CN215542542U - Novel edible oil processing raw material screening device - Google Patents

Abstract

The utility model provides a novel raw material screening device for edible oil processing, which comprises a screening box, an inverted T-shaped rod, a fixed pipe, a vibration motor, a buffer spring, an adjustable blanking pipe structure, a rotatable pushing roller structure, an adsorbable collection box structure, a screening sieve, a guide plate, a U-shaped pipe, a guide pipe, a bottom plate, a driving motor, a discharge plate and a driving wheel. According to the utility model, the blanking funnel, the blanking pipe, the arc-shaped sliding hole, the first rotating plate, the sliding rod and the wing-shaped nut are arranged, so that the wing-shaped nut can be loosened during the work, the angle of the first rotating plate can be adjusted, and the blanking speed can be conveniently adjusted during the work; the rotating tube drives the wheel, and the setting of motor and action wheel is favorable to driving the motor during operation and driving the rotating tube and rotate with the second rotor plate through driving the motor during operation to the second rotor plate, then promotes the work of sieving that the material influence material when the material prevents to sieve by the material excess thickness.

Description

Novel edible oil processing raw material screening device

Technical Field

The utility model belongs to the technical field of screening devices, and particularly relates to a novel raw material screening device for edible oil processing.

Background

Oil is an industrial raw material for preparing oil, and usually, certain impurities (such as dust, small stones, plant impurities and the like) are mixed in the oil, and if the impurities are squeezed together with the oil, the impurities are contained in the oil, so that the quality of the oil is reduced. Generally, before oil is extracted, oil needs to be cleaned, and oil impurities are removed.

But current sieving mechanism still has the inconvenient unloading speed of adjusting in-process that uses, and inconvenient promotion material scatters and inconvenient collection material sieves out the problem of impurity at the during operation.

Therefore, the utility model of the novel raw material screening device for edible oil processing is very necessary.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problems, the utility model provides a novel raw material screening device for edible oil processing, which aims to solve the problems that the existing screening device is inconvenient to adjust the blanking speed in the using process, inconvenient to push materials to scatter and inconvenient to collect impurities screened out by the materials in the working process. The novel raw material screening device for edible oil processing comprises a screening box, an inverted T-shaped rod, a fixing pipe, a vibration motor, a buffer spring, an adjustable blanking pipe structure, a rotatable pushing roller structure, an adsorbable collecting box structure, a screening sieve, a guide plate, a U-shaped pipe, a guide pipe, a bottom plate, a driving motor, a discharge plate and a driving wheel, wherein the upper end of the inverted T-shaped rod is respectively bolted at four corners of the lower end of the screening box; the lower end of the inverted T-shaped rod is inserted in sliding holes formed in the left side and the right side of the fixed pipe in a sliding mode; the vibration motor coupling is connected to the middle of the lower end of the screening box; the buffer spring is inserted into the bottom end of the fixed pipe; the adjustable blanking pipe structure is arranged on the right side of the upper end of the screening box; the rotatable pushing roller structure is arranged at the upper right corner inside the screening box; the structure of the adsorbable collection box is arranged on the left side of the upper end of the bottom plate; the screening screen is connected with the upper part of the inner wall and the lower part of the inner wall of the screening box through screws; the guide and delivery plates are respectively connected to the upper part and the lower part of the inner wall of the screening box through bolts; the left side of the upper end of the U-shaped pipe is connected to the middle position of the right side of the screening box through a bolt; the left side of the lower end of the U-shaped pipe is connected with the lower part of the right side of the screening box through a bolt; the guide and conveying pipe is connected to the upper part of the left side of the screening box through a bolt; the lower ends of the fixed pipes are respectively connected to the right side of the upper end of the bottom plate through bolts; the driving motor is connected to the left side of the upper end of the screening box through a bolt; the discharging plate is connected to the lower part of the middle position of the right side of the screening box through a bolt; the driving wheel is connected to the outer wall of the output shaft of the vibrating motor in a key manner; the adjustable blanking pipe structure comprises a blanking funnel, a blanking pipe, a first shielding plate, an arc-shaped sliding hole, a first rotating plate, a sliding rod and a wing-shaped nut, wherein the upper end of the blanking pipe is connected to the lower end of the blanking funnel through a bolt; the right side of the first baffle plate is connected to the lower part of the middle position of the inner wall of the right side of the discharging hopper through a bolt; the arc-shaped sliding hole is formed in the middle of the lower part of the blanking pipe; the upper end of the first rotating plate is connected to the right lower corner of the inner wall of the discharging hopper in a shaft mode; the sliding rods are respectively welded on the lower part of the front surface and the lower part of the rear surface of the first rotating plate; the wing nuts are respectively connected to the outer wall of the sliding rod through bolts.

