CN114162394A

CN114162394A - Conveying mechanism for flour subpackaging and working method thereof

Info

Publication number: CN114162394A
Application number: CN202111471503.3A
Authority: CN
Inventors: 孙强; 王清伟; 尤国安; 赵中华; 赵德成; 孙超
Original assignee: Anhui Haochen Food Co ltd
Current assignee: Anhui Haochen Food Co ltd
Priority date: 2021-12-06
Filing date: 2021-12-06
Publication date: 2022-03-11

Abstract

The invention discloses a transmission mechanism for flour subpackaging, which comprises a screening component, a vibration component, a conveying component, an adjusting component, a stirring component and a discharging component, wherein a circular plate is arranged at the top of the screening component, a supporting frame is welded at the bottom of the circular plate, a charging barrel is arranged in the middle of the supporting frame, a filter screen is arranged at the bottom of the charging barrel, flour in the charging barrel can be crushed by a shaking effect generated by the vibration of the vibration component, the condition that the flour is subjected to subpackaging to cause nodules is avoided, the subpackaged flour is finer, the flour enters a charging box through the filter screen after being vibrated, wheat bran and impurities doped in the flour are screened and separated, the subpackaged flour is more clean and sanitary, the flour is beneficial to eating of the flour, and the flour is screened by the screening component in a vibrating way, the manpower is saved, the screening efficiency of the flour is improved, and the efficiency of flour subpackaging is further improved.

Description

Conveying mechanism for flour subpackaging and working method thereof

Technical Field

The invention relates to a transmission mechanism, in particular to a transmission mechanism for flour subpackaging, and belongs to the technical field of application of transmission mechanisms for flour subpackaging.

Background

Flour is a powder ground from wheat. According to what of protein content in the flour, can be divided into high gluten flour, well gluten flour, low gluten flour and non-gluten flour, for the better sells, stores flour, often needs carry out the partial shipment to flour, often can not leave transmission mechanism and transmit flour at the flour partial shipment in-process, through transmission mechanism, make the more clean and dry of flour after the partial shipment, the sale and the storage of the flour of being convenient for.

Present a transport mechanism for flour partial shipment still has very big defect when using, current a transport mechanism for flour partial shipment does not carry out the filtration screening of impurity to flour, the flour of partial shipment is clean inadequately, current a transport mechanism for flour partial shipment is in transmission process, flour can't dry, the flour that leads to after the partial shipment has the higher problem of humidity, be unfavorable for the storage of flour after the partial shipment, current a transport mechanism for flour partial shipment is in transmission process, often cause a large amount of flours to leave over on the transport mechanism, cause the waste of flour to a certain extent, secondly, be unfavorable for the long-term use of this mechanism, and cause the more troublesome situation of transport mechanism clearance.

Disclosure of Invention

The invention aims to solve the problems that the existing transmission mechanism for flour subpackaging does not filter and screen impurities on flour, and the subpackaged flour is not clean enough; in the existing transmission mechanism for flour subpackaging, flour cannot be dried in the transmission process, so that the problem of high humidity of the subpackaged flour is caused, and the storage of the subpackaged flour is not facilitated; the existing transmission mechanism for flour subpackaging is in a transmission process, a large amount of flour is usually left on the transmission mechanism, flour waste is caused to a certain extent, secondly, the mechanism is not beneficial to long-term use, and the situation that the transmission mechanism is troublesome to clean is caused, so that the transmission mechanism for flour subpackaging and the working method thereof are provided.

The purpose of the invention can be realized by the following technical scheme: a conveying mechanism for flour subpackaging comprises a screening assembly, a vibrating assembly, a conveying assembly, an adjusting assembly, a stirring assembly, a discharging assembly sliding assembly and a stabilizing assembly, wherein a circular plate is arranged at the top of the screening assembly, a supporting frame is welded at the bottom of the circular plate, a charging barrel is arranged in the middle of the supporting frame, and a filter screen is arranged at the bottom of the charging barrel;

the vibrating assembly comprises a material box, second springs, a fixing plate and a first baffle plate, wherein bayonets are formed in the top of the material box, two supporting tables are welded on two sides of the material box, the second springs are welded at the bottoms of the supporting tables, and second vibrating motors are mounted at the bottoms of the second springs;

the conveying assembly comprises a track, a first supporting shaft and a second supporting shaft, wherein second baffle plates are arranged on two sides of the track, two welding plates are welded on one sides of the two second baffle plates, the second supporting shaft is arranged between the two welding plates, and a first conveying motor is arranged between the two welding plates;

the adjusting assembly comprises a supporting plate, supporting blocks and a lifting plate, the supporting blocks are welded at two ends of the supporting plate, a hydraulic cylinder is arranged at the bottom of the supporting plate, a hydraulic rod is movably connected to one side of the hydraulic cylinder, the lifting plate is welded at the bottom of the hydraulic rod, a drying bin is arranged at one side of the lifting plate, a dryer is arranged at the top of the drying bin, and a stirring assembly is arranged in the middle of the drying bin;

