CN113830382A - Mixed nut packaging method - Google Patents

Abstract

The invention belongs to the field of food packaging, and particularly relates to a mixed nut packaging method. The method is carried out by matching with a mixed nut packaging device, the mixed nut packaging device comprises a rack, a mounting groove rack is fixedly arranged on the rack, an air passage main slide block is arranged on the mounting groove rack, each air passage main slide block is provided with an air passage sliding control arc plate, outer clamping arc plate control columns are symmetrically arranged on each air passage sliding control arc plate, an outer clamping arc plate is arranged on each air passage sliding control arc plate, an outer clamping arc plate expanding mechanism is arranged on each outer clamping arc plate control column, a contracting mechanism is arranged on each outer clamping arc plate control column, an adsorption mechanism is arranged on the lower portion of each outer clamping arc plate control column, a T-shaped air passage is fixedly arranged on the mounting groove rack, a telescopic air passage communicated with the T-shaped air passage is fixedly arranged on the T-shaped air passage, an inner clamping arc plate mechanism is fixedly arranged on the telescopic air passage, an alternate filtering mechanism is arranged on the T-shaped air passage, a sealing mechanism is arranged on the rack, and a transportation packaging mechanism is arranged on the rack.

Description

Mixed nut packaging method

Technical Field

The invention belongs to the field of food packaging, and particularly relates to a mixed nut packaging method.

Background

Various nuts are more and more important to eat because of rich nutrition. However, because the nuts are often hard shells, the nuts are inconvenient to eat, and people peel off the nuts and then mix the nuts for packaging and storage. Firstly, because the nuts are rich in various types of grease, the nuts are easy to oxidize after losing the shell protection, so that the taste and nutrition are reduced, and therefore, the air in the package needs to be pumped out as much as possible; secondly, after various nuts are peeled, partial scraps are easy to generate, and the quality of the commodity is reduced; third, because the nuts are all peeled and then packaged, the nuts are prone to breaking during the packaging stage. In summary, the present invention is directed to a method for packaging mixed nuts that can extract air from the package during the packaging stage to suck up debris from the package and prevent damage to the integrity of the nuts during the packaging stage.

Disclosure of Invention

The present invention is directed to solving the above-mentioned problems of the prior art by providing a hybrid nut packaging method.

In order to achieve the purpose, the invention adopts the following technical scheme: a mixed nut packaging method is matched with a mixed nut packaging device, the mixed nut packaging device comprises a rack, a mounting groove frame is fixedly arranged on the rack, two groups of four air passage main sliding grooves are symmetrically formed in the mounting groove frame, an air passage main sliding block capable of sliding back and forth is arranged in each air passage main sliding groove, an air passage sliding control arc plate is fixedly arranged on each air passage main sliding block, two outer clamping arc plate control columns are symmetrically arranged on each air passage sliding control arc plate, an outer clamping arc plate hermetically connected with the outer clamping arc plate control columns is arranged on each outer clamping arc plate control column, an outer clamping arc plate expanding mechanism is arranged on each outer clamping arc plate control column, a contracting mechanism is arranged on each outer clamping arc plate control column, and an adsorption mechanism is arranged on the lower portion of each outer clamping arc plate control column, the T-shaped air passage is fixedly arranged on the mounting groove frame, the telescopic air passage communicated with the T-shaped air passage is fixedly arranged on the T-shaped air passage, the inner clamping arc plate mechanism is fixedly arranged on the telescopic air passage, the T-shaped air passage is provided with the alternative filtering mechanism, the frame is provided with the sealing mechanism, and the frame is provided with the transportation packaging mechanism.

Preferably, outer clamping arc board expanding mechanism includes outer clamping arc board control post is same set firmly two outer clamping arc board control posts on the outer clamping arc board and vertically set firmly two sets of four outer clamping arc board expansion outer sliding bodies, every outer clamping arc board expansion outer sliding body has seted up outer clamping arc board expansion outer spout, and is same set firmly two outer clamping arc board control posts on the outer clamping arc board and vertically set firmly two sets of four outer clamping arc board expansion inner sliding bodies, every outer clamping arc board expansion inner sliding body has seted up outer clamping arc board expansion inner sliding groove, every outer clamping arc board expansion outer spout and its correspond set firmly outer clamping arc board expansion spring between the outer clamping arc board expansion inner sliding groove.

