CN212290430U - Rice noodle metering and arranging equipment - Google Patents

Abstract

The utility model discloses a ground rice measurement reason material equipment, including the equipment principal, set up the coarse fodder case in equipment principal upper portion one side, the coarse weighing hopper, the fine fodder case is put to lower part opposite side, the fine weighing hopper, still be equipped with a tipping bucket device between coarse weighing hopper and fine weighing hopper, the tipping bucket device includes a tipping bucket, be equipped with the pivot bottom the tipping bucket, still be equipped with connecting rod and tipping bucket cylinder in pivot one side, connecting rod one end fixed connection is in the pivot, the other end is connected on the piston rod of tipping bucket cylinder, tipping bucket cylinder afterbody passes through the support and connects in the equipment principal, still be equipped with flush device in the tipping bucket left and right sides. The utility model has the advantages that: the surface aligning cylinder simultaneously pushes the surface aligning plate to move, and materials in the tipping bucket are aligned in the axial direction; the tipping bucket is turned over, so that the problem of material crossing and the problem that the rice flour material is obliquely lapped between the coarse scale bucket and the fine scale bucket are solved; the weight sensor transmits data information of difference between the weight of the material and the set parameters to the swing door motor at any time to control the swing speed of the swing door.

Description

Rice noodle metering and arranging equipment

Technical Field

The utility model relates to a ground rice measurement equipment for packing field, especially a ground rice measurement reason material equipment and measurement reason material technology.

Background

In the field of dried noodle metering and packaging equipment, a secondary metering mode is adopted for accurate metering and packaging, the automation level of the equipment is gradually improved, but the equipment is not enough. The vermicelli metering and packaging equipment is directly used for metering and packaging rice noodles, and has a plurality of problems, for example, as shown in fig. 13 and 14, a coarse metering hopper and a fine metering hopper are used for metering to finish secondary metering, but the metering of the vermicelli cannot be realized; in addition, the shape of a single rice flour is irregular, straight, bent and hooked at the end, as shown in fig. 11, when the rice flour material in the coarse weighing hopper slides downwards, the rice flour is crossed and disordered, as shown in fig. 10, even the rice flour material is obliquely lapped between the coarse weighing hopper and the fine weighing hopper; when the coarse weighing hopper resets, the bottom of the coarse weighing hopper clamps the obliquely-arranged rice flour material, when coarse weighing is performed again, the newly-fed material clamps the obliquely-arranged rice flour material, the obliquely-arranged rice flour material pushes the fine weighing hopper downwards when fine weighing is performed again, and the downward pressure of the material in the fine weighing hopper is increased, so that the fine weighing hopper is mistakenly considered to measure the materials up to the standard, the materials are discharged in advance and advance to the next process, and the measuring precision is influenced.

Secondly, when the coarse material box and the fine material box feed, all need dispose swing door device swing feed, its servo swing door motor speed is invariable, and then the swing speed of control swing door is invariable, can not carry out speed adjustment according to material weight in the balance bucket and settlement weight difference to satisfy accurate feed.

In the existing fine dried noodle metering equipment, a fine dried noodle material axial sorting device is not arranged in a metering hopper, so that the axial lengths of finished product materials after fine dried noodle metering are different, and the metering precision is reduced; when the finished material advances to next process, the vermicelli can stretch out to both ends, causes the vermicelli finished material length to differ, influences the strapper and ties up, needs the manual work to arrange neatly, increases the cost of labor, and equipment operation security reduces. The above problems also exist when the vermicelli metering device is directly used for metering rice noodles.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome above technical defect, provide an improve ground rice measurement accuracy, the reason material is neat, the ground rice measurement reason material equipment that convenient one process was marchd downwards.