Preferably, the rotatable push roller structure comprises a rotating pipe, a driven wheel, a second rotating plate, a rotating rod and a poking plate, wherein the rotating pipe is connected to the middle position of the outer wall of the rotating rod through a bolt; the driven wheel is connected with the outer wall of the front surface of the rotating rod in a key mode; one end of the second rotating plate is welded on the outer wall of the rotating pipe respectively; the poking plate is sequentially axially connected with the middle position in the other end of the second rotating plate from front to back.

Preferably, the structure of the adsorbable collection box comprises a collection box, a second baffle plate, an adsorption block, a pulling rod and an anti-slip pad, wherein the second baffle plate is respectively connected to the upper part of the right side of the front surface and the upper part of the right side of the rear surface of the collection box through bolts; the adsorption blocks are respectively connected to the four corners of the lower end of the collection box through bolts; the pulling rod is connected to the lower part of the left side of the collecting box through a bolt; the non-slip mat is connected to the lower end of the collecting box through screws.

Preferably, the upper end of the screening sieve is provided with bulges sequentially from left to right; the screening sieve is respectively arranged at the upper end of the guide plate; the middle positions of the upper end of the buffer spring and the lower end of the inverted T-shaped rod are arranged; the vibrating motor is arranged between the fixed pipes.

Preferably, the upper end of the first rotating plate is arranged between the lower end of the first shielding plate and the right inner wall of the blanking funnel; the sliding rod penetrates through the arc-shaped sliding hole in a sliding manner; the wing nuts are respectively arranged on the lower portion of the front surface and the lower portion of the rear surface of the blanking pipe.

Preferably, the lower end of the blanking pipe is connected to the right side of the upper end of the screening box through a bolt; the blanking pipe is communicated with the screening box; the blanking funnel is communicated with the screening box through a blanking pipe.

Preferably, the rotating rod is connected to the right upper corner of the inside of the screening box in a rotating mode; the driven wheel is arranged at the upper right corner of the front surface of the screening box; the driving wheel V belt is in transmission connection with the driven wheel.

Preferably, the second rotating plate is a stainless steel plate with one end provided with grooves in sequence from front to back; the driven wheel is arranged in the middle of the front surface of the rotating pipe.

Preferably, the second shielding plate is a transparent PVC plate; the adsorption block adopts a magnet block; the upper part of the right side of the collecting box is provided with a through hole.

Preferably, the collecting box is adsorbed on the left side of the upper end of the bottom plate through an adsorption block; the collecting box is arranged on the left side of the fixed pipe; the PVC plate arranged on the lower portion of the left side of the screening box is inserted in the middle of the inside of the right side of the collecting box.

Preferably, the vibration motor is a high-frequency vibration motor with the model of MVE-H; the driving motor is a speed reducing motor with the model of TCH/V-2200.

Compared with the prior art, the utility model has the beneficial effects that:

1. according to the utility model, the arrangement of the blanking funnel, the blanking pipe, the arc-shaped sliding hole, the first rotating plate, the sliding rod and the wing-shaped nut is beneficial to loosening the wing-shaped nut in work and then adjusting the angle of the first rotating plate, so that the blanking speed can be conveniently adjusted in work.

2. In the utility model, the rotating pipe, the driven wheel, the second rotating plate, the rotating rod, the stirring plate and the screening box are arranged, the driving motor and the driving wheel are driven to rotate, the rotating pipe and the second rotating plate are driven to rotate when the driving motor works, and then materials are pushed to prevent the screening work of the materials from being influenced by the excessive thickness of the materials when the materials are screened.

3. In the utility model, the arrangement of the collecting box, the adsorption block, the screening box and the bottom plate is beneficial to collecting the screened impurities in the work process and preventing the screened impurities from falling on the ground or the surface of equipment from polluting the work environment.

4. According to the utility model, the arrangement of the blanking funnel, the blanking pipe, the first shielding plate and the first rotating plate is beneficial to preventing materials from falling through a gap between the first rotating plate and the inner wall of the right side of the blanking funnel to influence the quality of screening work in work.