the stirring assembly comprises a stop block, a connecting plate and stirring columns, the bottom of the connecting plate is welded with a plurality of stirring columns, the two ends of the connecting plate are welded with the stop block, the discharging assembly comprises a third baffle, a scraper, a second inclined plate and a fourth baffle, and the two sides of the second inclined plate are welded with the third baffle;

the stirring assembly comprises a stirring assembly, a first fixing block, a second conveying motor, a fixing assembly and a fixing component, wherein the stirring assembly is arranged on one side of the stirring assembly, the sliding assembly comprises a screw rod, a first sliding block and a first fixing block, the second conveying motor is installed on one side of the fixing block, the fixing assembly is arranged on the other side of the stirring assembly, and the fixing assembly comprises a sliding rod, a second sliding block and a second fixing block.

The invention has further technical improvements that: the plectane is the cylinder structure, and has seted up the opening in the middle part of the plectane, and the feed cylinder is the three pyramid structures, feed cylinder and carriage swing joint, and first shock dynamo is all installed all around to the workbin top, and two fixed plates of workbin both sides weld respectively at the top of second baffle, the feed inlet has been seted up at the feed cylinder top, the plectane bottom is provided with the first spring of a plurality of, first shock dynamo is all installed to the first spring bottom of a plurality of.

The invention has further technical improvements that: two first baffles are the cuboid structure, and are parallel between two first baffles, and the opening has been seted up to the workbin bottom, and the opening sets up in the top of first swash plate, and first swash plate setting is between two second baffles, and first swash plate setting is in the top of track, a plurality of second shock dynamo bottom all is provided with the fixed plate, the welding of workbin bottom has first swash plate, first baffle has all been welded to first swash plate both sides, first swash plate bottom is provided with the conveying subassembly.

The invention has further technical improvements that: be connected with first chain between the first supporting shaft of first conveying motor and track one end, the track both sides all are provided with the second baffle, and the track both ends all are provided with first supporting shaft, and swing joint has the second chain between two first supporting shafts and two second supporting shafts, and first conveying motor one side and first supporting shaft one side all are provided with the gear of first chain looks adaptation, two first supporting shaft both ends respectively with two second baffle swing joint.

The invention has further technical improvements that: the backup pad is "U" type structure of falling, and two supporting shoes are the cuboid structure, and two supporting shoes weld respectively at the top of two second baffles, and the lifter plate is the cuboid structure, and the lifter plate setting is between two second baffles, swing joint between lifter plate and two supporting shoes.

The invention has further technical improvements that: the connecting plate is the cuboid structure, and the connecting plate welding is between two dogs, and the stirring post is the cylinder structure, and a plurality of stirring post setting is in the track top, and a plurality of stirring post setting is between two second baffles.

The invention has further technical improvements that: two the welding has the scraper blade between the third baffle, scraper blade one side is provided with the brush, and second swash plate one side is provided with a plurality of material pipe, is provided with the separation piece between two material pipes, and the welding of two third baffle homonymies has the fourth baffle, and two third baffles weld respectively in two second baffle one sides, and second swash plate and scraper blade all are the cuboid structure, and the scraper blade setting is in the bottom of track, and a plurality of separation piece all is the positive triangle cone structure, and a plurality of separation piece all sets up between two third baffles.

The invention has further technical improvements that: the drying bin is arranged on the two second baffles, the two sides of the screw rod are movably connected with first fixing blocks, the second transmission motor is arranged on one side of the first fixing blocks, the first sliding block is movably connected with the screw rod, and the first sliding block is welded at the bottom of the stop block.

The invention has further technical improvements that: the second fixed block is welded at both ends of the sliding rod, the sliding rod penetrates through the second sliding block, the second sliding block is welded at the bottom of the other stop dog, and the sliding rod is movably connected with the second sliding block.

The invention has further technical improvements that: the flour transmission mechanism using method specifically comprises the following steps:

the method comprises the following steps: the method comprises the following steps of starting a first conveying motor, pouring flour to be subpackaged into a charging barrel, starting a first vibration motor, driving a first spring to vibrate by the first vibration motor, driving a supporting frame to vibrate by the first spring, enabling the flour to enter a bin through a filter screen after vibration, and screening and separating wheat bran and large particle impurities doped in the flour;

the method comprises the following steps: the second vibration motor is started, the second vibration motor drives the second spring to shake, the second spring drives the material box to vibrate through the support table, the flour of the material barrel nodes is shattered and enters the material box better through the filter screen, and the flour flows into the surface of the crawler belt through the first inclined plate;

step three: the pneumatic cylinder drives the hydraulic stem up-and-down motion, changes the distance between lifter plate and the track, opens the drying-machine, and the drying-machine carries out drying process to the flour, opens second conveying motor, lead screw stirring subassembly reciprocating motion, and the stirring post carries out reciprocating stirring to the flour, and at the in-process of track motion, the brush is cleared up the flour on track surface, and the stripping block separates the partial shipment to the flour, takes out the feed cylinder, clears up the impurity in the feed cylinder.