The utility model discloses a realize that the technical scheme that its technical objective was taken is: a rice flour metering and sorting device comprises a device main body, wherein a coarse material box and a coarse scale hopper are arranged on one side of the upper part of the device main body, a fine material box and a fine scale hopper are arranged on the other side of the lower part of the device main body, a tipping device is further arranged between the coarse scale hopper and the fine scale hopper, the tipping device comprises a tipping bucket, a rotating shaft is arranged at the bottom of the tipping bucket, two ends of the rotating shaft are connected to the device main body, a connecting rod and a tipping bucket cylinder are further arranged on one side of the rotating shaft, one end of the connecting rod is fixedly connected to the rotating shaft, the other end of the connecting rod is connected to a piston rod of the tipping bucket cylinder, the tail part of the tipping bucket cylinder is connected to the device main body through a support, the tipping bucket cylinder controls the tipping bucket to overturn through expansion and contraction, materials in;

the left side and the right side of the tipping bucket are also provided with noodle aligning devices, each noodle aligning device comprises a noodle aligning plate, a noodle aligning cylinder and a noodle aligning support, the noodle aligning support is connected to the equipment main body, the noodle aligning cylinders are arranged on the noodle aligning supports, and the noodle aligning plates are connected to piston rods of the noodle aligning cylinders; the surface aligning cylinder pushes the surface aligning plate to move, and materials in the tipping bucket are aligned and leveled in the axial direction.

Preferably, the tipping device is arranged under the coarse scale bucket, and an opening at the lower end of the coarse scale bucket is over against an opening at the upper end of the tipping device; the thin scale bucket is arranged below the front side of the tipping bucket device, so that when the tipping bucket overturns, the material in the tipping bucket falls into the thin scale bucket, and the material is prevented from being obliquely lapped between the thick scale bucket and the thin scale bucket.

Preferably, the tipping bucket is a bin with a closed bottom and an open upper end, the bin comprises a front side surface, a rear side surface and a bottom surface, and the left side and the right side of the bin are open.

Preferably, a weight sensor is arranged below the fine scale hopper, a swing door device is arranged in the fine material box, the swing door device is driven by a swing door motor through a driving rod, and the weight sensor is in communication connection with the swing door device.

The utility model has the advantages that: 1. the surface aligning cylinder simultaneously pushes the surface aligning plate to move, and materials in the tipping bucket are aligned in the axial direction; 2. the tipping bucket is turned over, so that the problem of material crossing and the problem that the rice flour material is obliquely lapped between the coarse scale bucket and the fine scale bucket are solved; 3. the weight sensor transmits data information of difference between the weight of the material and the set parameters to the swing door motor at any time to control the swing speed of the swing door.

Drawings

FIG. 1 is an overall structure diagram of the present invention;

FIG. 2 is a schematic diagram of the present invention;

FIG. 3 is a diagram of the construction of the coarse hopper and coarse hopper;

FIG. 4 is a schematic diagram of the skip bucket normal position and the flip position;

FIG. 5 is a view of the construction of the fines bin and the fines hopper;

FIG. 6 is a perspective view of the bucket tipping device and the noodle aligning device;

FIG. 7 is a right side view of FIG. 6;

FIG. 8 is a front view of FIG. 6;

FIG. 9 is a schematic diagram of another embodiment;

FIG. 10 is a schematic view of a cross-state of rice flour material;

FIG. 11 is a morphology chart of a single rice flour material;

FIG. 12 is a morphology of a flush rice flour material;

FIG. 13 is a view of a conventional noodle measuring device;

fig. 14 is a schematic view of the positions of the coarse scale bucket and the fine scale bucket in fig. 13.

Labeled as: 1. an apparatus main body; 2. a coarse material box; 3. a coarse scale bucket; 4. a fine material box;

41. a swing door device; 42. a swing door motor; 43. a drive rod; 5. a fine scale bucket; 51. a weight sensor;

6. a tipping device; 61. tipping; 611. a front side; 612. a rear side; 613. a bottom surface; 62. a rotating shaft; 63. a connecting rod; 64. a tipping air cylinder; 65. a support; 7. a dough flattening device; 71. aligning the panel;

72. a flush cylinder; 73. a flush surface bracket.

Detailed Description

The invention will be further explained with reference to the following embodiments:

example one

As shown in fig. 1-14: a rice flour metering and material arranging device comprises a device main body 1, wherein a coarse bin 2 and a coarse scale bucket 3 are arranged on one side of the upper part of the device main body 1, a fine bin 4 and a fine scale bucket 5 are arranged on the other side of the lower part of the device main body 1, a tipping device 6 is further arranged between the coarse scale bucket 3 and the fine scale bucket 5, the tipping device 6 comprises a tipping bucket 61, a rotating shaft 62 is arranged at the bottom of the tipping bucket 61, two ends of the rotating shaft 62 are connected to the device main body 1, a connecting rod 63 and a tipping bucket cylinder 64 are further arranged on one side of the rotating shaft 62, one end of the connecting rod 63 is fixedly connected to the rotating shaft 62, the other end of the connecting rod is connected to a piston rod of the tipping bucket cylinder 64, the tail part of the tipping bucket cylinder 64 is connected to the device main body 1 through a support 65, and the;

