CN113275237B - Flour equipment of sieving for food processing - Google Patents

Abstract

The invention relates to a sieving device, in particular to a flour sieving device for food processing. The technical problem to be solved is as follows: provides a flour sieving device for food processing, which can prevent flour from splashing everywhere when agglomerated flour is scattered. A flour sieving device for food processing comprises: the operating box is provided with a first switch board at one side in a rotating mode; the top of the operation box is provided with a box cover; a sieving mechanism is arranged on one side of the operation box; the blanking mechanism is arranged on one side of the operation box. Through the matching between the arranged sieving mechanism and the feeding mechanism, flour which is placed for a long time can be sieved, so that the flour is not caked any more; the flour can be prevented from being stuck on the storage box through the arranged vibration mechanism, and the flour feeding operation is facilitated.

Description

Flour equipment of sieving for food processing

Technical Field

The invention relates to a sieving device, in particular to a flour sieving device for food processing.

Background

The flour is a powder ground by wheat, and can be divided into high gluten flour, medium gluten flour, low gluten flour and gluten-free flour according to the content of protein in the flour, the flour is staple food in most regions in the north of China, the foods made of the flour have various varieties and various styles, the flavors are different, the flour can be usually agglomerated into blocks after being placed for a long time, therefore, the flour is changed into powder again before use, the flour is directly flapped and flapped at present, but the flour is easy to splash everywhere, the flour is not easy to clean when being stuck on clothes, and the excessive dust easily causes cough to cause bad health.

Due to the traditional need, the flour sieving equipment for food processing is designed, and the flour can not splash everywhere when the agglomerated flour is scattered.

Disclosure of Invention

In order to overcome the manual work and directly pat it, pat it scattered, nevertheless this mode makes flour splash everywhere easily, is difficult for abluent shortcoming when gluing on the clothing, the technical problem that solves: to provide a flour sieving device for food processing, which can prevent flour from splashing everywhere when agglomerated flour is scattered.

The technical scheme is as follows: a flour sieving device for food processing comprises:

the operating box is provided with a first switch board at one side in a rotating mode;

the top of the operation box is provided with a box cover;

a sieving mechanism is arranged on one side of the operation box;

the blanking mechanism is arranged on one side of the operation box.

Further, the mechanism that sieves includes:

the motor is arranged on one side of the operation box;

the output shaft of the motor is connected with a first transmission rod;

the second transmission rod is rotatably arranged on one side of the operating box;

the second transmission rod and the first transmission rod are respectively provided with a bevel gear, and the two bevel gears are meshed with each other;

a third transmission rod is rotatably arranged on one side in the operation box;

a first belt is connected between the third transmission rod and the second transmission rod;

the third transmission rod is symmetrically provided with a cam;

the sliding sleeve is symmetrically arranged on one side in the operating box;

the first sieve plate is connected between the sliding sleeves in a sliding manner;

the first springs are connected between the first sieve plate and the sliding sleeve;

the stop block is symmetrically arranged on one side in the operating box.

Further, unloading mechanism is including:

the storage box is arranged on one side of the operation box;

the feeding plate is arranged on one side of the storage box;

the feed plate is rotatably provided with a feed baffle;

a perforated blanking plate is arranged on one side of the storage box;

the first limiting sliding frame is symmetrically arranged on one side of the material storage box;

the rack frame is connected between the first limiting sliding frames in a sliding manner;

a fourth transmission rod is rotatably arranged on one side of the storage box;

a second belt is connected between the fourth transmission rod and the first transmission rod;

a half gear is arranged on one side of the fourth transmission rod and matched with the rack frame;

the first sealing baffle is arranged on one side of the rack frame;

dredge the flitch, first seal baffle one side is equipped with and dredges the flitch, dredges flitch and storage case slidingtype cooperation.

Further, still including vibrations mechanism, vibrations mechanism is including:

the mounting blocks are symmetrically arranged on two sides of the top of the box cover;

the mounting blocks are respectively provided with a first transmission rod in a rotating mode;

the winding wheels are arranged on the fifth transmission rod;

the transmission lines are wound on the winding wheels and connected with the first sieve plate;

a first torsion spring is connected between the fifth transmission rod and the mounting block;

the inner sides of the fifth transmission rods are provided with slotted mounting plates;

the slotted mounting plate is provided with a first guide rod;

the first guide rods are provided with shifting plates;

and the second springs are connected between the first guide rods and the slotted mounting plates.