Preferably, the retraction mechanism includes the outer clamping arc plate control columns, two outer clamping arc plate control columns fixedly provided on the same outer clamping arc plate are fixedly provided with retraction hydraulic cylinders, each retraction hydraulic cylinder is provided with a retraction piston capable of sliding freely, each retraction piston is internally and fixedly provided with a retraction hydraulic cylinder stopper, each retraction hydraulic cylinder is provided with a retraction hydraulic cylinder hydraulic port which is not blocked by the retraction piston, each retraction piston is fixedly provided with an outer clamping arc plate retraction hydraulic rod, each outer clamping arc plate control column fixedly provided on the retraction hydraulic cylinder is provided with an outer clamping arc plate retraction chute for the outer clamping arc plate retraction hydraulic rod to slide back and forth, and each outer clamping arc plate retraction hydraulic rod is fixedly connected with the outer clamping arc plate control column which is not fixed with the retraction hydraulic cylinder.

Preferably, the adsorption mechanism comprises an outer clamping arc plate rubber cushion layer fixedly arranged on each outer clamping arc plate, and an air suction pipe capable of adsorbing and packaging is arranged on each outer clamping arc plate and each outer clamping arc plate.

Preferably, interior centre gripping arc board mechanism flexible air flue, the symmetry has set firmly interior centre gripping arc board on the flexible air flue, with one side interior centre gripping arc board spout has been seted up in the interior centre gripping arc board, be equipped with reciprocating sliding's interior centre gripping arc board piston piece in the interior centre gripping arc board spout, set firmly interior centre gripping arc board slide bar on the interior centre gripping arc board piston piece, interior centre gripping arc board slide bar and opposite side interior centre gripping arc board fixed connection is two to two interior centre gripping arc board has set firmly interior centre gripping arc board spring between the arc board, be equipped with steerable in the interior centre gripping arc board spout interior centre gripping arc board piston piece gliding interior centre gripping arc board electromagnetic block.

Preferably, the alternating filtering mechanism comprises the T-shaped air passage, two T-shaped air passage openings are symmetrically formed in the T-shaped air passage, a filtering motor frame is fixedly arranged on the frame, a filtering motor is fixedly arranged on the filtering motor frame, a filtering driving rotating shaft is fixedly arranged at the output end of the filtering motor, a filtering driving helical gear is fixedly arranged on the filtering driving rotating shaft, two filtering driven rotating shaft frames are symmetrically and fixedly arranged on the frame along the geometric center line of the filtering motor frame, a filtering driven rotating shaft capable of rotating freely is arranged on each filtering driven rotating shaft frame, a filtering driven helical gear capable of being meshed with the filtering driving helical gear for transmission is arranged on each filtering driven rotating shaft, a filtering solid plate is fixedly arranged on each filtering driven rotating shaft, a filtering plate is fixedly arranged on each filtering driven rotating shaft, and a plurality of filtering holes are uniformly formed in each filtering plate, each solid filter plate and each filter plate can rotate and seal in the T-shaped air passage opening.

Preferably, the sealing mechanism the frame, the frame symmetry has seted up two sealed spouts, every be equipped with reciprocating sliding's sealed slider in the sealed spout, every sealed rack has set firmly on the sealed slider, the frame symmetry has seted up sealed gear mounting groove, every sealed motor has set firmly in the sealed gear mounting groove, every sealed motor's output sets firmly sealed pivot, every sealed pivot set firmly with sealed rack looks engaged drive's sealed gear.

