CN116941429B

CN116941429B - Corn peeling device for livestock feed production

Info

Publication number: CN116941429B
Application number: CN202310999764.5A
Authority: CN
Inventors: 陈慧莲; 乐欢明; 程小生
Original assignee: Jiangxi Lianhe Agriculture And Animal Husbandry Technology Group Co ltd
Current assignee: Jiangxi Lianhe Agriculture And Animal Husbandry Technology Group Co ltd
Priority date: 2023-08-09
Filing date: 2023-08-09
Publication date: 2025-08-15
Anticipated expiration: 2043-08-09
Also published as: CN116941429A

Abstract

The present invention relates to the technical field of corn production and processing, and more particularly to a corn shelling device for livestock feed production. The technical solution is: a corn shelling device for livestock feed production, comprising a processing box and a shelling box, with the shelling box connected to one side of the upper portion of the processing box. The shelling roller and the shelling roller are used to shell and shell the incoming corn, and a first half gear groove and a second half gear groove are provided to cooperate with each other.

Description

Corn peeling device for livestock feed production

Technical Field

The invention relates to the technical field of corn production and processing, in particular to a corn peeling device for livestock feed production.

Background

The patent number is 201910540437.7, the corn stripping device comprises a bottom plate, a driving motor, a screw rod, a sleeve, an air cylinder, a stripping knife and a grain receiving disc, wherein one side above the bottom plate is fixedly connected with a stand column, the upper end of the stand column is fixedly connected with a cover plate, the inner side of the upper part of the stand column is fixedly provided with the driving motor, the lower part of the driving motor is rotationally connected with the screw rod, a wire of the driving motor is connected with a power supply and a controller, one side of the screw rod is rotationally connected with a roller wheel, the roller wheel is attached to the side wall of the stand column, the other side of the sleeve plate is fixedly provided with a fixing sleeve, the fixing sleeve is sleeved with the stripping knife, one side of the driving motor is provided with a sleeve, a bearing at the end of the sleeve is rotationally connected with the cover plate, the lower part of the sleeve is slidingly connected with a telescopic rod, two strip-shaped grooves are symmetrically arranged on the inner wall of the sleeve, two symmetrical convex strips are embedded in the grooves, the upper part of the screw rod is connected with the sleeve through a synchronous belt, and the lower end of the telescopic rod is fixedly connected with a plum blossom cone head.

However, the existing corn processing device does not have the peeling function, so that a user needs to wait for a peeling machine to peel corn after processing, and transport the corn to a peeling machine for secondary processing, which wastes time and energy, and meanwhile, the existing device filters by setting a single fan blade, so that the filtering effect is poor, the existing device does not have the function of processing corn after peeling, and the corn after peeling should be processed and chopped when manufacturing feed for livestock, so that the later manufacturing feed is convenient, however, the existing device is usually only provided with the peeling function, so that the user needs to spend time again for transporting corn grains, process the corn grains and reduce the manufacturing efficiency.

Disclosure of Invention

In order to overcome the defects that the existing corn processing device is single and does not have a peeling function, and meanwhile, the device is provided with a single fan blade for filtering, the filtering effect is poor, the device is not provided with a function of processing corn after peeling, and when the corn after peeling is processed and chopped to manufacture feed for livestock, the corn after peeling is convenient for later manufacturing, however, the existing device is generally only provided with the peeling function and reduces the manufacturing efficiency, the invention aims to provide the corn peeling device for producing livestock feed.

The corn peeling device for livestock feed production comprises a processing box and a peeling box, wherein one side of the upper part of the processing box is connected with the peeling box;

The lower part of the inner side of the grain stripping box is connected with an inclined filter plate, a first slag outlet is formed above one side of the grain stripping box, which is close to the inclined filter plate, a collecting box is connected with one side of the lower part of the grain stripping box, which is close to the first slag outlet, a grain stripping roller is connected above the inclined filter plate of the inner side of the grain stripping box, one end of the grain stripping roller is connected with a rotating shaft, the other end of the rotating shaft, which is far away from the grain stripping roller, is connected with a first motor, a first movable belt is connected with the other end, which is far away from the rotating shaft, of the first motor, a first rotating disk is connected with a first half gear groove, the other end, which is far away from the grain stripping roller, of the first rotating disk is connected with a second rotating disk, the grain peeling roller other end on the second rotary disk is connected with second half gear groove, and second half gear groove circumference outside is connected with the external gear, and external gear one end is connected with the internal gear, and the internal gear circumference outside is connected with the urceolus of skinning, the circumference outside is connected with the semicircle gear groove on the urceolus of skinning, the urceolus inboard of skinning is equipped with a plurality of spines of skinning, the urceolus of skinning is kept away from the internal gear other end and is connected with the urceolus gear, be connected with the second movable belt between urceolus and the urceolus gear, the second movable belt is kept away from the urceolus gear other end and is connected with the rectangle division board, installs directly over the rectangle division board and is connected with the frame that opens and shuts, the first half gear groove of grain peeling roller passes through connecting gear with the urceolus gear of urceolus of skinning.

As a further preferred embodiment, the first half-gear groove and the second half-gear groove are each provided with a quarter of the circumference of the outer gear groove.