Compared with the prior art, the invention has the beneficial effects that:

1. the invention relates to a transmission mechanism for flour subpackaging, which is characterized in that a first transmission motor is started, flour to be subpackaged is poured into a charging barrel, the bottom of the circular plate is welded with a first spring, a first vibration motor is started, the first vibration motor drives the first spring to vibrate, the first spring drives the supporting frame to vibrate, the flour in the charging barrel can be crushed by the shaking effect generated by vibration, so that the condition of nodulation caused by subpackaging the flour is avoided, the flour after being subpackaged is more refined, the flour enters the bin through the filter screen after being vibrated, the wheat bran and impurities mixed in the flour are screened and separated, so that the flour which is subpackaged is more clean and sanitary, the flour is convenient to eat, secondly, carry out vibrations screening to flour through the screening subassembly, use manpower sparingly, improve the screening efficiency of flour, further improve the efficiency of flour partial shipment.

2. The conveying mechanism for flour subpackage is characterized in that support tables are arranged on two sides of a material box, a second vibrating motor is started, the second vibrating motor drives a second spring to shake, the second spring drives the material box to vibrate through the support tables, on one hand, flour of material barrel nodules is shaken and broken thoroughly through double vibration, the flour can better enter the material box through a filter screen, impurities in the flour are better separated, the flour is ensured to be cleaner, on the other hand, the flour remaining in the material box can completely flow onto the surface of a track through a first inclined plate through the vibration of the material box, the flour subpackage is carried out, the waste of the flour is avoided, the interior of the material box is kept in a clean state, the next use of the mechanism is facilitated, the cleaning process of the mechanism is saved, and the first inclined plate is arranged at the bottom of the material box, and with first swash plate slope setting, guaranteed the surface of inflow track that flour can be smooth, avoid appearing the perpendicular decline condition that leads to splashing simultaneously, it has first baffle to weld in first swash plate both sides, guarantees that flour flows into the track surface through first swash plate smoothly, has avoided flour from unrestrained on first swash plate.

3. According to the transmission mechanism for flour subpackaging, the adjusting assembly is arranged above the track, the hydraulic cylinder drives the hydraulic rod to move up and down, the hydraulic rod drives the lifting plate to move up and down, the distance between the lifting plate and the track is changed, so that the flow of flour flowing into the track is adjusted, flour with different subpackaging components is conveniently subpackaged, the lifting plate is adjusted to facilitate better quantitative subpackaging of the flour, meanwhile, the flour is more uniformly paved on the surface of the track through the lifting plate, and further drying treatment of the flour in the drying bin is facilitated.

4. The conveying mechanism for flour subpackage is characterized in that a rod drying box is arranged above a crawler, flour is dried in the middle of the drying box, the flour after subpackage is guaranteed to be more dry, flour worm is avoided, flour can be stored better and longer, a plurality of stirring columns are arranged at the bottom of a connecting plate for stirring the flour, the contact area of the flour and hot air is increased, the flour drying side is more comprehensive, the flour is stirred through the stirring columns, flour splashing caused by the stirring columns when the flour is stirred is avoided, the flour smoothly flows into a discharging assembly for subpackage, the positions of the stirring columns are favorably adjusted by arranging a sliding assembly at the bottom of the stirring assembly, the flour is conveniently stirred more comprehensively through the stirring columns, the flour drying speed is improved, the flour is favorably stored, and a stabilizing assembly is arranged at the other side of the stirring assembly, ensure more stability of stirring post motion, be favorable to the drying-machine to carry out the stoving of full aspect to the flour, through the welding between two third baffles, scraper blade one end is provided with the brush, at the in-process of track motion, the brush is cleared up the flour on track surface, make flour can all enter into the material pipe, the waste of flour has been avoided, through be provided with the separation block between two material pipes, set the separation block to the triangle awl structure, avoid the separation block to cause the flour to shelter from, be favorable to the flour to separate, guarantee that the better even of flour enters into each material pipe, carry out the partial shipment of flour.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

Fig. 1 is a schematic overall perspective structure of the present invention.

FIG. 2 is a schematic view of a screening assembly according to the present invention.

FIG. 3 is a schematic view of the cartridge of the present invention.

Figure 4 is a top view of the screen assembly of the present invention.

FIG. 5 is a schematic structural diagram of a vibration assembly according to the present invention.

FIG. 6 is a schematic view of a structure of a transfer module according to the present invention.

Fig. 7 is a schematic structural diagram of an adjusting assembly of the present invention.

FIG. 8 is a schematic view of the stirring assembly of the present invention.

FIG. 9 is a schematic view of the structure of the discharging assembly of the present invention.