Further, still including pushing devices, pushing devices includes:

one side of the operation box is provided with a second limiting sliding frame;

the second limiting sliding frame is provided with a second guide rod in a sliding manner;

the two sides of the operation box are symmetrically provided with second guide rods;

the second sealing baffle is connected between the second guide rods on the two sides of the second sealing baffle in a sliding manner;

the third springs are connected between the second sealing baffle and the second guide rod;

the second sieve plate is arranged on the third guide rod in a sliding mode;

a fourth spring is connected between the third guide rod and the second sieve plate;

wedge block, second sieve top left side are equipped with the wedge block.

Further, still including discharge mechanism, discharge mechanism is including:

the rotating shaft is rotatably arranged in the operating box;

the rotating shaft is provided with a material bearing plate;

the second torsion spring is connected between the rotating shaft and the operating box;

the protective mounting frame is arranged on one side of the operating box;

the protective mounting frame is provided with a fourth guide rod in a sliding manner;

a connecting plate is arranged on one side of the fourth guide rod;

the fifth spring is connected between the connecting plate and the protective mounting frame;

the wedge-shaped plate is rotatably arranged on the connecting plate;

and a third torsion spring is connected between the wedge-shaped plate and the connecting plate.

Further, still including the through-hole mechanism, the through-hole mechanism is including:

a fifth guide rod is arranged on one side of the operation box;

the fifth guide rod is provided with a third sealing baffle in a sliding manner;

a sixth spring is connected between the third sealing baffle and the fifth guide rod;

the top of the third sealing baffle is provided with a through hole mounting plate;

the through hole pole, through hole mounting panel bottom evenly are equipped with many through hole poles, and the through hole pole corresponds the cooperation with the aperture of first sieve.

Further, the sixth spring is a compression spring.

The invention achieves the following effects: through the matching between the arranged sieving mechanism and the feeding mechanism, flour which is placed for a long time can be sieved, so that the flour is not caked any more; the flour can be prevented from being stuck on the material storage box through the arranged vibration mechanism, and the flour can be conveniently fed; the flour sieving effect is better through the arranged pushing mechanism; the excessive flour collecting amount at one time is avoided through the arranged discharging mechanism, so that certain obstruction is caused to the collecting work; through-hole mechanism through setting up can prevent that flour from causing the jam to first sieve, avoids causing the influence to the work of sieving.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of the sieving mechanism of the present invention.

Fig. 3 is a partial perspective view of the sieving mechanism of the present invention.

Fig. 4 is a schematic perspective view of the blanking mechanism of the present invention.

Fig. 5 is a schematic view of a first partial three-dimensional structure of the blanking mechanism of the present invention.

Fig. 6 is a schematic view of a second partial three-dimensional structure of the blanking mechanism of the present invention.

Fig. 7 is a schematic perspective view of the vibration mechanism of the present invention.

Fig. 8 is a schematic partial perspective view of a first vibration mechanism according to the present invention.

Fig. 9 is a partial perspective view of a second vibration mechanism according to the present invention.

Fig. 10 is a perspective view of the pressing mechanism of the present invention.

Fig. 11 is a schematic perspective view of a second embodiment of the present invention.

Fig. 12 is a schematic perspective view of the discharging mechanism of the present invention.

Fig. 13 is a partial perspective view of the discharging mechanism of the present invention.

Fig. 14 is a schematic perspective view of the through hole mechanism of the present invention.

