CN212263514U - Rice reducing mechanism in rice noodle manufacturing process - Google Patents

Abstract

The utility model discloses a rice reducing mechanism of rice noodle manufacture in-process, include: the inner part of the charging basket is provided with a water filtering net layer; the lifting mechanism comprises a support frame, a power source arranged at the top of the support frame, a pull rope connected with the power source and used for lifting or descending the charging bucket, and a limiting part used for limiting the charging bucket to vertically ascend or descend; the feed inlet of the flour mill can be communicated with the outlet at the bottom of the charging basket and is used for crushing the raw materials; receiving agencies, the entry links to each other with the milling machine discharge gate, and the open-top is connected with flexible storage bag, and the bottom export is equipped with conveying unit, and the conveying unit below is equipped with the compounding bucket. The utility model realizes automatic feeding, crushing and discharging mixing, the whole operation process has low manual dependence and high processing efficiency; the layout is reasonable, and the occupied area is small; noise generated by ground vibration is reduced, and the floor is more friendly to the surrounding environment; the whole structure is simple, the operation is stable, and the safety performance is good.

Description

Rice reducing mechanism in rice noodle manufacturing process

Technical Field

The utility model belongs to rice noodle preparation mechanical equipment field especially relates to a rice reducing mechanism of rice noodle preparation in-process.

Background

The rice noodle production process in the market at present is generally that crushing, material mixing, production and drying are divided into a plurality of independent steps to be carried out, each machine is far away in dispersion and large in occupied area, the manual dependence of each operation step is large, the connection of each large production step is carried out completely by manual work, time and labor are wasted, the processing efficiency is low, and in addition, the scattering of materials and the resource waste are easily caused in the manual carrying process; in addition, the crusher is arranged on the ground, and can generate larger vibration and noise during working, thereby having larger influence on the surrounding environment.

SUMMERY OF THE UTILITY MODEL

In order to overcome the not enough of prior art, the utility model provides a rationally distributed, area is little, can accomplish automatically and lift the material, smash, the compounding process, the rice reducing mechanism in the rice noodle manufacturing process that machining efficiency is high.

The utility model provides a technical scheme that its technical problem adopted is: a rice reducing mechanism in rice noodle manufacturing process, includes:

the inner part of the charging basket is provided with a water filtering net layer;

the lifting mechanism comprises a support frame, a power source arranged at the top of the support frame, a pull rope connected with the power source and used for lifting or descending the charging bucket, and a limiting part used for limiting the charging bucket to vertically ascend or descend;

the feed inlet of the flour mill can be communicated with the outlet at the bottom of the charging basket and is used for crushing the raw materials;

receiving agencies, the entry links to each other with the milling machine discharge gate, and the open-top is connected with flexible storage bag, and the bottom export is equipped with conveying unit, and the conveying unit below is equipped with the compounding bucket.

Further, the conveying unit comprises a rotating shaft and a plurality of baffles, the rotating shaft is radially arranged along the material receiving mechanism, the baffles are uniformly arranged along the circumferential direction of the rotating shaft, the baffles extend the whole radial direction of the material receiving mechanism, and one side of the baffles, far away from the rotating shaft, is an arc-shaped surface. Accomplish kibbling fine powder and fall through blockking of conveying unit and decide and pile up, along with conveying unit's at the uniform velocity rotatory, fine powder is transported the compounding device steadily, quantitatively, avoids fine powder to scatter in the air, avoids fine powder caking, is favorable to the compounding on next step simultaneously.

Furthermore, be equipped with the first track that supplies the power source translation on the support frame, and the synchronous second track of translation of feed bucket follow power source, first track parallel is located second track top.

Furthermore, spacing portion includes at least one first gag lever post that extends along support frame direction of height and at least one second gag lever post with first gag lever post parallel arrangement, and the interval between first gag lever post and the second gag lever post is equivalent with the width of storage bucket. The structure of spacing portion is simple, and the processing cost is low, but can effectively guarantee storage bucket horizontal direction's stability, certainly, the gag lever post not only limits in shaft-like, as long as have certain width, can restrict the storage bucket and rock can.

Furthermore, the top of the flexible storage bag is connected with the top of the support frame through a connecting line. The flexible storage bag is favorable for collecting and shaking off fine powder, avoids dust overflow and also improves the collection rate of the fine powder, and is easy to clean and disassemble.

