M between the radial plane and the shoveling surface 324 is 3-7 degrees, and in the embodiment, the included angle M is 5 degrees. The cross section of the material shifting groove 325 is arc-shaped, and one side edge of the material shifting groove 325 is tangent to the circumferential surface of the rotating rod.

The included angle M between the radial surface and the material shoveling surface 324 is set to be 5 degrees, which is beneficial for the material poking sheet 322 to shovel the meat slices in the rotating process along with the meat slice discharging rotating rod 321. The scooped meat slice then partially enters the material shifting groove 325, so that the material shifting piece 322 can effectively drive the meat slice to rotate. In the process that the material shifting piece 322 drives the meat pieces to rotate, the material sliding surface 323 and the material at the bottom of the storage bin 34 slide relatively, and because the material sliding surface 323 is a curved surface and the material sliding surface 323 is tangent to the circumferential surface of the meat piece discharging rotating rod 321, the relative sliding between the material sliding surface 323 and the material at the bottom of the storage bin 34 is smooth and smooth, and excessive friction effect on the material is avoided, so that the meat quality of the material is not damaged.

Specifically, referring to fig. 14, the meat slice discharging rotating rod 321 comprises a plurality of axially arranged rod segments, each of which is provided with 4-6 material-shifting pieces 322, and in the present embodiment, each of which is provided with five material-shifting pieces 322. For any rod segment, the material shifting sheets 322 are uniformly distributed along the circumferential direction of the rod segment, and the material shifting sheets 322 positioned on two adjacent rod segments are staggered from each other along the circumferential direction (refer to fig. 14).

Referring to fig. 13 and 14, the structure of the non-meat feeding unit 33 is as follows:

the non-meat feeding unit 33 comprises a storage bin 34, the cross section of the bottom of the storage bin 34 is V-shaped, and a discharge slit 341 is formed at the bottom of the storage bin 34. The discharging slot 341 is provided with a discharging rotary rod called as a non-meat discharging rotary rod 331. The feeding unit is provided with a rotating rod driving motor, the rotating rod driving motor and the non-meat slice discharging rotating rod 331 are respectively provided with a driving belt wheel, the driving belt wheels are connected through a driving belt, and the rotating rod driving motor can drive the non-meat slice discharging rotating rod 331 to rotate. The non-meat discharging rotary rod 331 is matched with the discharging slot 341, so that when the non-meat discharging rotary rod 331 does not rotate, the upper circumferential surface of the non-meat discharging rotary rod 331 can support the materials stored in the storage bin 34. The peripheral surface of the non-meat discharging rotating rod 331 is provided with an accommodating groove 332 arranged along the axial direction, and when the accommodating groove 332 is positioned at the upper side of the non-meat discharging rotating rod 331, the materials enter the accommodating groove 332. When the receiving groove 332 is located at the lower side of the non-meat discharging turn 331, the materials fall out of the receiving groove 332 and are discharged through the discharging slit 341.

The material discharged through the discharge slit 341 falls to the inner cavity bottom wall of the guide hopper 31, which is inclined downward and can guide the material falling thereon to the discharge slit 311, and then the material is discharged from the discharge slit 311.

The steamed vermicelli roll making device comprises a sheet jelly turning and stacking mechanism. Referring to fig. 18, the sheet jelly turning and stacking mechanism includes a positioning cylinder 41, and the positioning cylinder 41 is disposed on the base. A piston rod of the positioning cylinder 41 is connected with a turning and stacking motor 42, a rotating shaft of the turning and stacking motor 42 is connected with a turning and stacking plate 43, and the turning and stacking motor 42 is used for driving the turning and stacking plate 43 to swing. The movement pattern of the folding plate 43 includes the following two patterns:

the first motion mode is as follows: referring to fig. 18, the positioning cylinder 41 drives the folding plate 43 to move until the bottom edge of the folding plate 43 abuts against the upper cloth belt section of the conveying cloth belt 14, and the upper edge of the folding plate 43 inclines towards the discharging direction (refer to the solid line position of the folding plate 43 in fig. 18), in this state, after the partial sheet jelly slides and climbs to the upper side surface of the folding plate 43, the folding plate 43 can swing towards the feeding direction (refer to the dotted line position of the folding plate 43 in fig. 18), so as to fold the partial sheet jelly section climbed to the upper side surface of the folding plate 43 to the partial sheet jelly section located in the upper cloth belt section, and the two partial sheet jelly sections wrap the filling together.