5. According to the utility model, the arrangement of the rotating pipe, the driven wheel, the second rotating plate, the rotating rod and the poking plate is beneficial to matching the second rotating plate and the poking plate during working, so that material dispersion work is facilitated and material screening work is facilitated.

6. In the utility model, the collection box, the adsorption block, the pulling rod, the non-slip mat and the bottom plate are arranged, so that the collection box can be detached in work, and the impurity cleaning work can be conveniently carried out in work.

7. According to the utility model, the arrangement of the screening box, the inverted T-shaped rod, the fixing pipe, the vibration motor, the buffer spring and the bottom plate is beneficial to driving the screening box to vibrate through the vibration motor during working, and the screening work of auxiliary materials is facilitated.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic structural view of an adjustable blanking tube structure of the present invention.

Fig. 3 is a schematic structural view of the rotatable push roller structure of the present invention.

Fig. 4 is a schematic structural diagram of the adsorbable collection tank structure of the utility model.

In the figure:

1. a screening box; 2. an inverted T-bar; 3. a fixed tube; 4. a vibration motor; 5. a buffer spring; 6. the structure of the blanking pipe can be adjusted; 61. a discharging hopper; 62. a discharging pipe; 63. a first shielding plate; 64. an arc-shaped slide hole; 65. a first rotating plate; 66. a slide bar; 67. a wing nut; 7. a rotatable push roller structure; 71. rotating the tube; 72. a driven wheel; 73. a second rotating plate; 74. rotating the rod; 75. a poking plate; 8. a adsorbable collection box structure; 81. a collection box; 82. a second shielding plate; 83. an adsorption block; 84. pulling a rod; 85. a non-slip mat; 9. screening; 10. a guide plate; 11. a U-shaped pipe; 12. a delivery pipe; 13. a base plate; 14. driving a motor; 15. a discharge plate; 16. a driving wheel.

Detailed Description

The utility model is described in detail with reference to the accompanying drawings, as shown in fig. 1 and fig. 2, a novel edible oil processing raw material screening device comprises a screening box 1, an inverted T-shaped rod 2, a fixed pipe 3, a vibration motor 4, a buffer spring 5, an adjustable blanking pipe structure 6, a rotatable pushing roller structure 7, an adsorbable collection box structure 8, a screening sieve 9, a guide plate 10, a U-shaped pipe 11, a guide pipe 12, a bottom plate 13, a driving motor 14, a discharge plate 15 and a driving wheel 16, wherein the upper end of the inverted T-shaped rod 2 is respectively bolted at four corners of the lower end of the screening box 1; the lower end of the inverted T-shaped rod 2 is inserted in sliding holes formed in the left side and the right side of the fixed pipe 3 in a sliding manner; the coupling of the vibration motor 4 is connected to the middle of the lower end of the screening box 1; the buffer spring 5 is inserted at the bottom end inside the fixed pipe 3; the adjustable blanking pipe structure 6 is arranged on the right side of the upper end of the screening box 1; the rotatable pushing roller structure 7 is arranged at the right upper corner of the interior of the screening box 1; the adsorbable collection box structure 8 is arranged on the left side of the upper end of the bottom plate 13; the screening sieve 9 is respectively connected with the upper part of the inner wall and the lower part of the inner wall of the screening box 1 by screws; the guide and delivery plate 10 is respectively bolted on the upper part and the lower part of the inner wall of the screening box 1; the left side of the upper end of the U-shaped pipe 11 is bolted to the middle position of the right side of the screening box 1; the left side of the lower end of the U-shaped pipe 11 is bolted to the lower part of the right side of the screening box 1; the guide and delivery pipe 12 is connected to the upper part of the left side of the screening box 1 through a bolt; the lower ends of the fixed pipes 3 are respectively connected to the right side of the upper end of the bottom plate 13 through bolts; the driving motor 14 is connected to the left side of the upper end of the screening box 1 through a bolt; the discharging plate 15 is connected to the lower part of the middle position of the right side of the screening box 1 through a bolt; the driving wheel 16 is connected with the outer wall of the output shaft of the vibration motor 4 in a key way; the adjustable blanking tube structure 6 comprises a blanking funnel 61, a blanking tube 62, a first baffle plate 63, an arc-shaped sliding hole 64, a first rotating plate 65, a sliding rod 66 and a wing-shaped nut 67, wherein the upper end of the blanking tube 62 is connected with the lower end of the blanking funnel 61 through a bolt; the right side of the first baffle plate 63 is connected to the lower part of the middle position of the right inner wall of the blanking funnel 61 through a bolt; the arc-shaped sliding hole 64 is formed in the middle of the lower part of the blanking pipe 62; the upper end of the first rotating plate 65 is connected to the right lower corner of the inner wall of the blanking funnel 61 through a shaft; the sliding rods 66 are welded to the lower portions of the front and rear surfaces of the first rotating plate 65, respectively; the wing nuts 67 are respectively bolted on the outer wall of the sliding rod 66; carry out the during operation and place screening case 1 and bottom plate 13 in suitable position, then use external conductor to put through external power source, loosen wing section nut 67, then rotate the angle of first rotation board 65, screw up wing section nut 67 after adjusting the angle of first rotation board 65, conveniently adjust material loading speed at work, increase regulatory function, then use outside material conveying equipment to carry to the inside of unloading funnel 61, then carry out screening work.