Furthermore, a connecting part which can be connected with the pull rope is arranged in the charging bucket, and the connecting part comprises at least two support columns which are connected with the charging bucket in a crossing manner and just face two side faces, and connecting rods which are connected between the support columns in a crossing manner. The design of connecting portion makes storage bucket atress everywhere relatively even, has not only prolonged life, has still guaranteed storage bucket lifting and the stability of decline process.

Furthermore, the water filtering net layer is provided with a plurality of water filtering holes, the water filtering net layer comprises a first inclined plane, a second inclined plane and a third inclined plane, the second inclined plane and the third inclined plane are respectively arranged on two sides of the first inclined plane, an outlet at the bottom of the charging bucket is positioned on the first side wall of the charging bucket, the first inclined plane inclines upwards from a position close to the outlet at the bottom of the charging bucket to the second side wall right opposite to the first side wall, the second inclined plane inclines upwards from the side edge of the first inclined plane to the third side wall of the charging bucket, and the third inclined plane inclines upwards from the side edge of the first inclined plane to the fourth side wall. The inclined plane design of the water filtering net layer can enable raw materials in the charging basket to be rapidly conveyed to the outlet at the bottom as far as possible, the raw materials cannot be accumulated in a gap, and manual auxiliary discharging is not needed.

Furthermore, a reflector for observing whether all the raw materials in the charging bucket are discharged is arranged above the feeding hole of the flour mill. The setting of reflector is convenient for the operator and is observing whole work progress on ground, need not to ascend a height and observes from the storage bucket top, and the security performance is high.

Further, the mount is located to the milling machine, and the height that highly is less than the height of support frame, is greater than the height of compounding bucket support of this mount, and the horizontal parallel of mount is close to the support frame setting, and the vertical parallel of mount is close to the setting of compounding bucket support. Not only spatial layout is more reasonable, and the milling machine can not direct contact ground moreover, and the noise that vibrations produced reduces.

Further, still include the cat ladder that is close to spacing portion and sets up.

The utility model has the advantages that: 1) automatic feeding, crushing and discharging mixing are realized, the manual dependence degree in the whole operation process is low, and the processing efficiency is high; 2) the lifting mechanism, the flour mill and the material receiving mechanism are reasonable in layout and small in occupied area; 3) the fine powder after being crushed has small loss, uniform discharging and difficult caking; 4) the flour mill is arranged on the fixed frame, so that the flour mill is prevented from being directly contacted with the ground, the noise generated by ground vibration is reduced, and the flour mill is more friendly to the surrounding environment; 5) the whole structure is simple, the operation is stable, and the safety performance is good.

Drawings

Fig. 1 is a perspective view of the present invention.

Fig. 2 is a perspective view of the charging bucket of the present invention.

Fig. 3 is a cross-sectional view of the charging bucket of the present invention.

Fig. 4 is a cross-sectional view of the receiving mechanism of the present invention.

Detailed Description

In order to make the technical solution of the present invention better understood, the following figures in the embodiments of the present invention are combined to clearly and completely describe the technical solution in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts shall belong to the protection scope of the present invention.

As shown in fig. 1 to 4, a rice crushing device in a rice noodle manufacturing process comprises a charging basket 1 for containing raw materials to be crushed, a lifting mechanism 3 for lifting or lowering the charging basket 1, a flour mill 4 for crushing the raw materials in the charging basket 1, and a receiving mechanism 5.

The inside water filtration stratum reticulare 2 that is equipped with of storage bucket 1, evenly seted up a plurality of water filtration holes 21 on the water filtration stratum reticulare 2, the aperture of water filtration hole 21 is less than the size of raw and other materials, and storage bucket 1 bottom is the toper structure that top-down reduced, and water filtration stratum reticulare 2 sets up inside storage bucket 1, pours into storage bucket 1 back when raw and other materials, is detained in water filtration stratum reticulare 2's top, and remaining moisture can drip in storage bucket 1 bottom through water filtration holes 21, plays the waterlogging caused by excessive rainfall effect.