Reference numerals: 1_ operation box, 2_ first switch plate, 3_ box cover, 4_ sieving mechanism, 41_ motor, 42_ first transmission rod, 43_ bevel gear, 44_ second transmission rod, 45_ first belt, 46_ third transmission rod, 47_ cam, 48_ first sieve plate, 49_ stopper, 410_ sliding sleeve, 411_ first spring, 5_ blanking mechanism, 51_ storage box, 52_ feeding plate, 521_ material baffle plate, 53_ perforated blanking plate, 54_ second belt, 55_ fourth transmission rod, 56_ half gear, 57_ rack frame, 58_ first limit sliding frame, 59_ first seal baffle, 510_ material baffle plate, 6_ vibration mechanism, 61_ mounting block, 62_ fifth transmission rod, 63_ winding wheel, 64_ transmission line, 65_ first torsion spring, 66_ slotted mounting plate, 67_ dial plate, 68_ first guide bar, 69_ second spring, 7_ pushing mechanism, 71_ second sieve plate, 72_ wedge block, 74_ second sealing baffle, 75_ second guide bar, 76_ third spring, 77_ second limiting sliding frame, 78_ third guide bar, 79_ fourth spring, 8_ discharging mechanism, 81_ material bearing plate, 82_ rotating shaft, 83_ second torsion spring, 84_ protective mounting frame, 85_ wedge plate, 86_ connecting plate, 87_ third torsion spring, 88_ fourth guide bar, 89_ fifth spring, 9_ through hole mechanism, 91_ through hole mounting plate, 92_ through hole bar, 93_ third sealing baffle, 94_ fifth guide bar, 95_ sixth spring.

Detailed Description

The invention is further described below with reference to the figures and examples.

Example 1

The utility model provides a flour equipment of sieving for food processing, is shown as figure 1, including control box 1, first switch board 2, case lid 3, sieve mechanism 4 and unloading mechanism 5, 1 downside rotary type of control box is equipped with first switch board 2, and 1 top of control box is equipped with case lid 3, and 1 front side of control box is equipped with the mechanism 4 that sieves, and 1 upside of control box is equipped with unloading mechanism 5.

As shown in fig. 2 and 3, the sieving mechanism 4 includes a motor 41, a first transmission rod 42, a bevel gear 43, a second transmission rod 44, a first belt 45, a third transmission rod 46, a cam 47, a first sieve plate 48, a stopper 49, a sliding sleeve 410 and a first spring 411, the motor 41 is disposed at the front side of the operation box 1, the first transmission rod 42 is connected to an output shaft of the motor 41, the second transmission rod 44 is rotatably disposed at the front side of the operation box 1, the bevel gears 43 are disposed on the second transmission rod 44 and the first transmission rod 42, the two bevel gears 43 are engaged with each other, the third transmission rod 46 is rotatably disposed at the upper side of the operation box 1, the first belt 45 is connected between the third transmission rod 46 and the second transmission rod 44, the cam 47 is symmetrically disposed at the left and right of the third transmission rod 46, the sliding sleeves 410 are symmetrically disposed at the front and back of the upper side of the operation box 1, the first sieve plate 48 is connected between the sliding sleeves 410, the first spring 411 is connected between the first sieve plate 48 and the sliding sleeve 410, and the stopper 49 is symmetrically disposed at the upper side of the operation box 1.

As shown in fig. 4, 5 and 6, the blanking mechanism 5 includes a storage box 51, a feeding plate 52, a striker plate 521, a perforated blanking plate 53, a second belt 54, a fourth transmission rod 55, a half gear 56, a rack frame 57, a first limiting slide frame 58, a first sealing baffle 59 and a blanking plate 510, the storage box 51 is disposed at the rear side of the operation box 1, the feeding plate 52 is disposed at the upper side of the storage box 51, the striker plate 521 is rotatably disposed on the feeding plate 52, the perforated blanking plate 53 is disposed at the lower side of the storage box 51, the first limiting slide frames 58 are symmetrically disposed at the front side of the storage box 51, the rack frame 57 is slidably connected between the first limiting slide frames 58, the fourth transmission rod 55 is rotatably disposed at the front side of the storage box 51, the second belt 54 is connected between the fourth transmission rod 55 and the first transmission rod 42, the half gear 56 is disposed at the rear side of the fourth transmission rod 55, the half gear 56 is matched with the rack frame 57, the first sealing baffle 59 is disposed at the rear side of the first sealing baffle 510, and the blanking plate 51 is matched with the blanking plate 51.