FIG. 10 is a schematic view of the sliding assembly of the present invention.

Figure 11 is a schematic view of the structure of the stabilizing assembly of the present invention.

In the figure: 1. a screening component; 101. a charging barrel; 102. a circular plate; 103. a support frame; 104. a first spring; 105. a first vibration motor; 106. a feed inlet; 107. filtering with a screen; 2. a vibration assembly; 201. a material box; 202. a bayonet; 203. a support table; 204. a second spring; 205. a second vibration motor; 206. a fixing plate; 207. a first baffle plate; 208. a first sloping plate; 3. a transfer assembly; 301. a second baffle; 302. a crawler belt; 303. a first support shaft; 304. a first chain; 305. a first drive motor; 306. a second chain; 307. a second support shaft; 308. welding the plate; 4. an adjustment assembly; 401. a support plate; 402. a support block; 403. a hydraulic cylinder; 404. a hydraulic lever; 405. a lifting plate; 5. a drying bin; 6. a stirring assembly; 601. a stopper; 602. a connecting plate; 603. a stirring column; 7. a discharge assembly; 701. a third baffle plate; 702. a squeegee; 703. a brush; 704. a second swash plate; 705. separating the blocks; 706. a material pipe; 707. a fourth baffle; 8. a dryer; 9. a sliding assembly; 901. a screw rod; 902. a first slider; 903. a first fixed block; 904. a second conveyance motor; 10. a stabilizing assembly; 1001. a slide bar; 1002. a second slider; 1003. and a second fixed block.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-11, a conveying mechanism for flour split charging includes a screening assembly 1, a vibration assembly 2, a conveying assembly 3, an adjusting assembly 4, a stirring assembly 6, a discharging assembly 7, a sliding assembly 9 and a stabilizing assembly 10, wherein a circular plate 102 is arranged at the top of the screening assembly 1, a supporting frame 103 is welded at the bottom of the circular plate 102, a charging barrel 101 is arranged in the middle of the supporting frame 103, and a filter screen 107 is arranged at the bottom of the charging barrel 101;

the vibration component 2 comprises a material box 201, a second spring 204, a fixing plate 206 and a first baffle 207, a bayonet 202 is arranged at the top of the material box 201, two supporting platforms 203 are welded on two sides of the material box 201, the second spring 204 is welded at the bottoms of the supporting platforms 203, a second vibration motor 205 is installed at the bottom of the second spring 204, the second vibration motor 205 is started, the second vibration motor 205 moves the second spring 204 to rock, the second spring 204 drives the material box 201 to vibrate through the supporting platforms 203, on one hand, the flour of the material barrel 101 is more thoroughly shattered through double vibration, the flour can better enter the material box 201 through a filter screen 107, impurities in the flour are better separated, the flour is cleaner, on the other hand, the flour remained in the material box 201 can completely flow to the surface of a crawler 302 through a first inclined plate 208 through vibration of the material box 201, the split charging of flour is carried out, the waste of flour is avoided, the inside clean state of keeping of workbin 201 is guaranteed simultaneously, the next use of the mechanism is facilitated, and the flow of cleaning the mechanism is saved.

The conveying assembly 3 comprises a crawler belt 302, a first supporting shaft 303 and a second supporting shaft 307, wherein second baffles 301 are arranged on two sides of the crawler belt 302, two welding plates 308 are welded on one sides of the two second baffles 301, the second supporting shaft 307 is arranged between the two welding plates 308, a first conveying motor 305 is installed between the two welding plates 308, the first conveying motor 305 is started, flour to be subpackaged is poured into the charging barrel 101, a first spring 104 is welded at the bottom of the circular plate 102, a first vibrating motor 105 is started, the first vibrating motor 105 drives the first spring 104 to vibrate, the first spring 104 drives the supporting frame 103 to vibrate, the flour in the charging barrel 101 can be smashed through a vibration effect generated by vibration, the condition that nodulation is caused by subpackaging of the flour is avoided, the subpackaged flour is finer, the flour enters the charging box 201 through the filter screen 107 after vibration, some wheat bran doped in the flour, Impurity screens the separation, has guaranteed the more clean health of flour after the partial shipment, is favorable to the edible of flour, secondly, shakes the screening through screening subassembly 1 to the flour, uses manpower sparingly, improves the screening efficiency of flour, further improves the efficiency of flour partial shipment.