Specifically, the water filtering screen layer 2 comprises a first inclined surface 22, and a second inclined surface 23 and a third inclined surface which are respectively positioned on two sides of the first inclined surface 22, and four side walls of the charging basket 1 are defined as a first side wall 13, a second side wall 14 opposite to the first side wall 13, a third side wall 15 and a fourth side wall 16 opposite to the third side wall 15; the outlet 11 at the bottom of the charging bucket 1 is arranged on the first side wall 13, the first inclined surface 22 extends upwards from the position close to the outlet 11 at the bottom of the charging bucket 1 and inclines towards the second side wall 14, the second inclined surface 23 inclines upwards from the side edge of the first inclined surface 22 and inclines towards the third side wall 15, and the third inclined surface (shielded in the drawing) inclines upwards from the side edge of the first inclined surface 22 and inclines towards the fourth side wall 16, so that when raw materials are poured into the charging bucket 1 from the top opening of the charging bucket 1, the water filter screen layer 2 can convey the raw materials to the outlet 11 at the bottom of the charging bucket 1 to the maximum extent.

The bottom outlet 11 is provided with a first door body 111 and a second door body 112 which are different in size, the transverse width of the first door body 111 is larger than that of the second door body 112, only the second door body 112 or both the first door body 111 and the second door body 112 can be selected to be opened, only the second door body 112 can be opened when blanking is needed, and when the charging basket 1 needs to be cleaned, both the first door body 111 and the second door body 112 can be opened.

The lifting mechanism 3 comprises a support frame 31, a power source 32 arranged at the top of the support frame 31, a pull rope 33 connected with the power source 32 and used for lifting or descending the charging basket 1, and a limiting part 34 used for limiting the charging basket 1 to vertically ascend or descend.

The supporting frame 31 is a frame structure vertical to the ground, the top of the supporting frame 31 is provided with a first rail 35, a second rail 36 is arranged below the first rail 35 in parallel, in this embodiment, the power source 32 is a motor, which is movably connected to the first rail 35 and can move horizontally along the first rail 35;

the second rail 36 is used for the synchronous translation of the feeding barrel 1 along with the power source 32, and includes a left half portion matched with one side of the feeding barrel 1 and a right half portion matched with the other side opposite to the feeding barrel 1, and the left half portion and the right half portion are symmetrically distributed on two sides of the first rail 35.

In order to avoid interference, one end of the second rail 36 is connected to the transverse connecting rods 343 at the top of the limiting portion 34, the distance between the two transverse connecting rods 343 is greater than or equal to the width of the two side edges of the top opening of the charging basket 1, the width between the second rails 36 is smaller than the width of the two side edges of the top opening of the charging basket 1, and the charging basket 1 is lifted to cross the transverse connecting rods 343 and then horizontally moved to be close to the supporting frame 31 and fall on the second rail 36.

In order to avoid generating loud noise, buffer washers are laid on the opposite inner side walls of the second rail 36 and the opposite inner side walls of the transverse connecting rods 343.

Because the height of the support frame 31 is higher, a ladder stand 8 is arranged at the position of the support frame 31 close to the limiting part 34 and is used for adjusting the size of the bottom outlet 11 and cleaning the equipment at any time.

In order to stably connect the power source 32 and the charging basket 1, a connecting part 12 capable of being connected with a pull rope 33 is arranged inside the charging basket 1, the connecting part 12 comprises two support columns 121 crossing between a first side wall 13 and a second side wall 14 opposite to the charging basket 1, and connecting rods 122 cross-connected between the two support columns 121, and the cross positions of the two connecting rods 122 are fixedly connected, so that the pull rope 33 can be connected at the cross connecting points of the two connecting rods 122, the charging basket 1 is uniformly stressed, cannot be toppled randomly, and is also firm and reliable in connection.

The power source 32 is connected with the pulling rope 33 to lift the material barrel 1, so that the material barrel 1 rises to a certain height, and then the power source 32 is driven by another motor to translate along the first track 35 until the outlet 11 at the bottom of the material barrel 1 is communicated with the feeding hole 41 of the flour mill 4.