Preferably, two sealing hydraulic cylinders are symmetrically arranged in each sealing sliding block, a sealing hydraulic cylinder sliding groove is formed in each sealing hydraulic cylinder, a sealing piston capable of sliding back and forth is arranged in each sealing hydraulic cylinder sliding groove, a sealing sliding rod is fixedly arranged on each sealing piston, a sealing sliding cavity is formed in the extending end of each sealing sliding rod, a sealing ejecting block which does not influence the movement of each sealing sliding rod is fixedly arranged in each sealing sliding cavity, a sealing plate is fixedly arranged on each sealing sliding rod at each side, a sealing spring is fixedly arranged between each sealing plate and each sealing ejecting block, and a sealing hydraulic cylinder hydraulic port capable of allowing hydraulic oil to enter and exit is formed in each sealing hydraulic cylinder.

Preferably, the transportation packagine machine constructs including the frame, the symmetry has set firmly the transportation base in the frame, but be equipped with free rotation's transportation pivot on the transportation base, the symmetry has set firmly the transportation motor in the frame, every the output of transportation motor has set firmly the transportation pivot, every unit the transportation pivot is last to have set firmly the transportation cylinder, every homonymy be equipped with the transportation belt that can pass motion and power on the transportation cylinder.

Has the advantages that:

the present invention provides a hybrid nut packaging method by improvement, which has the following improvements and advantages compared with the prior art:

1. through the mutual matching of the inner clamping arc plate, the outer clamping arc plate and the auxiliary mechanism thereof, the T-shaped air passage and the telescopic air passage, the purposes of extracting air in the package and removing chips as much as possible can be realized.

2. Through the mutual cooperation of the sealing sliding groove, the sealing gear, the sealing rotating shaft, the sealing gear mounting groove, the sealing rack, the sealing slide block and other auxiliary mechanisms, the packaging bag can be sealed on the premise of not damaging nuts in the bag.

3. Through mutually supporting of sealing mechanism and transport mechanism, can realize transportation and sealed synchronous operation, improve production efficiency.

Drawings

FIG. 1 is a flow chart of the design;

FIG. 2 is a cross-sectional structural view of the present design;

FIG. 3 is a cross-sectional view A-A of FIG. 2;

FIG. 4 is a cross-sectional view taken along line B-B of FIG. 2;

FIG. 5 is a cross-sectional view of C-C of FIG. 2;

FIG. 6 is a cross-sectional view taken along line D-D of FIG. 2;

FIG. 7 is a cross-sectional view of E-E in FIG. 2;

FIG. 8 is a cross-sectional view F-F of FIG. 2;

FIG. 9 is a cross-sectional view taken along line G-G of FIG. 2;

FIG. 10 is a cross-sectional view taken at H-H in FIG. 8;

FIG. 11 is an enlarged view of a portion of FIG. 2 at I;

FIG. 12 is an enlarged view of a portion of FIG. 2 at J;

FIG. 13 is an enlarged view of a portion of FIG. 6 at K;

FIG. 14 is an enlarged view of a portion of FIG. 8 at L;