The second motion mode is as follows: referring to fig. 19, the positioning cylinder 41 drives the folding motor 42 to move the folding plate 43 away from the upper cloth belt section of the cloth conveying belt 14, so that the folding plate 43 does not obstruct the material conveyed by the upper cloth belt section. The upward movement distance of the folding plate 43 can be controlled by adjusting the stroke of the piston rod of the positioning cylinder 41. The stroke of the piston rod of the positioning cylinder 41 is adjusted according to the height of the prepared steamed vermicelli roll, so that the bottom edge of the folding plate 43 does not obstruct the prepared steamed vermicelli roll from passing through the lower side of the folding plate 43.

Referring to fig. 19, the folding plate 43 is a rectangular plate, and the connecting posts 431 are disposed at both ends of the bottom side of the folding plate 43. The base is provided with a guide slide rail 44, and the guide slide rail 44 is slidably provided with a slide seat 45. One of the connection posts 431 is fixedly connected with the rotation shaft of the folding motor 42 (i.e. the one closer to the right side in fig. 19), and the other connection post 431 is rotatably inserted through the sliding seat 45 (i.e. the one closer to the left side in fig. 19). The bottom edge of the folding plate 43 is collinear with the central axis of the connecting column 431, so that during the swinging of the folding plate 43 in the incoming direction, the swinging of the folding plate 43 is axial with its bottom edge. The bottom edge of the turning plate 43 close to one side in the discharging direction is provided with a clearance inclined plane 432. The angle N formed by the clearance bevel 432 and the sidewall of the folded plate 43 is 7-13 °, and in this embodiment, the angle N is 10 °. When the folded plate 43 swings to incline toward the discharging direction, the clearance slope 432 is used for avoiding the upper band section of the transfer cloth tape 14 (refer to fig. 16 and 17), so that the bottom side edge of the upper side surface of the folded plate 43 is attached to the upper band section of the transfer cloth tape 14 as much as possible without forming a height difference between the bottom side edge of the upper side surface of the folded plate 43 and the upper band section of the transfer cloth tape 14. When the sheet jelly (on which the filling has been added) conveyed by the conveyor belt 14 reaches the bottom side edge of the upper side of the folded plate 43, since there is no height difference at this position, the sheet jelly can smoothly slide along the upper side of the folded plate 43 to climb. When the local section of the sheet jelly climbs to the upper side surface of the folding plate 43, the folding motor 42 drives the folding plate 43 to swing towards the feeding direction, so that the local section of the sheet jelly on the upper side surface of the folding plate 43 is folded to the upper side of the local section of the sheet jelly which is not climbed to the folding plate 43 (namely is still on the upper belt section of the conveying cloth belt 14), and the two local sections of the sheet jelly are wrapped with the filling to form a superposed sheet jelly section. The above-described turning process may then be repeated one to three times as necessary to further turn the "superimposed sheet jelly section".

Referring to fig. 4, the cylinder body of the positioning cylinder 41 is fixedly connected to the base, the piston rod of the positioning cylinder 41 is fixedly connected to the motor mounting plate 421, and the cross section of the motor mounting plate 421 is "L" shaped. The turning and folding motor 42 is fixedly connected to the motor mounting plate 421, a vertical plate of the motor mounting plate 421 is provided with a through hole (not shown), a rotating shaft of the turning and folding motor 42 passes through the through hole, and the moving direction of a piston rod of the positioning cylinder 41 is perpendicular to the central axis of the rotating shaft of the turning and folding motor 42.