When flour which is placed for a long time needs to be sieved and is not in a block shape, a worker can firstly start the motor 41 to work, an output shaft of the motor 41 rotates the first transmission rod 42 to rotate, the first transmission rod 42 rotates to drive the second transmission rod 44 to rotate through the bevel gear 43, the second transmission rod 44 rotates to drive the third transmission rod 46 to rotate through the first belt 45, the third transmission rod 46 rotates to drive the cam 47 to rotate, when a convex part of the cam 47 rotates to be in contact with the first sieve plate 48, the first sieve plate 48 is driven to move upwards, the first spring 411 is stretched, the stopper 49 can limit the maximum upward moving distance of the first sieve plate 48, after the convex part of the cam 47 rotates to be far away from the first sieve plate 48, the first sieve plate 48 moves downwards under the action of the first spring 411 to reset, and the cam 47 can enable the first sieve plate 48 to continuously move upwards and downwards through continuous rotation, the first transmission rod 42 rotates and drives the fourth transmission rod 55 to rotate through the second belt 54, the fourth transmission rod 55 rotates and drives the rack frame 57 to move left and right through the half gear 56, the rack frame 57 moves left and right to drive the first sealing baffle 59 and the material dispersing plate 510 to move left and right, then a worker can gradually pour long-standing flour onto the feeding plate 52, the flour can slide downwards and fall into the storage box 51, the material blocking plate 521 can rotate forwards at the same time, when the flour does not slide on the feeding plate 52 any more, the material blocking plate 521 rotates and resets under the action of gravity, the material dispersing plate 510 moves left and right to primarily disperse the flour, the flour can fall downwards onto the first sieve plate 48 through the material discharging plate 53 with holes, the flour cannot pass through the material dispersing plate 510 and then can pass through the material discharging plate 53 with holes, and the first sieve plate 48 moves up and down, thereby can filter the flour that drops on first sieve 48, littleer flour drops in operation box 1 bottom, and the flour on the first sieve 48 that can not pass through then continues to stop in its top, is scattered until being shaken, all is in operation box 1 bottom back when flour, alright stop motor 41 work, and the staff can rotate first switch board 2, and the flour that has sieved in the operation box 1 afterwards takes out and places, rotates first switch board 2 again and resets can.

Example 2

On the basis of embodiment 1, as shown in fig. 7, 8, and 9, the mobile phone further includes a vibration mechanism 6, the vibration mechanism 6 includes a mounting block 61, a fifth transmission rod 62, a winding wheel 63, a transmission line 64, a first torsion spring 65, a slotted mounting plate 66, a shifting plate 67, a first guide rod 68, and a second spring 69, the mounting block 61 is symmetrically disposed on the front and rear sides of the top of the box cover 3, the fifth transmission rod 62 is rotatably disposed on the mounting block 61, the winding wheel 63 is disposed on the fifth transmission rod 62, the transmission line 64 is wound on the winding wheel 63, the transmission line 64 is connected to the first sieve plate 48, the first torsion spring 65 is connected between the fifth transmission rod 62 and the mounting block 61, the slotted mounting plate 66 is disposed on the inner side of the fifth transmission rod 62, the slotted mounting plate 66 is slidably disposed on the slotted mounting plate 66, the shifting plate 67 is disposed on the first guide rod 68, and the second spring 69 is connected between the first guide rod 68 and the slotted mounting plate 66.

The first torsion spring 65 is in a deformation state initially, when the flour sieving work is carried out, the first sieve plate 48 moves upwards to not strain the transmission line 64 any more, so that the fifth transmission rod 62 rotates under the action of the first torsion spring 65, the fifth transmission rod 62 rotates to drive the upper parts of the fifth transmission rod 62 to rotate together, when the shifting plate 67 rotates to be in contact with the storage box 51, the storage box 51 is knocked, then the fifth transmission rod 62 continues to rotate, so that the shifting plate 67 and the first guide rod 68 slide on the slotted mounting plate 66, the second spring 69 is compressed, when the first sieve plate 48 moves downwards to strain the transmission line 64 again, so that the fifth transmission rod 62 rotates reversely, the first torsion spring 65 deforms again, so that the upper parts of the fifth transmission rod 62 rotate together to reset, at the moment, the shifting plate 67 and the first guide rod 68 move to reset under the action of the second spring 69, and the shifting plate 67 and the first sieve plate 48 move up and down continuously, so that the shifting plate 67 can knock the storage box 51 intermittently, thereby preventing the flour from being stuck on the flour box 51 and facilitating the flour sieving work.

