CN220836667U - Grain processing production line device with integrated impurity-removing type plane rotary vibrating screen - Google Patents

Abstract

A grain processing production line device with an integrated impurity-removing type plane rotary vibrating screen belongs to the technical field of grain processing machinery and aims to solve the problems that the whole structure of the existing grain processing production line device is complex and the comprehensive impurity-removing effect is poor. The base that it adopted is installed in proper order and is linked with first lifting machine, the plane on the ground seat frame soon shakes the sieve, the subaerial gravity classification stoner and the second lifting machine that sets up on the base, first lifting machine discharge opening department is connected with the feed inlet of plane soon shakes the sieve box through 1 st conveying pipeline, the feed inlet of plane soon shakes the sieve box, the frame, hang the jib, the discharging case, heavy impurity material precipitation mechanism, light impurity discharge port, the material discharge port after the sieve, the miscellaneous outlet of earth powder, contain heavy impurity material outlet, rotating body, upper screen plate and lower floor's sieve board connect and constitute. The whole structure is novel and practical, can remove large impurities, soil impurities and heavy impurity materials, and is suitable for impurity removal processing operations of grains, feeds, grease and the like.

Description

Grain processing production line device with integrated impurity-removing type plane rotary vibrating screen

Technical Field

The utility model belongs to the technical field of grain processing machinery and relates to a grain processing production line device.

Background

With the increasing development and technical progress of the processing industries such as grains, feeds, grease and the like, the technical requirements on mechanical devices of processing production lines are higher and higher, and the grain processing machinery is directly related to the quality and effect of the application of subsequent products. In the prior art, the existing grain processing production line device mainly adopts grain cleaning machinery comprising procedures of screening, removing stones and the like, wherein firstly, the screening machinery removes large impurities, namely impurities larger than the sieve holes of an upper layer sieve plate and impurities larger than the main processing material, namely impurities smaller than the sieve holes of a bottom layer sieve plate, but heavy impurities mainly comprise stone blocks and sand grains which have the same granularity as the particle materials for processing the main processing material, the heavy impurities cannot be separated, and then the stone removing machinery equipment in the next procedure removes the heavy impurities such as stone blocks, sand grains, metal matters and the like in the raw materials, but the whole structure is complex, the occupied area is large, the impurity removing processing effect is poor, and the practical application is inconvenient; as another example, a grain processing production line disclosed in chinese patent publication No. CN110813750a comprises two grain storage tanks, two spiral feeders, a screening tank and a conveyor belt which are sequentially arranged on the ground, wherein a discharge port of the first spiral feeder is provided with a feed conveying pipe above the screening tank; the screening box is internally provided with two layers of screens with sequentially reduced apertures, discharging pipes are arranged on the outer wall of the screening box and correspond to the lower parts of the two layers of screens, collecting bags are tied on the discharging pipes positioned on the lower parts, and a material conveying pipe port is arranged at the discharge port of the second spiral feeder and positioned above the second grain storage box; the second grain storage tank bottom goes out to be equipped with the solenoid valve on the grain pipe, go out to be equipped with electronic scale ware one side under the grain pipe and be equipped with the sack closer, install control panel on the second grain storage tank outer wall, but from its structure, this kind of grain processing line is from being equipped with two-layer screen cloth that reduces in proper order in the screening case, but only can get rid of big miscellaneous, the miscellaneous material of soil, in the material processing operations such as grain, fodder, grease in fact, comprehensive clear miscellaneous effect is relatively poor, still need add the heavy impurity material process such as getting rid of stone, sand grain, metallic debris, add in addition and remove the machinery that stone class clear away heavy impurity for whole processing line structure is complicated, and complex operation also causes the processing workshop to take up an area of big, overall structure remains to be further improved.

In view of this, to accommodate the development and progress of grain processing machinery, there is a need for further improvements and developments in a new grain processing line apparatus.

Disclosure of utility model

In order to overcome the defects of the prior art, the problems of complex overall structure and poor comprehensive impurity removal effect of the traditional grain processing production line device are solved. The utility model aims to provide a novel and practical integral structure, which can simultaneously remove heavy impurity materials such as large impurities, earth, impurity powder and impurities, stones, sand grains, metal impurities and the like, has good comprehensive impurity removal effect, stable working operation, small occupied area, investment saving and convenient use.