in the figure, a frame 10, a T-shaped air passage 11, a mounting groove frame 12, an air passage main slide block 13, an outer clamping arc plate 14, a telescopic air passage 15, an outer clamping arc plate contraction chute 16, an outer clamping arc plate contraction hydraulic rod 17, an inner clamping arc plate spring 18, an inner clamping arc plate slide rod 19, an inner clamping arc plate 20, an outer clamping arc plate rubber cushion 21, an air suction pipe 22, a transportation roller 23, a transportation belt 24, a sealing chute 25, a sealing plate 26, a transportation base 27, a transportation motor 28, an outer clamping arc plate control column 29, a filtering solid plate 30, a filtering driven rotating shaft 31, a filtering plate 32, a filtering hole 33, an air passage main chute 34, an air passage sliding control arc plate 35, a contraction hydraulic cylinder 36, a contraction piston 37, a contraction hydraulic cylinder limiting block 40, a contraction hydraulic cylinder hydraulic port 41, a sealing gear 42, a sealing rotating shaft 43, a sealing gear mounting groove 44, a sealing rack 45, a sealing slide block 46, a sealing motor 47, a sealing driven rotating shaft 31, a telescopic air suction pipe 22, a telescopic air pipe air, a telescopic air pipe air, a telescopic air cylinder, The device comprises a transportation rotating shaft 48, a filtering driving helical gear 49, a filtering driving rotating shaft 50, a filtering motor 51, a filtering motor frame 52, a filtering driven rotating shaft frame 53, a filtering driven helical gear 54, an outer clamping arc plate expanding outer sliding body 55, an outer clamping arc plate expanding inner sliding body 56, an outer clamping arc plate expanding spring 57, an outer clamping arc plate expanding inner sliding groove 58, an outer clamping arc plate expanding outer sliding groove 59, an inner clamping arc plate sliding groove 60, an inner clamping arc plate piston block 61, an inner clamping arc plate electromagnetic block 62, a sealing hydraulic cylinder sliding groove 63, a sealing hydraulic cylinder 64, a sealing hydraulic cylinder hydraulic port 65, a sealing jacking block 66, a sealing spring 67, a sealing sliding cavity 68, a sealing sliding rod 69, a sealing piston 70 and a T-shaped air channel opening 71.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

In the description of the present invention, it should be noted that the terms "inside", "below", and the like refer to orientations or positional relationships based on the orientations or positional relationships shown in the drawings or orientations or positional relationships that the products of the present invention conventionally place when used, and are used only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used merely to distinguish one description from another, and are not to be construed as indicating or implying relative importance.

As shown in fig. 2 and 4, a method for packaging mixed nuts is performed in cooperation with a mixed nut packaging device, the mixed nut packaging device comprises a frame 10, a mounting groove frame 12 is fixedly arranged on the frame 10, two groups of four air passage main sliding grooves 34 are symmetrically arranged on the mounting groove frame 12, an air passage main sliding block 13 capable of sliding back and forth is arranged in each air passage main sliding groove 34, an air passage sliding control arc plate 35 is fixedly arranged on each air passage main sliding block 13, two outer clamping arc plate control columns 29 are symmetrically arranged on each air passage sliding control arc plate 35, an outer clamping arc plate 14 hermetically connected with the outer clamping arc plate control columns 29 is arranged on each air passage sliding control arc plate 35, an outer clamping arc plate expanding mechanism is arranged on each outer clamping arc plate control column 29, a contracting mechanism is arranged on each outer clamping arc plate control column 29, an adsorbing mechanism is arranged at the lower part of each outer clamping arc plate control column 29, the T-shaped air passage 11 is fixedly arranged on the mounting groove frame 12, the telescopic air passage 15 communicated with the T-shaped air passage 11 is fixedly arranged on the T-shaped air passage 11, the inner clamping arc plate mechanism is fixedly arranged on the telescopic air passage 15, the T-shaped air passage 11 is provided with the alternative filtering mechanism, the frame 10 is provided with the sealing mechanism, and the frame 10 is provided with the transportation packaging mechanism.

As shown in fig. 6, 12 and 13, the outer clamping arc plate expanding mechanism includes outer clamping arc plate control columns 29, two outer clamping arc plate control columns 29 are fixedly provided on the same outer clamping arc plate 14, two sets of four outer clamping arc plate expanding outer sliding bodies 55 are fixedly provided on the same outer clamping arc plate control column 29, an outer clamping arc plate expanding outer sliding groove 59 is provided on each outer clamping arc plate expanding outer sliding body 55, two sets of four outer clamping arc plate expanding inner sliding bodies 56 are fixedly provided on the same outer clamping arc plate 14, an outer clamping arc plate expanding inner sliding groove 58 is provided on each outer clamping arc plate expanding inner sliding body 56, and an outer clamping arc plate expanding spring 57 is fixedly provided between each outer clamping arc plate expanding outer sliding groove 59 and the corresponding outer clamping arc plate expanding inner sliding groove 58.