As shown in fig. 10, the device further includes an urging mechanism 7, the urging mechanism 7 includes a second sieve plate 71, a wedge block 72, a second sealing baffle 74, a second guide rod 75, a third spring 76, a second limiting sliding frame 77, a third guide rod 78 and a fourth spring 79, the left side of the operation box 1 is provided with the second limiting sliding frame 77, the second limiting sliding frame 77 is provided with the third guide rod 78 in a sliding manner, the left side and the right side of the operation box 1 are both provided with the second guide rods 75 in a front-back symmetrical manner, the second sealing baffle 74 is connected between the second guide rods 75 on the left side and the right side in a sliding manner, the third spring 76 is connected between the second sealing baffle 74 and the second guide rod 75, the third guide rod 78 is provided with the second sieve plate 71 in a sliding manner, the fourth spring 79 is connected between the third guide rod 78 and the second sieve plate 71, and the left side of the top of the second sieve plate 71 is provided with the wedge block 72.

When flour falls downwards and is separated from the first sieve plate 48, the flour falls on the second sieve plate 71, the flour which can pass through the second sieve plate 71 can continuously fall and fall at the bottom in the operation box 1, the flour which can not pass through the second sieve plate 71 can stay on the second sieve plate 71, when the convex part of the cam 47 rotates to be in contact with the second sieve plate 71, the second sieve plate 71 is driven to move downwards, the second sieve plate 71 moves downwards to drive the second sealing baffle 74 to move downwards, the third spring 76 is compressed, meanwhile, the cam 47 rotates to be in contact with the wedge block 72, the wedge block 72 moves leftwards to drive the second sieve plate 71 to move leftwards, the fourth spring 79 is stretched, when the convex part of the cam 47 rotates to be far away from the second sieve plate 71 and the wedge block 72, the pushing mechanism 7 is reset integrally under the combined action of the third spring 76 and the fourth spring 79, the second sieve plate 71 can continuously move leftwards and move leftwards, the flour which cannot pass through the second sieve plate 71 can be scattered temporarily, the flour which can all fall in the operation box 1, and the flour which can be sieved can be better screened by the operation box 1.

As shown in fig. 11, 12 and 13, the device further includes a discharging mechanism 8, the discharging mechanism 8 includes a material-bearing plate 81, a rotating shaft 82, a second torsion spring 83, a protective mounting frame 84, a wedge-shaped plate 85, a connecting plate 86, a third torsion spring 87, a fourth guide rod 88 and a fifth spring 89, the rotating shaft 82 is rotatably disposed in the middle of the operating box 1, the material-bearing plate 81 is disposed on the rotating shaft 82, the second torsion spring 83 is connected between the rotating shaft 82 and the operating box 1, the protective mounting frame 84 is disposed on the rear side of the operating box 1, the fourth guide rod 88 is slidably disposed on the protective mounting frame 84, the connecting plate 86 is disposed on the front side of the fourth guide rod 88, the fifth spring 89 is connected between the connecting plate 86 and the protective mounting frame 84, a wedge-shaped plate 85 is rotatably disposed on the connecting plate 86, and the third torsion spring 87 is connected between the wedge-shaped plate 85 and the connecting plate 86.

The flour passing through the second sieve plate 71 falls on the material bearing plate 81, when the flour on the material bearing plate 81 gradually increases, the wedge-shaped plate 85 cannot bear the material bearing plate 81, so that the material bearing plate 81 rotates downwards under the action of gravity, the material bearing plate 81 rotates downwards to drive the rotating shaft 82 to rotate, the second torsion spring 83 deforms, the material bearing plate 81 rotates downwards to drive the wedge-shaped plate 85 to rotate, the third torsion spring 87 deforms, when the material bearing plate 81 does not rotate downwards to contact with the wedge-shaped plate 85, the wedge-shaped plate 85 rotates and resets under the action of the third torsion spring 87, the material bearing plate 81 rotates downwards to drive the flour to fall on the bottom in the operation box 1, when the material bearing plate 81 does not have the flour, the rotating shaft 82 and the material bearing plate 81 rotate and reset under the action of the second torsion spring 83, at the time, the material bearing plate 81 rotates to drive the connecting plate 86, the third torsion spring 87 and the fourth guide rod 88 to move backwards, the fifth spring 89 is compressed, after the material bearing plate 81 rotates and the wedge-shaped plate 85 is separated from the wedge-shaped plate 85, the wedge-shaped plate 85 moves backwards, and the collecting of the wedge-shaped plate 81, so that the flour can be collected by the connecting plate 85, and the collecting box can collect the flour, thereby preventing the flour from passing through the inner bottom in the collecting box 1.