The utility model solves the problems by adopting the following technical scheme:

A grain processing production line device containing an integrated impurity-removing type plane rotary vibrating screen comprises: the device comprises a base, a first lifting machine, a ground seat frame, a plane rotary vibration screen box body, a gravity grading stone remover, a second lifting machine, a frame, a hanging boom, a discharge box, a heavy impurity material precipitation mechanism, a light impurity discharge port, a clean material after screening 1 st discharge port, a soil impurity powder impurity material 2 nd discharge port, a heavy impurity material 3 rd discharge port, a rotary main body, an upper layer screen plate and a lower layer screen plate; the device comprises a base, a first lifting machine, a planar rotary vibration screen box body on a ground seat frame, a gravity grading stone removing machine on the ground and a second lifting machine arranged on the base, wherein a discharge opening of the first lifting machine is connected with a box feed opening of the planar rotary vibration screen box body through a1 st conveying pipe, and the box feed opening, a frame, a hanging boom, a discharge box, a heavy impurity material precipitation mechanism, a light impurity discharge opening, a clean material after screening 1 st discharge opening, a soil impurity powder impurity material 2 nd discharge opening, a heavy impurity material 3 rd discharge opening, a rotary main body, an upper layer screen plate and a lower layer screen plate of the planar rotary vibration screen box body are connected; the outlet of the first net material after the screen of the lower layer screen plate of the plane rotary vibration screen box body is connected with a second lifting machine through a material 3 conveying pipe on the lower layer screen plate; the 3 rd discharge port of the heavy impurity-containing material is fed into the feed inlet of a stoner of the gravity classification stoner through the 4 th feed delivery pipe of the heavy impurity-containing material, and the 2 nd discharge port of the earth impurity-containing material is connected to a dust box through the 5 th feed delivery pipe of the connected earth impurity-containing material; the gravity grading stone remover consists of a stone remover feed inlet, an air suction inlet, a first layer of sieve plate, a second layer of sieve plate stone outlet, a vibrating main body, a light material 1 st discharge port and a light material 2 nd discharge port which are connected.

The grain processing production line device with the integrated impurity-removing type plane rotary vibration sieve comprises a discharge opening of a first elevator, a box body feed inlet of a plane rotary vibration sieve box body connected with the rear of a 1 st conveying pipe, an upper layer sieve plate connected with the box body feed inlet, a plane rotary vibration sieve box body suspended and connected by a suspension rod fixed on a frame, a rotating main body connected to the side body of the plane rotary vibration sieve box body for driving the plane rotary vibration sieve to do plane rotary motion, a light impurity discharge opening connected with the upper part of the upper layer sieve plate, a lower layer sieve plate correspondingly connected with the lower part of the upper layer sieve plate, a soil impurity powder impurity material 2 discharge opening connected with a box body bottom plate connected with the lower part of the lower layer sieve plate, and a heavy impurity precipitation mechanism connected with the upper part of the upper layer sieve plate, the first discharge port of the sifted material connected with the rear part of the heavy impurity precipitation mechanism is connected with the second lifting machine, the rear part of the heavy impurity precipitation mechanism is also connected with the third discharge port of the heavy impurity material, the third discharge port of the heavy impurity material is connected with the feed inlet of the stone removing machine of the gravity grading stone removing machine through the 4 th discharge pipe of the connected heavy impurity material, the lower part of the first layer of sieve plate is correspondingly connected with the second layer of sieve plate, the gravity grading stone removing machine is matched with the vibration main body and the air suction port, the rear part of the gravity grading stone removing machine is connected with the stone outlet, and the rear part of the light impurity discharge port is respectively connected with the 1 st discharge port and the 2 nd discharge port of the light impurity material which are mutually connected in parallel and then connected with the light material collecting box.

The grain processing production line device with the integrated impurity-removing type plane rotary vibration sieve comprises a precipitation mechanism, a separation mechanism and a control mechanism, wherein the precipitation mechanism of the heavy impurities consists of a precipitation opening regulating and controlling plugboard, a precipitation groove board containing heavy impurity materials, a precipitation connecting seat containing the heavy impurity materials, a lower layer sieve plate, a sieve body bottom plate, a sieve tail connecting plate, a 2 nd discharge port of earth impurity powder impurities and a 3 rd discharge port of the heavy impurity materials; the heavy impurity-containing material precipitation connecting seat is of a cross section convex structure, one side of the heavy impurity-containing material precipitation connecting seat is connected with a lower layer sieve plate and the other side of the heavy impurity-containing material precipitation connecting seat is connected with a sieve tail connecting plate of the plane rotary vibration sieve box body, a heavy impurity-containing material precipitation groove plate is arranged on a heavy impurity-containing material precipitation connecting seat convex shoulder part positioned at a rear tail joint of the lower layer sieve plate, a precipitation material outlet opening regulating and controlling plugboard is matched and arranged on a heavy impurity-containing material precipitation outflow channel of the heavy impurity-containing material precipitation connecting seat, and a 3 rd discharge outlet of the heavy impurity-containing material of a discharge box is connected with a 2 nd discharge outlet of the soil impurity powder impurity-containing material.