As shown in fig. 5, the contracting mechanism includes outer clamping arc plate control columns 29, two outer clamping arc plate control columns 29 fixedly provided on the same outer clamping arc plate 14 are fixedly provided with contracting hydraulic cylinders 36, each contracting hydraulic cylinder 36 is provided with a contracting piston 37 capable of freely sliding therein, each contracting piston 37 is internally and fixedly provided with a contracting hydraulic cylinder limiting block 40, each contracting hydraulic cylinder 36 is provided with a contracting hydraulic cylinder hydraulic port 41 which is not blocked by the contracting piston 37, each contracting piston 37 is fixedly provided with an outer clamping arc plate contracting hydraulic rod 17, the outer clamping arc plate control column 29 fixedly provided on each contracting hydraulic cylinder 36 is provided with an outer clamping arc plate contracting chute 16 capable of allowing the outer clamping arc plate contracting hydraulic rod 17 to slide back and forth, and each outer clamping arc plate contracting hydraulic rod 17 is fixedly connected with the outer clamping arc plate control column 29 of the non-fixed contracting hydraulic cylinder 36.

As shown in fig. 7, the suction mechanism includes an outer clamping arc plate rubber cushion layer 21 fixed on each outer clamping arc plate 14, and a suction pipe 22 for sucking package is arranged on each outer clamping arc plate 14 and each outer clamping arc plate 14.

As shown in fig. 13, the inner clamping arc plate mechanism telescopic air passage 15, the inner clamping arc plate 20 is symmetrically and fixedly arranged on the telescopic air passage 15, an inner clamping arc plate sliding groove 60 is formed in the inner clamping arc plate 20 on the same side, an inner clamping arc plate piston block 61 capable of sliding in a reciprocating manner is arranged in the inner clamping arc plate sliding groove 60, an inner clamping arc plate sliding rod 19 is fixedly arranged on the inner clamping arc plate piston block 61, the inner clamping arc plate sliding rod 19 is fixedly connected with the inner clamping arc plate 20 on the other side, an inner clamping arc plate spring 18 is fixedly arranged between two inner clamping arc plates 20, and an inner clamping arc plate electromagnetic block 62 capable of controlling the inner clamping arc plate piston block 61 to slide is arranged in the inner clamping arc plate sliding groove 60.

As shown in fig. 2, 11 and 3, the alternating filtering mechanism includes a T-shaped air passage 11, two T-shaped air passage openings 71 are symmetrically disposed on the T-shaped air passage 11, a filtering motor frame 52 is fixedly disposed on the frame 10, a filtering motor 51 is fixedly disposed on the filtering motor frame 52, a filtering driving rotating shaft 50 is fixedly disposed at an output end of the filtering motor 51, a filtering driving helical gear 49 is fixedly disposed on the filtering driving rotating shaft 50, two filtering driven rotating shaft frames 53 are symmetrically disposed on the frame 10 along a geometric center line of the filtering motor frame 52, a filtering driven rotating shaft 31 capable of freely rotating is disposed on each filtering driven rotating shaft frame 53, a filtering driven helical gear 54 capable of being engaged with the filtering driving helical gear 49 is disposed on each filtering driven rotating shaft 31, a filtering solid plate 30 is fixedly disposed on each filtering driven rotating shaft 31, a filtering plate 32 is fixedly disposed on each filtering driven rotating shaft 31, a plurality of filtering holes 33 are uniformly disposed on each filtering plate 32, each of the solid filter plate 30 and the filter plate 32 is rotatably sealed within the T-shaped air passage opening 71.

As shown in fig. 2, 8 and 10, in the sealing mechanism frame 10, two sealing sliding grooves 25 are symmetrically formed in the frame 10, a sealing sliding block 46 capable of sliding back and forth is arranged in each sealing sliding groove 25, a sealing rack 45 is fixedly arranged on each sealing sliding block 46, sealing gear mounting grooves 44 are symmetrically formed in the frame 10, a sealing motor 47 is fixedly arranged in each sealing gear mounting groove 44, a sealing rotating shaft 43 is fixedly arranged at an output end of each sealing motor 47, and a sealing gear 42 in meshing transmission with the sealing rack 45 is fixedly arranged on each sealing rotating shaft 43.