As shown in fig. 14, the screen plate further includes a through hole mechanism 9, the through hole mechanism 9 includes a through hole mounting plate 91, through hole rods 92, a third sealing baffle 93, a fifth guide rod 94 and a sixth spring 95, a fifth guide rod 94 is disposed on the right side of the upper portion of the operation box 1, the fifth guide rod 94 is slidably disposed on the third sealing baffle 93, the sixth spring 95 is connected between the third sealing baffle 93 and the fifth guide rod 94, the through hole mounting plate 91 is disposed on the top of the third sealing baffle 93, a plurality of through hole rods 92 are uniformly disposed at the bottom of the through hole mounting plate 91, and the through hole rods 92 are correspondingly matched with the holes of the first screen plate 48.

When carrying out the during operation that sieves of flour, the staff still can stimulate through-hole mounting panel 91 downstream, through-hole mounting panel 91 downstream drives through-hole pole 92 and third seal baffle 93 downstream, sixth spring 95 is compressed, through-hole pole 92 downstream just can pass first sieve 48, thereby prevent that flour from causing the jam to first sieve 48, avoid causing the influence to the work of sieving, loosen through-hole mounting panel 91 afterwards, through-hole mounting panel 91 under sixth spring 95's effect, through-hole pole 92 and third seal baffle 93 rebound reset.

Finally, it should be noted that the above embodiments are only used for illustrating the technical solutions of the present invention and not for limiting the protection scope of the present invention, and although the present invention is described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions can be made on the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention.

Claims (6)

1. A flour sieving device for food processing is characterized by comprising:

the device comprises an operation box (1), wherein a first switch board (2) is rotatably arranged on one side of the operation box (1);

the top of the operation box (1) is provided with a box cover (3);

a sieving mechanism (4), wherein one side of the operation box (1) is provided with the sieving mechanism (4);

the blanking mechanism (5) is arranged on one side of the operation box (1);

the sieving mechanism (4) comprises:

the motor (41) is arranged on one side of the operation box (1);

the output shaft of the motor (41) is connected with the first transmission rod (42);

a second transmission rod (44), wherein one side of the operation box (1) is rotatably provided with the second transmission rod (44);

the bevel gears (43) are arranged on the second transmission rod (44) and the first transmission rod (42), and the two bevel gears (43) are meshed with each other;

a third transmission rod (46), wherein the third transmission rod (46) is rotatably arranged on one side in the operation box (1);

a first belt (45) is connected between the first belt (45) and the third transmission rod (46) and the second transmission rod (44);

the cam (47) is symmetrically arranged on the third transmission rod (46);

the sliding sleeve (410) is symmetrically arranged on one side in the operating box (1);

the first sieve plate (48) is connected between the sliding sleeves (410) in a sliding manner;

the first springs (411) are connected between the first sieve plate (48) and the sliding sleeve (410);

the baffle block (49), one side in the operation box (1) is symmetrically provided with the baffle block (49);

the blanking mechanism (5) comprises:

a material storage box (51), wherein the material storage box (51) is arranged at one side of the operation box (1);

a feeding plate (52) is arranged on one side of the storage box (51);

the material baffle plate (521) is arranged on the material inlet plate (52) in a rotating mode;

a perforated blanking plate (53), wherein one side of the storage box (51) is provided with the perforated blanking plate (53);

the first limiting sliding frame (58) is symmetrically arranged on one side of the material storage box (51);

the rack frames (57) are connected between the first limiting sliding frames (58) in a sliding manner;

a fourth transmission rod (55), wherein the fourth transmission rod (55) is rotatably arranged on one side of the storage box (51);

a second belt (54) is connected between the fourth transmission rod (55) and the first transmission rod (42);

a half gear (56) is arranged on one side of the fourth transmission rod (55), and the half gear (56) is matched with the rack frame (57);

the first sealing baffle (59) is arranged on one side of the rack frame (57);

the material dredging plate (510) is arranged on one side of the first sealing baffle (59), and the material dredging plate (510) is in sliding fit with the storage box (51).