In order to avoid the barrel 1 to shake randomly during lifting, the supporting frame 31 is provided with the limiting part 34, which includes at least one first limiting rod 341 extending along the height direction of the supporting frame 31 and at least one second limiting rod 342 arranged in parallel with the first limiting rod 341, in this embodiment, the number of the first limiting rod 341 and the number of the second limiting rod 342 are three, and the distance between the first limiting rod 341 and the second limiting rod 342 is equal to the width of the barrel 1, so that the barrel 1 is limited transversely by the first limiting rod 341 and the second limiting rod 342, and cannot shake randomly in the horizontal direction, and the lifting and descending processes are relatively stable.

The pulverizer 4 is arranged close to the middle height of the support frame 31, and a feed inlet 41 of the pulverizer 4 is just communicated with a bottom outlet 11 of the horizontally moved material barrel 1 lifted to the top, and is used for crushing the raw material discharged by the material barrel 1; for cleaning, a tray 411 is detachably connected right below the feed inlet 41 and used for receiving residual fine powder during cleaning; in order to facilitate observation of the crushing progress, namely observation of whether the raw materials in the charging basket 1 are completely discharged or not, a reflector is connected to the support frame 31 and is positioned above the feeding hole 41 of the flour mill 4, so that an operator does not need to observe whether the raw materials are completely discharged or not from the top opening of the charging basket 1 through the ladder 8, the operation is convenient, and the safety performance is higher; other parts are not described in detail in the prior art.

The pulverizer 4 is arranged on a fixed frame 44, the height of the fixed frame 44 is less than that of the support frame 31 and greater than that of a mixing barrel support 71 for placing the mixing barrel 7, the fixed frame 44 is transversely and parallelly arranged close to the support frame 31, and the fixed frame 44 is longitudinally and parallelly arranged close to the mixing barrel support 71, namely, the fixed frame 44 is positioned below the first rail 35 and between the mixing barrel support 71 and the ladder stand 8, so that the spatial layout is more reasonable, and the occupied ground area is smaller; and the flour mill 4 is prevented from directly contacting the ground, and the noise generated by vibration is reduced.

The whole material receiving mechanism 5 is of a hollow cylindrical structure, an inlet 51 on the side wall of the material receiving mechanism is connected with a discharge port 42 of the flour mill 4, the top of the material receiving mechanism is open, a flexible storage bag 53 used for collecting fine powder drifting upwards is sleeved on the top opening 52, the opening of the flexible storage bag 53 is hermetically connected with the top opening 52, and the top of the flexible storage bag 53 is fixedly connected with the top of the support frame 31 through a connecting wire 531 and used for upwards stretching the flexible storage bag 53 to avoid downward collapse of the flexible storage bag.

The second bottom outlet 54 of the receiving mechanism 5 is connected with a conveying unit 6, which comprises a rotating shaft 61 arranged along the radial direction of the receiving mechanism 5 and a plurality of baffles 62 arranged along the circumferential direction of the rotating shaft 61, and the length of the baffles 62 extends along the entire radial direction of the receiving mechanism 5, that is, the fine powder material must pass through the baffles 62 to fall into the mixing barrel 7 below the conveying unit 6. In order to avoid the fine powder from being blocked in the conveying unit 6 and to avoid the powder from being blocked by the baffle plates 62, the side surface of the baffle plate 62 far away from the rotating shaft 61 is an arc surface 63 in order to adapt to the structure of the material receiving mechanism 5 and avoid the powder from being blocked. The conveying unit 6 collects the fine powder and then conveys the fine powder to the mixing barrel 7 at a constant speed and gently, so that the fine powder is prevented from flying around due to the fact that the fine powder falls at an excessively high speed, and the fine powder is conveyed stably and quantitatively.

The utility model discloses a working process is, raw and other materials are emptyd and are carried out the waterlogging caused by excessive rainfall in the storage bucket 1, transport storage bucket 1 to spacing portion 34 below through first shallow 91, it is linked together to recycle lifting mechanism 3 with storage bucket 1 and rise to its bottom export 11 feed inlet 41 with milling machine 4, start milling machine 4 after opening storage bucket 1 bottom export 11, the thin powder after smashing gets into receiving mechanism 5, enter mixing barrel 7 after conveying unit 6, subsequent reinforced operation of adding water can carry out, mixing barrel 7 is arranged in on mixing barrel support 71, mixing barrel support 71 is arranged in on second shallow 92, be convenient for easily shift mixing barrel 7, realize continuous production through the recycling of a plurality of mixing barrel 7.