In a preferred embodiment, see fig. 16 and 19, the base is provided with a scraped filament 46, the scraped filament 46 is attached to the upper cloth band, the diameter of the scraped filament 46 is 0.6mm to 2mm, and in this embodiment, the diameter of the scraped filament 46 is 1 mm. The scraped filament 46 is closer to the incoming direction than the folding plate 43. The material of the scraped strand 46 is one of food grade stainless steel, food grade silicone rubber, and PP plastic, and in this embodiment, the material of the scraped strand 46 is food grade stainless steel. When the front end of the conveyed sheet jelly touches the scraped filament 46, the scraped filament 46 scrapes the front end of the sheet jelly, and as the conveying cloth belt 14 continues to move, the scraped sheet jelly passes over the scraped filament 46 and continues to move forward along the conveying cloth belt 14, and finally the whole sheet jelly passes over the scraped filament 46 from the front end to the rear end thereof. The whole section of sheet jelly crosses the scraped strand 46, namely the scraped strand 46 is scraped from the upper cloth belt section along the length direction of the sheet jelly from the front end of the sheet jelly gradually, so that the adhesion degree of the sheet jelly and the upper cloth belt section is greatly reduced. After the sheet jelly entirely passes over the scraped thread 46, the adhesion degree of the sheet jelly to the upper tape section is greatly reduced, which contributes to smooth sliding and climbing of the sheet jelly along the upper side surface of the folding plate 43 in the following.

Referring to fig. 20, the steamed vermicelli roll manufacturing device comprises a conveying cloth belt cleaning mechanism. The cleaning mechanism for the conveying cloth belt comprises a water receiving tank 51, the water receiving tank 51 is connected with the base in a sliding mode, and an opening is formed in the top of the water receiving tank 51. The base is provided with a lifting cylinder 52, a piston rod of the lifting cylinder 52 is connected with the water receiving tank 51, and the lifting cylinder 52 is used for driving the water receiving tank 51 to lift. A water spraying cylinder 53 (see fig. 16) is rotatably connected in the water receiving tank 51, the water receiving tank 51 is provided with a washing motor 511, one end of the water spraying cylinder 53 is connected with a rotating shaft of the washing motor 511 (i.e., the end close to the right in fig. 20), and the other end of the water spraying cylinder 53 is provided with a first water inlet 531 (i.e., the end close to the right in fig. 20). Specifically, the two ends of the water spraying cylinder 53 are fixedly connected with rotating shafts, and two transverse side walls of the water receiving tank 51 are provided with rolling bearings. The rotating shafts are matched with the rolling bearings, one of the rotating shafts is a hollow shaft, the interior of the hollow shaft is communicated with the water spraying barrel 53, and the outer end of the hollow shaft is provided with a first water inlet 531. The global apopore (not shown) that is equipped with of a section of thick bamboo 53 drenches, drenches a section of thick bamboo 53 global and is equipped with the brush hair, and conveying strap wiper mechanism's operating condition includes following two kinds:

the first operating state: the lifting cylinder 52 drives the water receiving tank 51 to move downwards, so that the bristles of the water spraying cylinder 53 do not touch the lower belt section of the conveying cloth belt 14. In this operation state, the brush of the shower 53 does not touch the lower tape section of the transfer tape 14, and the transfer tape 14 is operable to perform the steamed vermicelli roll preparation.

The second operating state: the lifting cylinder 52 drives the water receiving tank 51 to move upwards, so that the bristles of the water spraying cylinder 53 contact the lower belt section of the conveying cloth belt 14. In this state, water is introduced into the first water inlet 531, so that the water is sprayed from the water holes of the water spraying cylinder 53 to the lower tape section of the transfer tape 14, and the washing motor 511 drives the water spraying cylinder 53 to rotate. In this operating state, the steamed vermicelli roll producing device does not produce steamed vermicelli roll, and the conveying cloth belt 14 does not convey materials, but operates in no load. The first water inlet 531 can be connected with a high-pressure water pipe, and water enters the water spraying cylinder 53 from the first water inlet 531 and is sprayed to the lower belt section of the conveying cloth belt 14 through the water holes of the water spraying cylinder 53. Since the brush of the water spraying cylinder 53 contacts the lower band section of the transfer cloth belt 14 in this state, when the washing motor 511 drives the water spraying cylinder 53 to rotate, the brush of the water spraying cylinder 53 can wash the lower band section of the transfer cloth belt 14 in idle operation, and the brush of the water spraying cylinder 53 can wash the entire transfer cloth belt 14 along with the continuous operation of the transfer cloth belt 14. As a preferred embodiment, an appropriate amount of detergent is added to the water entering the sprinkling cylinder 53 through the first water inlet 531 so as to dissolve grease attached to the transfer tape 14, thereby enabling more sufficient cleaning of the transfer tape 14.