The grain processing production line device with the integrated impurity-removing type plane rotary vibration sieve comprises a base arranged in a pit and any one of the bases arranged on the ground; the bottom of the base is provided with a skid-mounted base, and the skid-mounted base is an integral skid-mounted grain processing production line device.

When the integrated impurity-removing type plane rotary vibration sieve is used, the novel grain processing production line device with the integrated impurity-removing type plane rotary vibration sieve is used according to design requirements and actual needs.

The technological process of the novel grain processing production line device is as follows: the material enters a box body feed inlet of a plane rotary vibration screen box body through a1 st feed conveying pipe at a discharge opening after passing through a first lifting machine, the material is flatly paved on an upper layer screen plate, the plane rotary vibration screen box body is suspended by a suspension rod fixed on a frame, the material which enters an upper layer screen plate after being driven to do plane rotary motion through a rotary main body moves along with the screen body, light impurities larger than screen holes are discharged through light impurity discharge openings, the material smaller than screen holes of the screen plate passes through the screen plate and enters a lower layer screen plate, the impurity materials smaller than screen holes of the lower layer screen plate fall into a box bottom plate, and are discharged from the impurity powder discharge openings and conveyed to a dust box, and the main material larger than the screen holes of the lower layer screen plate enters a heavy impurity precipitation mechanism along with the movement of the screen body; the plane rotary vibration screen box body is characterized in that heavy materials and heavy impurities can be deposited on a lower layer screen plate in the operation process, large impurities and materials without heavy impurities can be arranged on the heavy materials, the whole materials can be pushed to a discharge box along with the movement of the screen body, when the materials on the lower layer screen plate enter a heavy impurity precipitation mechanism, the heavy impurity-containing materials enter the heavy impurity precipitation mechanism through a material opening, and the heavy impurity-containing materials are discharged into a gravity classification stone remover through a heavy impurity precipitation groove plate; the large impurity and the material without heavy impurity enter the second lifting machine through the 1 st outlet of the net material after sieving. So as to realize the purpose of removing light materials, earth and powder materials and heavy impurity-containing materials by one machine. The grain processing production line is already applied to the processing industries of grains, feeds, grease and the like, and the gravity grading stone remover assembled on the existing production line can be saved by adopting the first-line integrated comprehensive impurity removal of the production line, and is already approved by customers.

Because the design of the utility model adopts the technical scheme, in particular the integrated plane rotary vibration screen box body is internally provided with the heavy impurity-containing material precipitation mechanism, the utility model effectively solves the problems of complex integral structure and poor comprehensive impurity-removing effect of the existing grain processing production line device. The practical operation test shows that the device has the advantages of novel and practical integral structure, capability of simultaneously removing heavy impurity materials such as large impurities, earth and impurity powder impurities, stones, sand grains, metal impurities and the like, good comprehensive impurity removal effect, stable working operation, small occupied area, investment saving, convenient use and the like, and is suitable for impurity removal processing operations such as grains, feeds, grease and the like.

Additional features and advantages of the utility model will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the utility model. The objectives and other advantages of the utility model may be realized and attained by the structure particularly pointed out in the written description and drawings.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings required for the description of the embodiments will be briefly described below, and it is obvious that the drawings described are some embodiments of the present utility model, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic diagram of a specific structure of an embodiment of the present utility model.

Fig. 2 is an enlarged schematic view of the embodiment of fig. 1, wherein part a includes a heavy impurity-containing material precipitation mechanism.

Fig. 3 is an enlarged schematic view of the structure of the integrated comprehensive impurity removal planar rotary vibration sieve in the embodiment of fig. 1.