As shown in fig. 8 and 14, two sealing hydraulic cylinders 64 are symmetrically arranged in each sealing slider 46, a sealing hydraulic cylinder sliding slot 63 is arranged in each sealing hydraulic cylinder 64, a sealing piston 70 capable of sliding back and forth is arranged in each sealing hydraulic cylinder sliding slot 63, a sealing sliding rod 69 is fixedly arranged on each sealing piston 70, a sealing sliding cavity 68 is arranged at the extending end of each sealing slider 46 on the sealing sliding rod 69, a sealing top block 66 which does not influence the movement of the sealing sliding rod 69 is fixedly arranged in each sealing sliding cavity 68, sealing plates 26 are fixedly arranged on the sealing sliding rods 69 on the same side, a sealing spring 67 is fixedly arranged between each sealing plate 26 and the sealing top block 66, and a sealing hydraulic cylinder hydraulic port 65 through which hydraulic oil can enter and exit is arranged on each sealing hydraulic cylinder 64.

As shown in fig. 2 and 9, the transportation packaging mechanism includes a frame 10, transportation bases 27 are symmetrically and fixedly arranged on the frame 10, transportation rotating shafts 48 capable of rotating freely are arranged on the transportation bases 27, transportation motors 28 are symmetrically and fixedly arranged on the frame 10, a transportation rotating shaft 48 is fixedly arranged at an output end of each transportation motor 28, a transportation roller 23 is fixedly arranged on each transportation rotating shaft 48, and a transportation belt 24 capable of transferring movement and force is arranged on each transportation roller 23 on the same side.

Initial position: the inner clamping arc plate electromagnetic block 62 is electrically attracted to the inner clamping arc plate chute 60, and the inner clamping arc plates 20 are closed by the inner clamping arc plate slide rod 19 overcoming the resistance of the inner clamping arc plate spring 18. The outer clamping arc extension springs 57 spring the outer clamping arc control posts 29 apart and the outer clamping arc extension inner slide 56 is retained within the outer clamping arc extension outer slide 55. The sealing slider 46 is located on the far airway side. Sealing piston 70 drives sealing plate 26 via sealing slide 69, so that sealing plate 26 is pressed against sealing slide 46. The retracting piston 37 pushes the outer clamping shoes 14 apart.

The method for packaging the mixed nuts comprises the following specific steps:

the first step is as follows: the conveying belt clamps the packaging bag and conveys the packaging bag to the air passage opening.

The second step is that: the outer clamping arc plates adsorb the two sides of the opening of the packaging bag. The suction pipe 22 sucks air to the outside and sucks the outside of the opening of the packing bag.

The third step: the inner clamping arc plate and the outer clamping arc plate clamp the opening of the packaging bag. The inner clamping arc plate electromagnetic block 62 is de-energized and the inner clamping arc plate spring 18 springs the two inner clamping arc plates 20 apart.

The fourth step: and blowing air into the packaging bag.

The fifth step: the air is pumped out from the packaging bag.

And a sixth step: keeping the air suction and moving the sealing slide block to the opening of the packaging bag. The sealing gear 42 moves the sealing slider 46 to the opening of the bag by means of the sealing rack 45.

The seventh step: keeping the air exhaust and sealing the sealing plate for packaging. The hydraulic oil is discharged through the hydraulic port 65 of the sealing hydraulic cylinder, and the sealing spring 67 closes the two sealing plates 26 together and heats them, thereby sealing the packaging bag.

Eighth step: the inner and outer clamping arc plates release the clamping.