In this embodiment, referring to fig. 3, the rotatable pushing roller structure 7 includes a rotating pipe 71, a driven wheel 72, a second rotating plate 73, a rotating rod 74 and a toggling plate 75, wherein the rotating pipe 71 is bolted to the middle position of the outer wall of the rotating rod 74; the driven wheel 72 is connected with the outer wall of the front surface of the rotating rod 74 in a key way; one end of the second rotating plate 73 is welded on the outer wall of the rotating pipe 71; the poking plate 75 is sequentially axially connected with the middle position in the other end of the second rotating plate 73 from front to back; when the screening work is carried out, an external power switch is turned on, the vibration motor 4 starts to work, then the screening box 1 is driven to vibrate, the material screening work is conveniently carried out, then the driving motor 14 starts to work, the rotating pipe 71 and the second rotating plate 73 are driven to start to rotate, the second rotating plate 73 and the stirring plate 75 push materials to disperse in the process of screening the materials, and the screening quality is prevented from being influenced by the fact that the materials are too thick in the screening process.

In this embodiment, referring to fig. 4, the adsorbable collection box structure 8 includes a collection box 81, a second shielding plate 82, an adsorption block 83, a pulling rod 84 and a non-slip pad 85, wherein the second shielding plate 82 is respectively bolted on the upper portion of the right side of the front surface and the upper portion of the right side of the rear surface of the collection box 81; the adsorption blocks 83 are respectively bolted at the four corners of the lower end of the collection box 81; the pulling rod 84 is connected to the lower part of the left side of the collecting box 81 through a bolt; the antiskid pad 85 is connected to the lower end of the collection box 81 through a screw; impurity in the in-process at the screening material makes the screening of material through screening sieve 9 fall on the upper end of deflector plate 10, then gets into the inside of collecting box 81 through the PVC board that screening case 1 left side lower part set up, conveniently carries out impurity collection work at the in-process of screening material, prevents to pollute operational environment.

In this embodiment, specifically, the upper end of the screening sieve 9 is provided with protrusions sequentially from left to right; the screening sieves 9 are respectively arranged at the upper ends of the guide plates 10; the middle positions of the upper end of the buffer spring 5 and the lower end of the inverted T-shaped rod 2 are arranged; the vibration motor 4 is arranged between the fixed pipes 3.

In this embodiment, specifically, the upper end of the first rotating plate 65 is disposed between the lower end of the first shielding plate 63 and the right inner wall of the discharging funnel 61; the sliding rod 66 penetrates through the arc-shaped sliding hole 64 in a sliding manner; the wing nuts 67 are respectively disposed at the lower portions of the front and rear surfaces of the down pipe 62.

In this embodiment, specifically, the lower end of the discharging pipe 62 is bolted to the right side of the upper end of the screening box 1; the blanking pipe 62 is communicated with the screening box 1; the blanking funnel 61 is communicated with the screening box 1 through a blanking pipe 62.

In this embodiment, specifically, the rotating rod 74 is coupled to the right upper corner of the inside of the screening box 1; the driven wheel 72 is arranged at the upper right corner of the front surface of the screening box 1; the driving wheel 16V is in belt transmission connection with the driven wheel 72.

In this embodiment, specifically, the second rotating plate 73 is a stainless steel plate with one end provided with grooves in sequence from front to back; the driven pulley 72 is disposed at a position intermediate to the front surface of the rotating pipe 71.