The reference numerals in the drawings are: 1-a first elevator; 2-1 st feed delivery pipe; 3-a box body feed inlet; 4-a frame; 5-an upper layer sieve plate; 6-hanging a boom; 7-a plane rotary vibration screen box body; 701, a screen body bottom plate; 702-a screen tail connecting plate; 8-a heavy impurity precipitation mechanism; 801-a separating out material opening regulating and controlling plugboard; 802-separating out a groove plate from a heavy impurity-containing material; 803-separating out a connecting seat from a material containing heavy impurities; 9, a discharge box; 10-a light impurity discharge port; 11-the 1 st discharge outlet of the net material after sieving; 12-a material 3-th material conveying pipe on the lower layer sieve plate; 13-a gravity grading stoner; 14-2 nd conveying pipe; 15-a light material collecting box; 16-the 1 st discharge hole of the light material; 17-the discharge port 2 of the light material; 18-vibrating the body; 19-a dust box; 20-heavy impurity discharge port; 21-a second layer of sieve plates; 22-a first layer of sieve plates; 23-a feeding port of the stone remover; 24-an air suction port; 25-a 4 th feed conveyor pipe containing heavy impurity material; 26-the 2 nd discharge port of the earth powder sundry material; 27-a 3 rd discharge port for heavy impurity-containing material; 28-rotating the body; 29-a lower layer sieve plate; 30-a 5 th material conveying pipe for the miscellaneous powder materials; 31-a second elevator; 32-a base; 321-a ground mount; 33-sled dress formula base.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the description of the present utility model, it should be noted that the terms "upper", "lower", "left", "right", "inner", "outer", "top", "bottom", "front", "rear", "head", "tail", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, merely to facilitate description of the present utility model and simplify description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

As shown in fig. 1 to 3, the present embodiment includes: the device comprises an underground base 32, a first lifting machine 1, a ground seat frame 321, a plane rotary vibration screen box 7, a gravity grading stone remover 13, a second lifting machine 31, a frame 4, a suspension boom 6, a discharge box 9, a heavy impurity material precipitation mechanism 8, a light impurity discharge port 10, a post-screen clean material 1 st discharge port 11, a soil impurity powder impurity material 2 nd discharge port 26, a heavy impurity material 3 rd discharge port 27, a rotary main body 28, an upper screen plate 5 and a lower screen plate 29; the base 32 is sequentially provided with a first lifting machine 1, a planar rotary vibration sieve box 7 on a ground seat frame 321, a gravity grading stone removing machine 13 on the ground and a second lifting machine 31 arranged on the base 32, the discharge opening of the first lifting machine 1 is connected with a box feed opening 3 of the planar rotary vibration sieve box 7 through a1 st conveying pipe 2, and the planar rotary vibration sieve is formed by connecting a box feed opening 3 of the planar rotary vibration sieve box 7, a frame 4, a hanging boom 6, a discharge box 9, a heavy impurity material precipitation mechanism 8, a light impurity discharge opening 10, a post-sieve clean material 1 discharge opening 11, a soil impurity powder impurity material 2 discharge opening 26, a heavy impurity material 3 discharge opening 27, a rotary main body 28, an upper layer sieve plate 5 and a lower layer sieve plate 29; the outlet 11 of the clean material 1 after the screen of the lower layer screen plate 29 of the plane rotary vibration screen box body 7 is connected with a second lifting machine 31 through a material 3 conveying pipe 12 on the lower layer screen plate; the 3 rd discharge port 27 of the heavy impurity-containing material is fed into the feeding port 23 of the stoner of the gravity classification stoner 13 through the 4 th conveying pipe 25 of the heavy impurity-containing material, and the 2 nd discharge port 26 of the earth impurity powder impurity-containing material is connected to the dust box 19 through the 5 th conveying pipe 30 connected with the earth impurity powder impurity-containing material; the gravity grading stoner 13 is formed by connecting a stoner feed inlet 23, an air suction inlet 24, a first layer sieve plate 22, a second layer sieve plate 21, a stone outlet 20, a vibrating main body 18, a light material 1 st discharge outlet 16 and a light material 2 nd discharge outlet 17.