Referring to fig. 20, the base is provided with a guide block 54, the two lateral edges of the opening of the water receiving tank 51 are both fixedly provided with an extending plate 512, the extending plate 512 is provided with a limit sliding groove 513, and the guide block 54 is slidably engaged with the limit sliding groove 513, so that the water receiving tank 51 is slidably connected with the base. The piston rod of the lifting cylinder 52 is fixedly connected with the extension plate 512.

When the water receiving tank 51 moves up to the lower belt section with the opening edge close to the transfer cloth belt 14, the bristles of the water spraying cylinder 53 contact the lower belt section of the transfer cloth belt 14. When the brush of the water spraying cylinder 53 brushes the lower belt section of the conveying cloth belt 14, the opening edge of the water receiving tank 51 is close to the lower belt section of the conveying cloth belt 14, and the inner wall of the water receiving tank 51 can block water drops splashed in the washing process, so that the water drops can be prevented from being splashed outwards.

Referring to fig. 20, in this embodiment, the bristles are distributed in multiple rows along the circumferential direction of the water spraying cylinder 53, the water outlet holes are distributed in multiple rows along the circumferential direction of the water spraying cylinder 53, and the arrangement of the bristles and the arrangement of the water outlet holes are staggered with each other along the circumferential direction, so that the water sprayed from the water outlet holes can be directly sprayed to the lower belt section of the conveying cloth belt 14, and the flow rate of the water sprayed to the conveying cloth belt 14 is large.

As an alternative embodiment, the bristles are distributed in a plurality of rows along the circumferential direction of the water spraying cylinder 53, the water outlets are distributed in a plurality of rows along the circumferential direction of the water spraying cylinder 53, the arrangement of the bristles and the arrangement of the water outlets are circumferentially overlapped, preferably, the bristles are left at the positions where the water outlets are arranged (without the bristles), so that the bristles are firstly sprayed by the sprayed water, the bristles are kept fully wet, and the sprayed bristles are helpful for washing away material residues adhered to the bristles, and the bristles are kept clean for a long time.

A water spraying pipe 55 is arranged in the water receiving tank 51, and the water spraying pipe 55 is closer to the incoming direction of the conveying cloth belt 14 than the water spraying cylinder 53. The circumferential upper side of the water spraying pipe 55 is provided with a water outlet, and the water spraying pipe 55 is used for spraying water to the lower belt section of the conveying cloth belt 14. The shower pipe 55 is provided on the rear side wall of the water receiving tank 51. The water receiving tank 51 can move upwards to the upper edge of the rear side wall of the water receiving tank 51 to contact the lower belt section of the transfer cloth belt 14. When the water sprayed from the water spraying tube 53 is added with the detergent, clean water can be introduced into the second water inlet 551 of the water spraying tube 55, and since the water spraying tube 55 is closer to the incoming material direction of the cloth conveying belt 14 than the water spraying tube 53, the clean water sprayed from the water spraying tube 55 can wash off the detergent-added liquid attached to the lower belt section, thereby preventing the detergent from remaining in the lower belt section.

With reference to fig. 1, 2, and 20, a drain pipe 515 is connected to the bottom of the water receiving tank 51, a water outlet seam 514 is provided at the bottom of the water receiving tank 51, and water in the water receiving tank 51 enters the drain pipe 515 through the water outlet seam 514 and is then drained away.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention cannot be limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are all within the protection scope of the present invention.

Claims (10)

1. Thick liquid temporary storage mechanism for steamed vermicelli roll evaporates system and constructs, steamed vermicelli roll evaporates system and constructs including base and conveying strap, its characterized in that: slurry temporary storage mechanism includes the slurry hopper, the bottom of slurry hopper is equipped with the liquid outlet, the inside slidable ground of slurry hopper is connected with the sealing member, the slurry hopper is located the feed end of the upper band section of conveying strap, the sealing member can remove to stopping up the liquid outlet, so that the liquid outlet forms the liquid seal, the sealing member can remove from the liquid outlet, so that the liquid outlet is opened.