The adjusting component 4 comprises a supporting plate 401, supporting blocks 402 and lifting plates 405, the supporting blocks 402 are welded at two ends of the supporting plate 401, a hydraulic cylinder 403 is arranged at the bottom of the supporting plate 401, a hydraulic rod 404 is movably connected to one side of the hydraulic cylinder 403, the lifting plates 405 are welded at the bottom of the hydraulic rod 404, the hydraulic cylinder 403 drives the hydraulic rod 404 to move up and down, the lifting plates 405 are driven by the hydraulic rod 404 to move up and down, the distance between the lifting plates 405 and the caterpillar tracks 302 is changed, so that the flow of flour flowing into the caterpillar tracks 302 is adjusted, flour with different components is conveniently subpackaged, the lifting plates 405 are adjusted to facilitate better quantitative subpackaging of the flour, meanwhile, the flour is more uniformly paved on the surfaces of the caterpillar tracks 302 through the lifting plates 405, the flour is further dried in the drying bins, a drying bin 5 is arranged at one side of the lifting plates 405, the flour is dried in the middle of the drying bin 5, and the flour after subpackaged is ensured to be more dry, flour is prevented from being infested, flour can be stored for a longer time, a dryer 8 (type: OBTH-46GF manufacturer: Guandongtoete new energy force factory) is arranged at the top of the drying bin 5, and a stirring assembly 6 is arranged in the middle of the drying bin 5.

Wherein the stirring component 6 comprises a stop block 601, a connecting plate 602 and stirring columns 603, the bottom of the connecting plate 602 is welded with a plurality of stirring columns 603, the two ends of the connecting plate 602 are welded with the stop block 601 discharging component 7 comprising a third baffle 701, a scraping plate 702, a second sloping plate 704 and a fourth baffle 707, the two sides of the second sloping plate 704 are welded with the third baffle 701, by welding a scraper 702 between the two third baffles 701, one end of the scraper 702 is provided with a brush 703, in the moving process of the crawler belt 302, the brush 703 cleans flour on the surface of the crawler belt 302, so that the flour can completely enter the material pipe 706, the waste of the flour is avoided, through being provided with separation block 705 between two material pipes 706, set separation block 705 to the triangular cone structure, avoid separation block 705 to lead to the fact the face flour to shelter from, be favorable to the flour to separate, guarantee that the better even entering into of flour each material pipe 706 carries out the partial shipment of flour.

The stirring assembly 6 one side is provided with the sliding assembly 9, the sliding assembly 9 includes lead screw 901, first slider 902 and first fixed block 901, second conveying motor 904 is installed to fixed block 901 one side, through be provided with the sliding assembly 9 in stirring assembly 6 bottom, be favorable to adjusting the position of stirring post 603, and then make things convenient for the stirring post 603 to carry out more comprehensive stirring to the flour, improve the speed that the flour was dried, be favorable to the storage of flour, stirring assembly 6 opposite side is provided with firm subassembly 10, firm subassembly 10 includes slide bar 1001, second slider 1002 and second fixed block 1003, through be provided with firm subassembly 10 at stirring assembly 6 opposite side, ensure more stable of stirring post 603 motion, be favorable to drying of the whole aspect powder of drying-machine 8 pair of dough.

Circular plate 102 is the cylinder structure, and the opening has been seted up at circular plate 102 middle part, and feed cylinder 101 is the triangular cone structure, feed cylinder 101 and carriage 103 swing joint, and first shock dynamo 105 is all installed all around at workbin 201 top, and two fixed plates 206 of workbin 201 both sides weld respectively at the top of second baffle 301, and feed inlet 106 has been seted up at feed cylinder 101 top, and circular plate 102 bottom is provided with the first spring 104 of a plurality of, and first shock dynamo 105 is all installed to the first spring 104 bottom of a plurality of.

The two first baffles 207 are of a cuboid structure, the two first baffles 207 are parallel, the bottom of the bin 201 is provided with an opening, the opening is formed above the first inclined plate 208, the first inclined plate 208 is arranged between the two second baffles 301, the first inclined plate 208 is arranged above the crawler 302, the bottoms of the second vibration motors 205 are respectively provided with a fixing plate 206, the bottom of the bin 201 is welded with the first inclined plate 208, the two sides of the first inclined plate 208 are welded with the first baffles 207, the first inclined plate 208 is arranged at the bottom of the bin 201 and is obliquely arranged, so that flour can smoothly flow into the surface of the crawler 302, the condition that the flour vertically descends to cause splashing is avoided, the first baffles 207 are welded at the two sides of the first inclined plate 208, the flour is ensured to smoothly flow into the surface of the crawler 302 through the first inclined plate 208, and the flour is prevented from falling from the first inclined plate 208, the bottom of the first sloping plate 208 is provided with a transfer assembly 3.

Be connected with first chain 304 between a first support shaft 303 of first transmission motor 305 and track 302 one end, track 302 both sides all are provided with second baffle 301, place flour and spill from track 302, guaranteed that flour transmits on track 302, track 302 both ends all are provided with first support shaft 303, swing joint has second chain 306 between two first support shafts 303 and two second support shafts 307, first transmission motor 305 one side and first support shaft 303 one side all are provided with the gear of first chain 304 looks adaptation, two first support shaft 303 both ends respectively with two second baffle 301 swing joint.