In this embodiment, specifically, the second shielding plate 82 is a transparent PVC plate; the adsorption block 83 is a magnet block; the upper part of the right side of the collecting box 81 is provided with a through hole.

In this embodiment, specifically, the collecting box 81 is adsorbed on the left side of the upper end of the bottom plate 13 by the adsorbing block 83; the collecting box 81 is arranged at the left side of the fixed pipe 3; the PVC plate arranged at the lower part of the left side of the screening box 1 is inserted in the middle of the inside of the right side of the collecting box 81.

In this embodiment, specifically, the vibration motor 4 specifically adopts a high-frequency vibration motor with a model of MVE-H; the driving motor 14 specifically adopts a speed reducing motor with the model of TCH/V-2200.

Principle of operation

In the utility model, the screening box 1 and the bottom plate 13 are placed at proper positions during working, then an external power supply is connected by using an external lead, the wing-shaped nut 67 is loosened, then the angle of the first rotating plate 65 is rotated, the wing-shaped nut 67 is screwed after the angle of the first rotating plate 65 is adjusted, the feeding speed is conveniently adjusted during working, the adjusting function is increased, then an external material conveying device is used for conveying the materials into the discharging hopper 61, then screening work is carried out, an external power switch is turned on during screening work, the vibration motor 4 starts working, then the screening box 1 is driven to vibrate, the material screening work is conveniently carried out, then the driving motor 14 starts working, the rotating pipe 71 and the second rotating plate 73 are driven to start rotating, the second rotating plate 73 and the stirring plate 75 push the materials to disperse in the process of screening the materials, and the screening quality is prevented from being influenced by excessive thickness of the materials in the screening process, impurity in the in-process at the screening material makes the screening of material through screening sieve 9 fall on the upper end of deflector plate 10, then gets into the inside of collecting box 81 through the PVC board that screening case 1 left side lower part set up, conveniently carries out impurity collection work at the in-process of screening material, prevents to pollute operational environment.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention.

Claims (10)

1. The novel raw material screening device for edible oil processing is characterized by comprising a screening box (1), inverted T-shaped rods (2), a fixed pipe (3), a vibration motor (4), a buffer spring (5), an adjustable blanking pipe structure (6), a rotatable pushing roller structure (7), an adsorbable collecting box structure (8), a screening sieve (9), a guide plate (10), a U-shaped pipe (11), a guide pipe (12), a bottom plate (13), a driving motor (14), a discharging plate (15) and a driving wheel (16), wherein the upper ends of the inverted T-shaped rods (2) are respectively bolted at the four corners of the lower end of the screening box (1); the lower end of the inverted T-shaped rod (2) is inserted into sliding holes formed in the left side and the right side of the fixed pipe (3) in a sliding manner; the coupling of the vibration motor (4) is connected to the middle of the lower end of the screening box (1); the buffer spring (5) is inserted into the bottom end of the inner part of the fixed pipe (3); the adjustable blanking pipe structure (6) is arranged on the right side of the upper end of the screening box (1); the rotatable pushing roller structure (7) is arranged at the right upper corner of the interior of the screening box (1); the adsorbable collection box structure (8) is arranged on the left side of the upper end of the bottom plate (13); the screening sieve (9) is respectively connected to the upper part and the lower part of the inner wall of the screening box (1) through screws; the guide plate (10) is respectively connected to the upper part and the lower part of the inner wall of the screening box (1) through bolts; the left side of the upper end of the U-shaped pipe (11) is connected to the middle position of the right side of the screening box (1) through a bolt; the left side of the lower end of the U-shaped pipe (11) is connected with the lower part of the right side of the screening box (1) through a bolt; the guide pipe (12) is connected to the upper part of the left side of the screening box (1) through a bolt; the lower ends of the fixed pipes (3) are respectively connected to the right side of the upper end of the bottom plate (13) through bolts; the driving motor (14) is connected to the left side of the upper end of the screening box (1) through a bolt; the discharging plate (15) is connected to the lower part of the middle position of the right side of the screening box (1) through a bolt; the driving wheel (16) is connected with the outer wall of the output shaft of the vibration motor (4) in a key way; the adjustable blanking tube structure (6) comprises a blanking funnel (61), a blanking tube (62), a first baffle plate (63), an arc-shaped sliding hole (64), a first rotating plate (65), a sliding rod (66) and a wing-shaped nut (67), wherein the upper end of the blanking tube (62) is connected to the lower end of the blanking funnel (61) through a bolt; the right side of the first shielding plate (63) is connected to the lower part of the middle position of the inner wall of the right side of the blanking funnel (61) through a bolt; the arc-shaped sliding hole (64) is formed in the middle of the lower part of the blanking pipe (62); the upper end of the first rotating plate (65) is connected to the right lower corner of the inner wall of the blanking hopper (61) in a shaft mode; the sliding rods (66) are respectively welded on the lower part of the front surface and the lower part of the rear surface of the first rotating plate (65); the wing nuts (67) are respectively bolted on the outer wall of the sliding rod (66).