2. The slurry staging mechanism of claim 1, wherein: the cross section of thick liquid hopper is "V" font form, the opening of thick liquid hopper is up, the liquid outlet is the liquid gap, the sealing member is the liquid seal slide, the bottom side edge of liquid seal slide can block up the liquid gap.

3. The slurry staging mechanism of claim 2, wherein: the slurry hopper is characterized in that electromagnets are arranged at two ends of the slurry hopper, a sliding rod penetrates through the electromagnets in a sliding manner, the upper ends and the lower ends of the sliding rod are exposed out of the electromagnets, the upper end of the sliding rod is fixedly connected with the liquid seal sliding plate, a metal block is arranged at the lower end of the sliding rod, a compression spring is sleeved on the lower section of the sliding rod, two ends of the compression spring respectively abut against the metal block and the electromagnets, when the electromagnets are not powered on, the sliding rod is in a lower extreme position under the elastic force action of the compression spring, so that the liquid seal sliding plate keeps blocking the liquid outlet seam, and when the electromagnets are powered on, the electromagnets form magnetic attraction force on the metal block to enable the sliding rod to move upwards, so that the liquid seal sliding plate is moved away from the liquid outlet seam.

4. The slurry staging mechanism of claim 3, wherein: the two ends of the liquid seal sliding plate are respectively provided with a connecting sheet, the connecting sheets transversely extend out of the side wall of the slurry hopper, and the connecting sheets are fixedly connected with the upper end of the sliding rod.

5. The slurry staging mechanism of claim 2, wherein: the slurry filling machine is characterized in that a partition plate is arranged in the slurry hopper, the inner cavity of the slurry hopper is divided into a slurry cavity and an egg liquid cavity by the partition plate, a slurry liquid outlet seam is formed in the bottom of the slurry cavity, an egg liquid outlet seam is formed in the bottom of the egg liquid cavity, the liquid seal sliding plate is slidably arranged in the slurry cavity, and the slurry liquid outlet seam can be blocked by the liquid seal sliding plate.

6. A slurry staging mechanism as claimed in claim 2 or claim 5 wherein: the cross section of the bottom edge of the liquid seal sliding plate is in a downward convex arc shape.

7. The slurry staging mechanism of claim 5, wherein: the egg liquid guide groove is used for receiving egg liquid, the liquid outlet end of the egg liquid guide groove is arranged in the egg liquid cavity, and the egg liquid guide groove inclines downwards along the liquid flow direction of the egg liquid guide groove.

8. The slurry staging mechanism of claim 7, wherein: the egg liquid guiding gutter rotationally is equipped with the carousel of beating eggs, the lateral wall of the carousel of beating eggs is equipped with the stirring piece, the stirring piece encircles the lateral wall of the carousel of beating eggs and establishes, the stirring piece is upper and lower reciprocal corrugate, the egg liquid guiding gutter is equipped with the motor of beating eggs, the axis of rotation of the motor of beating eggs with the carousel of beating eggs is connected, the motor of beating eggs is used for the drive the motor of beating eggs rotates.

9. The slurry staging mechanism of claim 8, wherein: the liquid seal slide rigid coupling has egg liquid to keep off the brake lining, egg liquid keeps off the brake lining than the rotary table of beating eggs is closer to in go out the liquid end, egg liquid keep off the brake lining with the inner wall adaptation of egg liquid guiding gutter, works as the liquid seal slide blocks up when the whitewash goes out the liquid seam, egg liquid keeps off the brake lining shutoff the egg liquid guiding gutter, works as the liquid seal slide moves away from up when the whitewash goes out the liquid seam, egg liquid keeps off the brake lining and moves away from up the egg liquid guiding gutter makes the egg liquid guiding gutter switch on.

10. Steamed vermicelli roll making devices, its characterized in that: comprising a slurry staging mechanism as claimed in any one of claims 1 to 5 and claims 7 to 9.

Images