Backup pad 401 is "U" type structure down, two supporting shoes 402 are the cuboid structure, two supporting shoes 402 weld respectively at two second baffles 301's top, lifter plate 405 is the cuboid structure, and lifter plate 405 sets up between two second baffles 301, be favorable to lifter plate 405 with the flour tiling on track 302 surface, thereby make things convenient for stirring post 603 to carry out abundant stirring to the flour, make the more comprehensive of flour stoving, improve the drying efficiency of flour, swing joint between lifter plate 405 and two supporting shoes 402.

Connecting plate 602 is the cuboid structure, connecting plate 602 welds between two dogs 601, stirring post 603 is the cylinder structure, and a plurality of stirring post 603 sets up in track 302 top, a plurality of stirring post 603 sets up between two second baffles 301, it stirs the flour to be provided with a plurality of stirring post 603 in connecting plate 602 bottom, increase flour and hot-blast area of contact, it is more comprehensive to make the dry side of flour, stir the flour through stirring post 603, avoid stirring post 603 to lead to splashing of flour when stirring the flour, make the flour flow into smoothly and carry out the partial shipment in ejection of compact subassembly 7.

The welding has scraper blade 702 between two third baffles 701, scraper blade 702 one side is provided with brush 703, second swash plate 704 one side is provided with a plurality of material pipe 706, be provided with separation piece 705 between two material pipes 706, the welding of two third baffles 701 homonymy has fourth baffle 707, two third baffles 701 weld respectively in two second baffles 301 one sides, second swash plate 704 and scraper blade 702 all are the cuboid structure, scraper blade 702 sets up the bottom at track 302, a plurality of separation piece 705 all is the positive triangular cone structure, a plurality of separation piece 705 all sets up between two third baffles 701, ensure that smooth process track 302 of flour enters into in the material pipe 706, further be favorable to the collection storage of flour.

The drying bin 5 is arranged on the two second baffles 301, the position of the stirring column 603 is adjusted by the aid of the first sliding block 902, the stirring column 603 can stir flour sufficiently, the drying efficiency of the flour is improved, the two sides of the screw rod 901 are movably connected with the first fixing block 901, the second transmission motor 904 is arranged on one side of the first fixing block 901, the first sliding block 902 is movably connected with the screw rod 901, and the first sliding block 902 is welded at the bottom of the stop block 601.

The two ends of the sliding rod 1001 are welded with second fixing blocks 1003, the sliding rod 1001 penetrates through the second sliding block 1003, the second sliding block 1003 is welded at the bottom of the other stop block 601, and the sliding rod 1001 is movably connected with the second sliding block 1003.

The use method of the flour subpackaging transmission mechanism is characterized by comprising the following steps:

the method comprises the following steps: the first conveying motor 305 is started, flour to be subpackaged is poured into the charging barrel 101, the first vibration motor 105 is started, the first vibration motor 105 drives the first spring 104 to vibrate, the first spring 104 drives the supporting frame 103 to vibrate, the flour enters the bin 201 through the filter screen 107 after vibration, and some wheat bran and large particle impurities doped in the flour are screened and separated;

the method comprises the following steps: the second vibration motor 205 is started, the second vibration motor 205 drives the second spring 204 to shake, the second spring 204 drives the bin 201 to shake through the support table 203, flour of the nodules in the charging barrel 101 is shaken and smashed and then enters the bin 201 better through the filter screen 107, and the flour flows into the surface of the crawler 302 through the first inclined plate 208;

step three: pneumatic cylinder 403 drives hydraulic stem 404 up-and-down motion, change the distance between lifter plate 405 and the track 302, open drying-machine 8, drying-machine 8 carries out drying process to the flour, open second conveying motor 904, lead screw 901 stirring subassembly 6 reciprocating motion, the stirring post 603 carries out reciprocating stirring to the flour, at the in-process of track 302 motion, brush 703 clears up the flour on track 302 surface, separation piece 705 separates the partial shipment to the flour, take out feed cylinder 101, clear up the impurity in the feed cylinder 101.

During the use, firstly, open first transmission motor 305, pour the flour that needs the partial shipment into feed cylinder 101, open first shock dynamo 105, first shock dynamo 105 drives first spring 104 vibrations, first spring 104 drives the vibrations of carriage 103, the effect of rocking through vibrations production can be smashed the flour in feed cylinder 101, avoided the flour to make the condition that the nodulus at the partial shipment, make the flour after the partial shipment and more meticulous, flour enters into workbin 201 through filter screen 107 after vibrations, some wheat bran of adulteration in the flour, impurity screens the separation, the more clean health of flour after having guaranteed the partial shipment, and is favorable to the use, secondly, carry out vibrations screening through screening subassembly 1 to the flour, the manpower is saved, the screening efficiency of flour is improved, further the efficiency of flour partial shipment is improved.