The ninth step: the conveyor belt transports the sealed packages while the sealing plate continuously seals the packages.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (9)

1. A mixed nut packaging method is matched with a mixed nut packaging device, the mixed nut packaging device comprises a rack (10), a mounting groove rack (12) is fixedly arranged on the rack (10), two groups of four air passage main sliding chutes (34) are symmetrically arranged on the mounting groove rack (12), an air passage main sliding block (13) capable of sliding back and forth is arranged in each air passage main sliding chute (34), an air passage sliding control arc plate (35) is fixedly arranged on each air passage main sliding block (13), two outer clamping arc plate control columns (29) are symmetrically arranged on each air passage sliding control arc plate (35), an outer clamping arc plate (14) hermetically connected with the outer clamping arc plate control columns (29) is arranged on each air passage sliding control arc plate (35), and an outer clamping arc plate expanding mechanism is arranged on each outer clamping arc plate control column (29), every be equipped with shrink mechanism on outer centre gripping arc board control post (29), outer centre gripping arc board control post (29) lower part is equipped with adsorption apparatus and constructs, T shape air flue (11) have set firmly on installation cell frame (12), flexible air flue (15) that are linked together with it have set firmly on T shape air flue (11), the interior clamp arc board mechanism that holds has set firmly on flexible air flue (15), be equipped with filtration mechanism in turn on T shape air flue (11), be equipped with sealing mechanism on frame (10), be equipped with transportation packagine machine and construct in frame (10).

2. The method of claim 1, wherein the step of packaging the blended nuts comprises: the outer clamping arc plate expanding mechanism comprises outer clamping arc plate control columns (29), two groups of four outer clamping arc plate expanding outer sliding bodies (55) are longitudinally and fixedly arranged on the same outer clamping arc plate (14), an outer clamping arc plate expanding outer sliding groove (59) is formed in each outer clamping arc plate expanding outer sliding body (55), two groups of four outer clamping arc plate expanding inner sliding bodies (56) are longitudinally and fixedly arranged on the same outer clamping arc plate (14), an outer clamping arc plate expanding inner sliding groove (58) is formed in each outer clamping arc plate expanding inner sliding body (56), an outer clamping arc plate expansion spring (57) is fixedly arranged between each outer clamping arc plate expansion outer sliding groove (59) and the corresponding outer clamping arc plate expansion inner sliding groove (58).

3. The method of claim 1, wherein the step of packaging the blended nuts comprises: the contraction mechanism comprises outer clamping arc plate control columns (29), two outer clamping arc plate control columns (29) fixedly arranged on the same outer clamping arc plate (14) are fixedly provided with contraction hydraulic cylinders (36), each contraction hydraulic cylinder (36) is internally provided with a contraction piston (37) capable of freely sliding, each contraction piston (37) is internally and fixedly provided with a contraction hydraulic cylinder limiting block (40), each contraction hydraulic cylinder (36) is provided with a contraction hydraulic cylinder hydraulic port (41) which is not blocked by the contraction piston (37), each contraction piston (37) is fixedly provided with an outer clamping arc plate contraction hydraulic rod (17), each contraction hydraulic cylinder (36) is fixedly provided with an outer clamping arc plate control column (29) which is provided with an outer clamping arc plate contraction chute (16) for the outer clamping arc plate contraction hydraulic rod (17) to slide in a reciprocating manner, each outer clamping arc plate contraction hydraulic rod (17) is fixedly connected with the outer clamping arc plate control column (29) which is not fixed with the contraction hydraulic cylinder (36).

4. The method of claim 1, wherein the step of packaging the blended nuts comprises: the adsorption mechanism comprises outer clamping arc plate rubber cushion layers (21) fixedly arranged on the outer clamping arc plates (14), and air suction pipes (22) capable of adsorbing and packaging are arranged on the outer clamping arc plates (14) and the outer clamping arc plates (14).