the left side and the right side of the tipping bucket 61 are also provided with noodle aligning devices 7, each noodle aligning device 7 comprises a noodle aligning plate 71, a noodle aligning cylinder 72 and a noodle aligning bracket 73, the noodle aligning bracket 73 is connected to the equipment main body 1, the noodle aligning cylinder 72 is arranged on the noodle aligning bracket 73, and the noodle aligning plates 71 are connected to a piston rod of the noodle aligning cylinder 72; the flush air cylinder 72 pushes the flush plate 71 to move, so that the materials in the skip bucket 61 are aligned and leveled in the axial direction.

The tipping device 6 is arranged under the coarse scale bucket 3, and the lower end opening of the coarse scale bucket 3 is opposite to the upper end opening of the tipping device 6; the thin scale bucket 5 is arranged below the front side of the tipping bucket device 6, so that when the tipping bucket 61 turns over, the materials in the tipping bucket 61 fall into the thin scale bucket 5, and the materials are prevented from being obliquely lapped between the thick scale bucket 3 and the thin scale bucket 5.

The skip 61 is a bin with a closed bottom and an open upper end, and the bin includes a front side 611, a rear side 612, and a bottom 613, and the left and right sides of the bin are open.

The weight sensor 51 is arranged below the fine scale bucket 5, the swing door device 41 is arranged in the fine material box 4, the swing door device 41 is driven by the swing door motor 42 through the driving rod 43, and the weight sensor 51 is in communication connection with the swing door device 41.

The utility model discloses a theory of operation and working process as follows:

the rice flour measuring and arranging equipment comprises the following steps:

a. the coarse material box supplies materials into the coarse scale hopper, and the coarse material box stops supplying materials after the set parameters of the coarse scale hopper are reached;

b. opening the coarse scale hopper, and enabling the rice flour material to fall into the tipping bucket;

c. the surface aligning cylinders on the two sides of the tipping bucket push the surface aligning plates to move simultaneously, and materials in the tipping bucket are arranged to be level;

d. the tipping bucket cylinder extends, the tipping bucket turns downwards, and the material falls into the fine scale bucket downwards;

e. the tipping bucket cylinder contracts, and the tipping bucket turns upwards and resets;

f. the fine material box supplies materials into the fine scale bucket, the materials reach set parameters of the fine scale bucket, and the fine material box stops supplying the materials;

g. the lower end of the fine scale hopper is opened, and the qualified rice flour material enters the next procedure.

The concrete description is as follows:

the rice flour metering and arranging equipment is provided with an electric control system, metering parameters of a coarse scale hopper 3 and a fine scale hopper 5 are respectively set, and the equipment is controlled to work step by step according to the parameters to finish secondary metering.

The coarse material box 2 supplies materials into the coarse scale hopper 3, after the set parameters of the coarse scale hopper 3 are reached, the coarse material box 2 stops supplying materials, the coarse scale hopper 3 is opened, rice flour materials fall into the tipping bucket 61, and during the falling process of the rice flour materials, the single rice flour materials are crossed, as shown in figure 10, or the rice flour materials are deviated out of the tipping bucket 61 leftwards and rightwards;

then, the noodle aligning device 7 operates, and since the bin is opened at both left and right sides, the noodle aligning cylinders 72 at both sides of the hopper 61 can simultaneously push the noodle aligning plates 71 to move, and push the single rice noodles deviated to the left and right from the hopper 61 into the hopper 61, thereby aligning the rice noodles in the axial direction.

Then, the tipping bucket cylinder 64 extends to push the connecting rod 63 to rotate downwards, as shown in fig. 6, the tipping bucket 61 turns downwards, the materials fall into the fine scale bucket 5 downwards, in the process of turning and falling of the rice flour materials, the crossing state of the single rice flour is scattered due to turning, and after the rice flour falls into the fine scale bucket 5, the rice flour is straightened and does not cross, as shown in fig. 12.