Then, open second shock dynamo 205, second shock dynamo 205 mobilizes second spring 204 and rocks, and second spring 204 drives workbin 201 vibrations through brace table 203, through dual vibrations, makes the more thorough of the flour shattering of feed cylinder 101 knot, can make flour pass through the better entering into workbin 201 of filter screen 107, carries out better separation to the impurity in the flour, guarantees that flour is cleaner, and flour flows into track 302 surface through first swash plate 208 smoothly.

Finally, the hydraulic cylinder 403 drives the hydraulic rod 404 to move up and down, the hydraulic rod 404 drives the lifting plate 405 to move up and down, the distance between the lifting plate 405 and the crawler 302 is changed, the flow rate of flour flowing into the crawler 302 is adjusted, the flour is uniformly laid on the surface of the crawler 302, flour with different components is conveniently distributed, the second conveying motor 904 is started, the position of the stirring column 603 is changed, the dryer 8 is started, the flour is dried through the middle of the drying box 5, the flour is stirred by the stirring columns 603, the contact area of the flour and hot air is increased, the flour drying side is more comprehensive, in the moving process of the crawler 302, the brush 703 cleans the flour on the surface of the crawler 302, the flour can completely enter the material pipe 706, the waste of the flour is avoided, the flour is separated by the separating block, the flour uniformly enters each material pipe 706, and after the flour is completely transferred 705, the barrel 101 is taken out, and impurities in the barrel 101 are cleaned.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise forms disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims

1. The utility model provides a transport mechanism for flour partial shipment, includes screening subassembly (1), vibrations subassembly (2), conveying subassembly (3), adjusting part (4), stirring subassembly (6), ejection of compact subassembly (7) slip subassembly (9) and firm subassembly (10), its characterized in that: a circular plate (102) is arranged at the top of the screening assembly (1), a supporting frame (103) is welded at the bottom of the circular plate (102), a charging barrel (101) is arranged in the middle of the supporting frame (103), and a filter screen (107) is arranged at the bottom of the charging barrel (101);

the vibration assembly (2) comprises a material box (201), second springs (204), a fixing plate (206) and a first baffle (207), wherein a bayonet (202) is formed in the top of the material box (201), two supporting tables (203) are welded on two sides of the material box (201), the second springs (204) are welded at the bottoms of the supporting tables (203), and second vibration motors (205) are installed at the bottoms of the second springs (204);

the conveying assembly (3) comprises a crawler belt (302), a first supporting shaft (303) and a second supporting shaft (307), second baffle plates (301) are arranged on two sides of the crawler belt (302), two welding plates (308) are welded on one sides of the two second baffle plates (301), the second supporting shaft (307) is arranged between the two welding plates (308), and a first conveying motor (305) is arranged between the two welding plates (308);

the adjusting assembly (4) comprises a supporting plate (401), supporting blocks (402) and a lifting plate (405), the supporting blocks (402) are welded at two ends of the supporting plate (401), a hydraulic cylinder (403) is arranged at the bottom of the supporting plate (401), a hydraulic rod (404) is movably connected to one side of the hydraulic cylinder (403), the lifting plate (405) is welded at the bottom of the hydraulic rod (404), a drying bin (5) is arranged at one side of the lifting plate (405), a dryer (8) is arranged at the top of the drying bin (5), and a stirring assembly (6) is arranged in the middle of the drying bin (5);

the stirring assembly (6) comprises a stop block (601), a connecting plate (602) and stirring columns (603), a plurality of stirring columns (603) are welded at the bottom of the connecting plate (602), the stop blocks (601) are welded at two ends of the connecting plate (602), the discharging assembly (7) comprises a third baffle (701), a scraper (702), a second inclined plate (704) and a fourth baffle (707), and the third baffle (701) is welded at two sides of the second inclined plate (704);

the stirring device is characterized in that a sliding assembly (9) is arranged on one side of the stirring assembly (6), the sliding assembly (9) comprises a screw rod (901), a first sliding block (902) and a first fixing block (901), a second conveying motor (904) is installed on one side of the fixing block (901), a stabilizing assembly (10) is arranged on the other side of the stirring assembly (6), and the stabilizing assembly (10) comprises a sliding rod (1001), a second sliding block (1002) and a second fixing block (1003).

2. The conveying mechanism for flour subpackaging according to claim 1, wherein the circular plate (102) is of a cylindrical structure, an opening is formed in the middle of the circular plate (102), the charging barrel (101) is of a triangular cone structure, the charging barrel (101) is movably connected with the supporting frame (103), the first vibrating motors (105) are mounted on the periphery of the top of the charging box (201), two fixing plates (206) on two sides of the charging box (201) are respectively welded on the top of the second baffle (301), the feeding hole (106) is formed in the top of the charging barrel (101), the plurality of first springs (104) are arranged at the bottom of the circular plate (102), and the first vibrating motors (105) are mounted at the bottoms of the plurality of first springs (104).