2. The novel edible oil processing raw material screening device as claimed in claim 1, wherein the rotatable pushing roller structure (7) comprises a rotating pipe (71), a driven wheel (72), a second rotating plate (73), a rotating rod (74) and a toggle plate (75), the rotating pipe (71) is connected to the middle position of the outer wall of the rotating rod (74) through a bolt; the driven wheel (72) is connected with the outer wall of the front surface of the rotating rod (74) in a key mode; one end of the second rotating plate (73) is welded on the outer wall of the rotating pipe (71) respectively; the poking plate (75) is sequentially axially connected with the middle position in the other end of the second rotating plate (73) from front to back.

3. The novel edible oil processing raw material screening device as claimed in claim 1, wherein the adsorbable collection box structure (8) comprises a collection box (81), a second shielding plate (82), an adsorption block (83), a pulling rod (84) and a non-slip mat (85), wherein the second shielding plate (82) is respectively bolted on the upper part of the right side of the front surface and the upper part of the right side of the rear surface of the collection box (81); the adsorption blocks (83) are respectively connected to the four corners of the lower end of the collection box (81) through bolts; the pulling rod (84) is connected to the lower part of the left side of the collecting box (81) through a bolt; the antiskid pad (85) is connected to the lower end of the collection box (81) through screws.

4. The novel raw material screening device for edible oil processing as claimed in claim 1, wherein the upper end of the screening sieve (9) is provided with protrusions in sequence from left to right; the screening sieves (9) are respectively arranged at the upper ends of the guide plates (10); the middle positions of the upper end of the buffer spring (5) and the lower end of the inverted T-shaped rod (2) are arranged; the vibrating motor (4) is arranged between the fixed pipes (3).

5. The new edible oil processing raw material screening device as claimed in claim 1, wherein the upper end of the first rotating plate (65) is disposed between the lower end of the first shielding plate (63) and the right inner wall of the blanking funnel (61); the sliding rod (66) penetrates through the arc-shaped sliding hole (64) in a sliding manner; the wing nuts (67) are respectively arranged on the lower portion of the front surface and the lower portion of the rear surface of the blanking pipe (62).

6. The novel raw material screening device for edible oil processing as claimed in claim 1, wherein the lower end of the blanking pipe (62) is bolted to the right side of the upper end of the screening box (1); the blanking pipe (62) is communicated with the screening box (1); the feeding funnel (61) is communicated with the screening box (1) through a feeding pipe (62).

7. The new edible oil processing raw material screening device as claimed in claim 2, wherein the rotating rod (74) is coupled at the right upper corner of the interior of the screening box (1); the driven wheel (72) is arranged at the upper right corner of the front surface of the screening box (1); the driving wheel (16) is in V-belt transmission connection with the driven wheel (72).

8. The novel raw material screening device for edible oil processing as claimed in claim 2, wherein the second rotating plate (73) is a stainless steel plate with one end provided with grooves in sequence from front to back; the driven wheel (72) is arranged in the middle of the front surface of the rotating pipe (71).

9. A novel edible oil processing raw material screening device as claimed in claim 3, wherein the second shielding plate (82) is a transparent PVC plate; the adsorption block (83) adopts a magnet block; the upper part of the right side of the collecting box (81) is provided with a through hole.

10. The novel raw material screening device for edible oil processing as claimed in claim 3, wherein the collection box (81) is adsorbed on the left side of the upper end of the bottom plate (13) by an adsorption block (83); the collecting box (81) is arranged on the left side of the fixed pipe (3); the PVC plate arranged at the lower part of the left side of the screening box (1) is inserted in the middle of the inside of the right side of the collecting box (81).

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