Preferably, referring to fig. 1-3, in this embodiment, the discharge port of the first elevator 1 is connected to the tank feed port 3 of the planar rotary vibration sieve tank 7 behind the 1 st conveying pipe 2, the tank feed port 3 is connected to the upper layer sieve plate 5, the planar rotary vibration sieve tank 7 is suspended and connected by the suspension rod 6 fixed on the frame 4, the rotating body 28 is connected to the side of the planar rotary vibration sieve tank 7 that drives the planar rotary vibration sieve to move, the upper part of the upper layer sieve plate 5 is connected to the light impurity discharge port 10, the lower part is correspondingly connected to the lower layer sieve plate 29, the lower part of the lower layer sieve plate 29 is connected to the earth impurity material 2 nd discharge port 26 of the tank bottom plate, the upper part is connected to the heavy impurity precipitation mechanism 8, the net material 1 st discharge port 11 connected to the rear part of the heavy impurity precipitation mechanism 8 is connected to the second elevator 31, the rear part of the heavy impurity precipitation mechanism 8 is also connected to the heavy impurity material 3 rd discharge port 27, the heavy impurity material 3 rd discharge port 27 is connected to the light impurity material 13 through the heavy impurity material 4 th discharge port 25 and the light impurity material discharge port 13 through the weight stone 4 th discharge port 13, the light impurity material discharge port 2 is correspondingly connected to the light impurity material discharge port 13 of the light impurity material collector 13, and the light impurity material collector 13 is correspondingly connected to the light impurity material collector 13, and the lower part is connected to the light impurity material collector 13 is correspondingly connected to the light impurity material discharge port 2.

Specifically, referring to fig. 1 to 3, the heavy impurity precipitation mechanism 8 in this embodiment is composed of a precipitation opening adjusting and controlling plugboard 801, a heavy impurity material precipitation tank board 802, a heavy impurity material precipitation connecting seat 803 connected with a lower layer screen board 29, a screen body bottom board 701, a screen tail connecting board 702, a soil impurity powder impurity material 2 nd discharge port 26, and a heavy impurity material 3 rd discharge port 27; the heavy impurity-containing material precipitation connecting seat 803 is of a cross section convex structure, one side of the heavy impurity-containing material precipitation connecting seat 803 is connected with the lower layer screen plate 29, the other side body is connected with the screen tail connecting plate 702 of the plane rotary vibration screen box 7, the shoulder part of the heavy impurity-containing material precipitation connecting seat 803 positioned at the rear tail interface of the lower layer screen plate 29 is provided with a heavy impurity-containing material precipitation groove plate 802, a precipitation material opening regulating and controlling plugboard 801 is matched and installed on a heavy impurity-containing material precipitation outflow channel of the heavy impurity-containing material precipitation connecting seat 803, the side seat plate of the heavy impurity-containing material precipitation connecting seat 803 is connected with a heavy impurity-containing material 3 rd outlet 27 of the discharge box 9, and the lower part of the precipitation connecting seat is connected with a soil impurity powder impurity material 2 nd outlet 26.

Further preferably, referring to fig. 1, the base 32 of the present embodiment is a base disposed in a pit; the skid-mounted base 33 is assembled at the bottom of the base 32 according to actual needs, and the skid-mounted grain processing production line device is formed into a whole and is transported to a grain collection and storage site or a temporary mechanic workshop for grain processing production operation.

The above is only one embodiment, and other technical features and technical solutions derived from adding components, equivalent substitutions and partial improvements without the inventive effort of a person skilled in the art are within the scope of protection of the present patent.

Claims (4)

1. The grain processing production line device with the integrated impurity-removing type plane rotary vibrating screen is characterized by comprising a base (32), a first lifting machine (1), a ground seat frame (321), a plane rotary vibrating screen box body (7), a gravity grading stone removing machine (13), a second lifting machine (31), a frame (4), a hanging boom (6), a discharging box (9), a heavy impurity material precipitation mechanism (8), a light impurity discharge outlet (10), a post-screen clean material 1 discharge outlet (11), a soil impurity powder impurity material 2 discharge outlet (26), a heavy impurity material 3 discharge outlet (27), a rotary main body (28), an upper screen plate (5) and a lower screen plate (29); the device is characterized in that a first lifting machine (1), a plane rotary vibration screen box body (7) on a ground seat frame (321), a gravity grading stoner (13) on the ground and a second lifting machine (31) arranged on the base (32) are sequentially arranged on the base (32), a discharge opening of the first lifting machine (1) is connected with a box body feed opening (3) of the plane rotary vibration screen box body (7) through a1 st conveying pipe (2), and the box body feed opening (3) of the plane rotary vibration screen box body (7), a frame (4), a hanging boom (6), a discharge box (9), a heavy impurity material precipitation mechanism (8), a light impurity discharge opening (10), a post-screening clean material 1 st discharge opening (11), a soil impurity powder impurity material 2 nd discharge opening (26), a heavy impurity material 3 rd discharge opening (27), a rotating main body (28), an upper layer screen plate (5) and a lower layer screen plate (29) are connected to form the device; the outlet (11) of the clean material 1 after the screen of the lower layer screen plate (29) of the plane rotary vibration screen box body (7) is connected with a second lifter (31) through a material 3 conveying pipe (12) on the lower layer screen plate; the 3 rd discharge port (27) of the heavy impurity-containing material is fed into the feeding port (23) of the stoner of the gravity grading stoner (13) through the 4 th conveying pipe (25) of the heavy impurity-containing material, and the 2 nd discharge port (26) of the earth impurity-containing material is connected to the dust box (19) through the 5 th conveying pipe (30) of the connected earth impurity-containing material; the gravity grading stoner (13) is formed by connecting a stoner feed inlet (23), an air suction inlet (24), a first layer of sieve plate (22), a second layer of sieve plate (21) and a stone outlet (20), a vibrating main body (18), a light material 1 discharge port (16) and a light material 2 discharge port (17).