3. The conveying mechanism for flour subpackaging according to claim 1, wherein the two first baffles (207) are of a cuboid structure, the two first baffles (207) are parallel to each other, the bottom of the bin (201) is provided with an opening, the opening is formed above the first inclined plate (208), the first inclined plate (208) is arranged between the two second baffles (301), the first inclined plate (208) is arranged above the track (302), the second vibrating motor (205) is provided with a fixing plate (206) at the bottom, the first inclined plate (208) is welded at the bottom of the bin (201), the first baffles (207) are welded at two sides of the first inclined plate (208), and the conveying assembly (3) is arranged at the bottom of the first inclined plate (208).

4. The conveying mechanism for flour subpackaging according to claim 1, wherein a first chain (304) is connected between the first conveying motor (305) and one first supporting shaft (303) at one end of the crawler (302), second baffles (301) are arranged on both sides of the crawler (302), first supporting shafts (303) are arranged at both ends of the crawler (302), a second chain (306) is movably connected between the two first supporting shafts (303) and the two second supporting shafts (307), gears matched with the first chain (304) are arranged on one side of the first conveying motor (305) and one side of the first supporting shaft (303), and both ends of the two first supporting shafts (303) are respectively movably connected with the two second baffles (301).

5. The conveying mechanism for flour subpackaging according to claim 1, wherein the supporting plate (401) is of an inverted U-shaped structure, the two supporting blocks (402) are of a cuboid structure, the two supporting blocks (402) are respectively welded on the tops of the two second baffle plates (301), the lifting plate (405) is of a cuboid structure, the lifting plate (405) is arranged between the two second baffle plates (301), and the lifting plate (405) is movably connected with the two supporting blocks (402).

6. A conveying mechanism for split charging of flour as claimed in claim 1, wherein the connecting plate (602) is of a rectangular parallelepiped structure, the connecting plate (602) is welded between the two stop blocks (601), the stirring column (603) is of a cylindrical structure, and a plurality of stirring columns (603) are arranged above the caterpillar band (302), and a plurality of stirring columns (603) are arranged between the two second stop blocks (301).

7. The conveying mechanism for flour subpackaging according to claim 1, wherein a scraper (702) is welded between two third baffles (701), a brush (703) is arranged on one side of the scraper (702), a plurality of material pipes (706) are arranged on one side of the second inclined plate (704), a separating block (705) is arranged between the two material pipes (706), a fourth baffle (707) is welded on the same side of the two third baffles (701), the two third baffles (701) are respectively welded on one side of the two second baffles (301), the second inclined plate (704) and the scraper (702) are both in a cuboid structure, the scraper (702) is arranged at the bottom of the crawler (302), the plurality of separating blocks (705) are both in a regular triangular cone structure, and the plurality of separating blocks (705) are both arranged between the two third baffles (701).

8. The conveying mechanism for flour subpackaging according to claim 1, wherein the drying bin (5) is arranged on two second baffles (301), the two sides of the screw rod (901) are movably connected with a first fixed block (901), the second transmission motor (904) is arranged on one side of the first fixed block (901), the first sliding block (902) is movably connected with the screw rod (901), and the first sliding block (902) is welded at the bottom of the stop block (601).

9. The transmission mechanism for flour subpackaging according to claim 1, wherein the second fixed blocks (1003) are welded at both ends of the sliding rod (1001), the sliding rod (1001) penetrates through the second sliding block (1003), the second sliding block (1003) is welded at the bottom of the other stop block (601), and the sliding rod (1001) is movably connected with the second sliding block (1003).

10. The use method of the flour subpackaging transmission mechanism is characterized by comprising the following steps:

the method comprises the following steps: the method comprises the following steps of starting a first conveying motor (305), pouring flour to be subpackaged into a charging barrel (101), starting a first vibrating motor (105), driving a first spring (104) to vibrate by the first vibrating motor (105), driving a supporting frame (103) to vibrate by the first spring (104), enabling the flour to enter a bin (201) through a filter screen (107) after vibration, and screening and separating wheat bran and large particle impurities doped in the flour;

the method comprises the following steps: a second vibration motor (205) is started, the second vibration motor (205) drives a second spring (204) to shake, the second spring (204) drives a bin (201) to shake through a support table (203), flour of the nodules in the charging barrel (101) is shattered and better enters the bin (201) through a filter screen (107), and the flour flows into the surface of the track (302) through a first inclined plate (208);

step three: pneumatic cylinder (403) drive hydraulic stem (404) up-and-down motion, change the distance between lifter plate (405) and track (302), open drying-machine (8), drying-machine (8) carry out drying process to the flour, open second conveying motor (904), lead screw (901) stirring subassembly (6) reciprocating motion, stirring post (603) carry out reciprocating stirring to the flour, at the in-process of track (302) motion, brush (703) clear up the flour on track (302) surface, separation piece (705) separate the partial shipment to the flour, take out feed cylinder (101), clear up the impurity in feed cylinder (101).