5. The method of claim 1, wherein the step of packaging the blended nuts comprises: interior centre gripping arc board mechanism flexible air flue (15), the symmetry has set firmly interior centre gripping arc board (20) on flexible air flue (15), with one side interior centre gripping arc board spout (60) have been seted up in interior centre gripping arc board (20), be equipped with in interior centre gripping arc board spout (60) and reciprocating sliding interior centre gripping arc board piston block (61), interior centre gripping arc board slide bar (19) has set firmly on interior centre gripping arc board piston block (61), interior centre gripping arc board slide bar (19) and opposite side interior centre gripping arc board (20) fixed connection, it is double-phase to two interior centre gripping arc board spring (18) have set firmly between interior centre gripping arc board (20), be equipped with in interior centre gripping arc board spout (60) steerable interior centre gripping arc board piston block (61) gliding interior centre gripping arc board electromagnetic block (62).

6. The method of claim 1, wherein the step of packaging the blended nuts comprises: the alternating filtering mechanism comprises a T-shaped air passage (11), two T-shaped air passage openings (71) are symmetrically formed in the T-shaped air passage (11), a filtering motor rack (52) is fixedly arranged on the rack (10), a filtering motor (51) is fixedly arranged on the filtering motor rack (52), a filtering driving rotating shaft (50) is fixedly arranged at the output end of the filtering motor (51), a filtering driving helical gear (49) is fixedly arranged on the filtering driving rotating shaft (50), two filtering driven rotating shaft racks (53) are symmetrically and fixedly arranged on the rack (10) along the geometric center line of the filtering motor rack (52), a filtering driven rotating shaft (31) capable of freely rotating is arranged on each filtering driven rotating shaft rack (53), and a filtering driven helical gear (54) capable of being in meshing transmission with the filtering driving helical gear (49) is arranged on each filtering driven rotating shaft (31), each filtering driven rotating shaft (31) is fixedly provided with a filtering solid plate (30), each filtering driven rotating shaft (31) is fixedly provided with a filtering plate (32), each filtering plate (32) is uniformly provided with a plurality of filtering holes (33), and each filtering solid plate (30) and each filtering plate (32) can rotate and seal in the T-shaped air passage opening (71).

7. The method of claim 1, wherein the step of packaging the blended nuts comprises: the sealing mechanism the frame (10), two sealed spouts (25) have been seted up to frame (10) symmetry, every be equipped with in sealed spout (25) but reciprocating sliding's sealed slider (46), every sealed rack (45) have set firmly on sealed slider (46), sealed gear mounting groove (44) have been seted up to frame (10) symmetry, every sealed gear mounting groove (44) internal fixation has sealed motor (47), every the output of sealed motor (47) has set firmly sealed pivot (43), every sealed pivot (43) on set firmly with sealed rack (45) looks meshing transmission's sealed gear (42).

8. The method of claim 7, wherein the step of packaging the blended nuts further comprises: two sealing hydraulic cylinders (64) are symmetrically arranged in each sealing sliding block (46), a sealing hydraulic cylinder sliding groove (63) is formed in each sealing hydraulic cylinder (64), a sealing piston (70) capable of sliding in a reciprocating mode is arranged in each sealing hydraulic cylinder sliding groove (63), a sealing sliding rod (69) is fixedly arranged on each sealing piston (70), a sealing sliding cavity (68) is formed in the extending end of each sealing sliding block (46) of each sealing sliding rod (69), a sealing top block (66) which does not influence the movement of each sealing sliding rod (69) is fixedly arranged in each sealing sliding cavity (68), sealing plates (26) are fixedly arranged on the sealing sliding rods (69) on the same side, a sealing spring (67) is fixedly arranged between each sealing plate (26) and each sealing top block (66), and a sealing hydraulic cylinder hydraulic port (65) capable of allowing hydraulic oil to enter and exit is formed in each sealing hydraulic cylinder (64).

9. The method of claim 1, wherein the step of packaging the blended nuts comprises: transportation packagine machine constructs include frame (10), the symmetry has set firmly transportation base (27) on frame (10), but be equipped with freely rotatable transportation pivot (48) on transportation base (27), the symmetry has set firmly transportation motor (28), every on frame (10) the output of transportation motor (28) has set firmly transportation pivot (48), every thing transportation cylinder (23), every homonymy have set firmly transportation belt (24) that can pass motion and power on transportation cylinder (23).

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