2. The grain processing production line device with the integrated impurity-removing type plane rotary vibration sieve according to claim 1, wherein a discharge opening of the first lifting machine (1) is connected with a box body feed opening (3) of a1 st conveying pipe (2) and a plane rotary vibration sieve box body (7) in a rear connection mode, the box body feed opening (3) is connected with an upper layer sieve plate (5), the plane rotary vibration sieve box body (7) is suspended and connected by a hanging rod (6) fixed on a frame (4), the rotating main body (28) is connected with a side body of the plane rotary vibration sieve box body (7) which drives the plane rotary vibration sieve, the upper part of the sieve plate (5) is connected with a light impurity discharge opening (10), the lower part of the sieve plate is correspondingly connected with a lower layer sieve plate (29), the lower part of the lower layer sieve plate (29) is connected with a soil impurity powder impurity material 2 discharge opening (26) of a box body bottom plate, the upper part of the sieve box body feed opening (3) is connected with a heavy impurity precipitation mechanism (8), a sieve material 1 discharge opening (11) connected with the rear part of the heavy impurity precipitation mechanism (8) is suspended and connected with a heavy impurity precipitation mechanism (27) through a heavy impurity discharge opening (3) of the heavy impurity-removing machine (3) which is connected with a heavy impurity removing mechanism (27), the lower part of the first layer of sieve plate (22) is correspondingly connected with the second layer of sieve plate (21), the gravity grading stoner (13) is matched with and connected with the vibrating main body (18) and the air suction inlet (24), the rear part of the gravity grading stoner (13) is connected with the stone outlet (20), and the rear part of the light impurity outlet (10) is respectively connected with the light material 1 discharge outlet (16) and the light material 2 discharge outlet (17) which are mutually connected in parallel and then is connected with the light material collecting box (15).

3. The grain processing production line device with the integrated impurity-removing type plane rotary vibration sieve according to claim 1, wherein the precipitation mechanism (8) of the heavy impurities consists of a precipitation material opening regulating plug board (801), a precipitation tank board (802) of the heavy impurity-containing materials, a precipitation connection seat (803) of the heavy impurity-containing materials, a lower layer sieve plate (29), a sieve body bottom plate (701), a sieve tail connection plate (702), a2 nd discharge port (26) of the earth impurity powder impurities and a 3 rd discharge port (27) of the heavy impurity-containing materials; the heavy impurity-containing material separating out even seat (803) is of a cross section convex structure, one side of the heavy impurity-containing material separating out even seat is connected with a lower layer screen plate (29) and the other side body is connected with a screen tail even plate (702) of a plane rotary vibration screen box body (7), the shoulder part of the heavy impurity-containing material separating out even seat (803) positioned at the rear tail interface of the lower layer screen plate (29) is provided with a heavy impurity-containing material separating out groove plate (802), the heavy impurity-containing material separating out outflow channel of the heavy impurity-containing material separating out even seat (803) is matched and provided with a separating out material opening regulating and controlling plug plate (801), the side seat plate of the heavy impurity-containing material separating out even seat (803) is connected with a heavy impurity-containing material 3 rd outlet (27) of a discharging box (9), and the lower part of the separating out even seat is connected with a soil impurity powder impurity material 2 nd outlet (26).

4. Grain processing line device with integrated impurity-removing planar rotary vibrating screen according to claim 1, characterized in that the base (32) is any one of a base set in a pit and a base set on the ground; the bottom of the base (32) is provided with a skid-mounted base (33) to form an integral skid-mounted grain processing production line device.