The rice flour material measured by the coarse scale bucket 3 in the tipping bucket 61 falls into the fine scale bucket 5 after being overturned, so that the obliquely-overlapped material is not positioned between the coarse scale bucket 3 and the fine scale bucket 5 any more, and the measuring precision of the fine scale bucket 5 is not influenced any more.

The dump body cylinder 65 contracts and the traction link 63 rotates upward, so that the dump body 61 is tilted upward and returned as shown in fig. 6.

The fine material box 4 continues feeding materials into the fine scale hopper 5, after the materials reach the set parameters of the fine scale hopper 5, the fine material box 4 stops feeding materials, the lower end of the fine scale hopper 5 is opened, and qualified rice flour materials enter the next procedure for packaging.

When the dough aligning device 7 acts, the coarse scale bucket 3 is closed, and the coarse material box 2 supplies materials to the coarse scale bucket 3 for the next time. During the period of time when the dump bucket 61 is turned over and reset, the coarse scale bucket 3 finishes metering, and then the coarse scale bucket 3 is opened for the next metering.

The weight sensor 51 is arranged below the fine scale hopper 5, the swing door device 41 is arranged in the fine material box 4, the swing door device 41 is driven by the swing door motor 42, the weight sensor 51 is in communication connection with the swing door device 41, difference data information between the weight of the fine scale hopper 5 and set parameters is transmitted to the swing door motor 42 from time to time, the swing speed of the swing door device 41 is controlled, when the difference is large, the swing speed of the swing door is accelerated, when the difference is reduced, the swing speed of the swing door is reduced until the material 5 in the fine scale hopper reaches a set value, and the swing door device 41 stops working.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention. However, any simple modification, equivalent change and modification made to the above embodiments according to the technical substance of the present invention still belong to the protection scope of the technical solution of the present invention.

Claims (4)

1. The utility model provides a ground rice measurement reason material equipment, includes an equipment principal upper portion one side sets up coarse fodder case, coarse scale fill, and fine fodder case, fine scale fill are put to the lower part opposite side, its characterized in that: a tipping bucket device is further arranged between the coarse scale bucket and the fine scale bucket, the tipping bucket device comprises a tipping bucket, a rotating shaft is arranged at the bottom of the tipping bucket, two ends of the rotating shaft are connected to the equipment main body, a connecting rod and a tipping bucket cylinder are further arranged on one side of the rotating shaft, one end of the connecting rod is fixedly connected to the rotating shaft, the other end of the connecting rod is connected to a piston rod of the tipping bucket cylinder, the tail part of the tipping bucket cylinder is connected to the equipment main body through a support, and the tipping bucket cylinder controls the tipping bucket to overturn through expansion and contraction so as to straighten materials in the tipping bucket and solve the problem of material intersection;

the left side and the right side of the tipping bucket are also provided with noodle aligning devices, each noodle aligning device comprises a noodle aligning plate, a noodle aligning cylinder and a noodle aligning support, the noodle aligning support is connected to the equipment main body, the noodle aligning cylinders are arranged on the noodle aligning supports, and the noodle aligning plates are connected to piston rods of the noodle aligning cylinders; the surface aligning cylinder pushes the surface aligning plate to move, and materials in the tipping bucket are aligned and leveled in the axial direction.

2. The rice flour metering and tidying device according to claim 1, characterized in that: the tipping device is arranged under the coarse scale bucket, and an opening at the lower end of the coarse scale bucket is over against an opening at the upper end of the tipping device; the thin scale bucket is arranged below the front side of the tipping bucket device, so that when the tipping bucket overturns, the material in the tipping bucket falls into the thin scale bucket, and the material is prevented from being obliquely lapped between the thick scale bucket and the thin scale bucket.

3. The rice flour metering and tidying device according to claim 2, characterized in that: the tipping bucket is the feed bin of bottom closure, upper end open-ended, the feed bin includes leading flank, trailing flank, bottom surface, and the feed bin left and right sides is open.

4. The rice flour metering and tidying device according to claim 1, characterized in that: the fine weighing device is characterized in that a weight sensor is arranged below the fine weighing hopper, a swing door device is arranged in the fine material box, the swing door device is driven by a swing door motor through a driving rod, and the weight sensor is in communication connection with the swing door device.

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