The above detailed description is provided for illustrative purposes, and is not intended to limit the present invention, and any modifications and variations of the present invention are within the spirit and scope of the following claims.

Claims (10)

1. The utility model provides a rice reducing mechanism in rice noodle manufacturing process which characterized in that includes:

the charging basket (1) is internally provided with a water filtering net layer (2);

the lifting mechanism (3) comprises a support frame (31), a power source (32) arranged at the top of the support frame (31), a pull rope (33) connected with the power source (32) and used for lifting or descending the charging basket (1), and a limiting part (34) used for limiting the charging basket (1) to vertically ascend or descend;

the feed inlet (41) of the flour mill (4) can be communicated with the outlet (11) at the bottom of the charging basket (1) and is used for crushing the raw materials;

receiving agencies (5), entry (51) link to each other with milling machine (4) discharge gate (42), and open-top (52) are connected with flexible storage bag (53), and second bottom export (54) are equipped with conveying unit (6), and conveying unit (6) below is equipped with compounding bucket (7).

2. The rice pulverizing apparatus in the rice noodle making process according to claim 1, wherein: the conveying unit (6) comprises a rotating shaft (61) and a plurality of baffle plates (62), wherein the rotating shaft (61) is radially arranged along the material receiving mechanism (5), the baffle plates (62) are uniformly arranged along the circumferential direction of the rotating shaft (61), and the baffle plates (62) extend the whole radial direction of the material receiving mechanism (5).

3. The rice pulverizing apparatus in the rice noodle making process according to claim 1, wherein: the feeding device is characterized in that a first rail (35) for the power source (32) to move horizontally and a second rail (36) for the feeding barrel (1) to move horizontally synchronously along with the power source (32) are arranged on the supporting frame (31), and the first rail (35) is arranged above the second rail (36) in parallel.

4. The rice pulverizing apparatus in the rice noodle making process according to claim 1, wherein: the limiting part (34) comprises at least one first limiting rod (341) extending along the height direction of the supporting frame (31) and at least one second limiting rod (342) arranged in parallel with the first limiting rod (341), and the distance between the first limiting rod (341) and the second limiting rod (342) is equivalent to the width of the charging basket (1).

5. The rice pulverizing apparatus in the rice noodle making process according to claim 1, wherein: the top of the flexible storage bag (53) is connected with the top of the support frame (31) through a connecting line (531).

6. The rice pulverizing apparatus in the rice noodle making process according to claim 1, wherein: the charging basket (1) is internally provided with a connecting part (12) which can be connected with a pull rope (33), and the connecting part (12) comprises at least two support columns (121) which are connected with the charging basket (1) in a crossing way and just face two side surfaces and connecting rods (122) which are connected between the support columns (121) in a crossing way.

7. The rice pulverizing apparatus in the rice noodle making process according to claim 1, wherein: water filtration net layer (2) are equipped with a plurality of drainage holes (21), and it includes first inclined plane (22), locate second inclined plane (23) and the third inclined plane of first inclined plane (22) both sides respectively, storage bucket (1) bottom export (11) are located lateral wall (13) of storage bucket (1), first inclined plane (22) from being close to storage bucket (1) bottom export (11) position upwards, to the slope of lateral wall two (14) just right with lateral wall one (13), second inclined plane (23) from first inclined plane (22) side upwards, to the slope of lateral wall three (15) of storage bucket (1), the third inclined plane from first inclined plane (22) side upwards, to the slope of lateral wall four (16) just right with lateral wall three (15).

8. The rice pulverizing apparatus in the rice noodle making process according to claim 1, wherein: and a reflector for observing whether the raw materials in the charging bucket (1) are completely discharged is arranged above the feeding hole (41) of the flour mill (4).

9. The rice pulverizing apparatus in the rice noodle making process according to claim 1, wherein: the pulverizer (4) is arranged on a fixing frame (44), the height of the fixing frame (44) is smaller than that of the support frame (31) and larger than that of the mixing barrel support (71), the horizontal parallel of the fixing frame (44) is close to the support frame (31) and the vertical parallel of the fixing frame (44) is close to the mixing barrel support (71).

10. The rice pulverizing apparatus in the rice noodle making process according to claim 1, wherein: the ladder is characterized by further comprising a ladder stand (8) which is arranged close to the limiting part (34).

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