2. A flour screening apparatus for food processing as claimed in claim 1 further including a vibration mechanism (6), the vibration mechanism (6) including:

the mounting blocks (61) are symmetrically arranged on two sides of the top of the box cover (3);

the mounting blocks (61) are respectively and rotatably provided with a fifth transmission rod (62);

the winding wheel (63) is arranged on the fifth transmission rod (62);

the transmission lines (64) are wound on the winding wheels (63), and the transmission lines (64) are connected with the first sieve plate (48);

the first torsion spring (65) is connected between the fifth transmission rod (62) and the mounting block (61);

the inner sides of the fifth transmission rods (62) are provided with slotted mounting plates (66);

the first guide rods (68) are arranged on the slotted mounting plates (66) in a sliding manner;

the shifting plates (67) are arranged on the first guide rods (68);

and a second spring (69) is connected between the first guide rod (68) and the slotted mounting plate (66).

3. A food processing flour screening apparatus as claimed in claim 2, further comprising biasing means (7), the biasing means (7) comprising:

a second limiting sliding frame (77), wherein one side of the operating box (1) is provided with the second limiting sliding frame (77);

the third guide rod (78) is arranged on the second limiting sliding frame (77) in a sliding mode;

the two sides of the operating box (1) are symmetrically provided with second guide rods (75);

the second sealing baffle plates (74) are connected between the second guide rods (75) on the two sides of the second sealing baffle plates (74) in a sliding manner;

the third spring (76) is connected between the second sealing baffle (74) and the second guide rod (75);

the second sieve plate (71) is arranged on the third guide rod (78) in a sliding mode;

a fourth spring (79), wherein the fourth spring (79) is connected between the third guide rod (78) and the second sieve plate (71);

the left side of the top of the second sieve plate (71) is provided with a wedge block (72).

4. A flour screening apparatus for food processing according to claim 3 further comprising a discharge mechanism (8), wherein the discharge mechanism (8) comprises:

the middle part of the operation box (1) is rotatably provided with a rotating shaft (82);

the material bearing plate (81) is arranged on the rotating shaft (82);

a second torsion spring (83), wherein the second torsion spring (83) is connected between the rotating shaft (82) and the operating box (1);

the protective installation frame (84) is arranged on one side of the operation box (1);

the fourth guide rod (88) is arranged on the protective installation frame (84) in a sliding mode;

a connecting plate (86) is arranged on one side of the fourth guide rod (88);

a fifth spring (89), wherein the fifth spring (89) is connected between the connecting plate (86) and the protective mounting frame (84);

the wedge-shaped plate (85) is rotationally arranged on the connecting plate (86);

and a third torsion spring (87) is connected between the wedge-shaped plate (85) and the connecting plate (86).

5. A flour screening apparatus for food processing according to claim 4 further comprising a through hole mechanism (9), wherein the through hole mechanism (9) comprises:

a fifth guide rod (94), wherein one side of the operation box (1) is provided with the fifth guide rod (94);

the third sealing baffle (93) is arranged on the fifth guide rod (94) in a sliding manner;

a sixth spring (95), wherein the sixth spring (95) is connected between the third sealing baffle (93) and the fifth guide rod (94);

the top of the third sealing baffle (93) is provided with a through hole mounting plate (91);

through-hole pole (92), through-hole mounting panel (91) bottom evenly is equipped with many through-hole poles (92), and the hole of through-hole pole (92) and first sieve (48) corresponds the cooperation.

6. A food processing flour screening apparatus as claimed in claim 5 wherein the sixth spring (95) is a compression spring.

Images