As a further preferable scheme, the bottom end of the processing box is connected with a conveying pipe, the tail end of the conveying pipe is connected with a sieving outer cylinder, the upper part of the inner side of the sieving outer cylinder is connected with a sieving inner cylinder, a plurality of baffles are connected to the sieving inner cylinder, the bottom of the sieving inner cylinder is connected with an inclined discharging plate, a second slag outlet is formed in the outer side of the circumference of the sieving outer cylinder, which is close to the upper part of the inclined discharging plate, a second motor is connected to the outer side of the circumference of the upper part of the sieving outer cylinder, a third movable belt is connected to the other end of the third movable belt, vertical fan blades are connected to the two ends of the sieving shaft, a fan blade net is connected to the outer side of the circumference of the vertical fan blades, connecting rods are connected to the outer side of the circumference of the upper part of the sieving shaft, cavities are formed in the inner sides of the connecting rods, clamping rings are connected to the bottoms of the cavities, a turning plate is connected to the top of the turning plate, the clamping rings of the connecting rods are matched with the clamping heads, a blanking plate is connected to the bottom of the blanking plate, and a blanking outer ring is arranged under the blanking plate.

As a further preferable scheme, the connecting rod is internally provided with a cavity and a clamping ring, the cross-sectional dimension of the cavity is larger than that of the clamping head of the turning plate, and the clamping head of the turning plate is embedded in the cavity of the connecting rod and is matched with the clamping head through the clamping ring.

As a further preferable scheme, the bottom of the sieving outer cylinder is connected with a crushing cylinder, a rotating block is connected under the sieving shaft, sleeve rods are arranged at two ends of the top of the rotating block, the sieving shaft is connected with the sleeve rods of the rotating block, a second sleeve rod is connected to the outer side of the circumference of the rotating block, the second sleeve rod is far away from the other end of the rotating block and is connected with a second movable ring, a second sliding groove is formed in the inner side of the second movable ring, the second sleeve rod of the rotating block is matched with the second sliding groove of the second movable ring, the bottom of the rotating block is connected with a crushing shaft, the upper part of the crushing shaft is connected with a cutting blade, a pushing plate is connected to the lower part of the crushing shaft, a crushing roller is connected to the bottom of the crushing shaft, an outer ring filter screen is connected between the crushing roller and the pushing plate, a cutting cylinder is connected to the inner side of the outer ring, a cutting groove is formed in the top of the cutting cylinder, a plurality of corn outlets are formed in the lower part of the cutting groove of the cutting cylinder, a plurality of cutting grooves are formed in the inner side of the cutting cylinder, and a plurality of corn outlets are formed between the cutting grooves and the cutting groove.

As a further preferable scheme, fixed rods are arranged on the outer side of the circumference of the lower portion of the sieving shaft, two nesting rods are arranged at the top of the rotating block, an O-shaped cavity is formed in the middle of each nesting rod, the fixed rods are embedded into the O-shaped cavity in each nesting rod, and meanwhile the cross-sectional size of each O-shaped cavity is larger than that of each fixed rod.

The corn peeling machine has the advantages that 1, the peeling roller and the grain peeling roller are utilized to peel and peel corn into the corn, and meanwhile, the first half gear groove and the second half gear groove are matched with each other to drive the peeling outer cylinder to turn up and down and further drive the rectangular opening plate to rotate together, so that corn flows into the peeling outer cylinder at intervals, corn is processed, and the phenomenon that the corn is too much in blanking to cause the corn to be stuck is avoided.

2. The inner barrel that sieves is equipped with two cavitys, and all is equipped with vertical flabellum and turning plate in the cavity, then mutually support through vertical flabellum and turning plate, blow off the broken bits that mix the kernel of corn from the filter screen on the inner barrel that sieves and sieve, improve the filter effect.

3. The crushing shaft is provided with the cutting blade and the polishing roller, and the cutting blade and the polishing roller are matched with each other to perform double-layer processing on corn kernels, so that the corn kernel processing effect is improved.

Drawings

FIG. 1 is a schematic plan view of a processing tank of the present invention.

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

Fig. 3 is a schematic perspective view of a stripping box according to the present invention.

Fig. 4 is a schematic view of a connection between a peeling roller and a peeling outer cylinder.

Fig. 5 is a schematic view of a connection structure between a peeling roller and a peeling roller according to the present invention.

Fig. 6 is a schematic view of a forward rotation connection structure of the peeling outer cylinder and the rectangular opening and closing plate.

Fig. 7 is a schematic perspective view of the peeling roller and the peeling outer barrel of the present invention.

Fig. 8 is a schematic view of a structure of the peeling outer cylinder and the rectangular opening and closing plate in reverse rotation connection.

FIG. 9 is a schematic perspective view of a filter assembly and a mashing assembly of the present invention.

Fig. 10 is a schematic perspective view of the sieving outer cylinder of the present invention.

Fig. 11 is a schematic perspective view of a filter assembly according to the present invention.

Fig. 12 is an exploded perspective view of the screen shaft and fan blade net drum of the present invention.

Fig. 13 is a schematic view of an explosion connection structure of a connecting rod and a turning plate according to the present invention.

Fig. 14 is a schematic exploded perspective view of the blanking plate and the blanking outer ring of the present invention.

Fig. 15 is a schematic perspective view of a mashing assembly of the present invention.

Fig. 16 is a schematic view of the connection between the sieving shaft and the nesting rod in the three-dimensional structure of the present invention.

Fig. 17 is a schematic perspective view of a sieving shaft according to the present invention.

Fig. 18 is an exploded perspective view of a cutting cartridge of the present invention.

Fig. 19 is a schematic perspective view of a breaking roller and a breaking groove according to the present invention.

Reference numerals in the figures: 1-processing box, 2-grain stripping assembly, 21-grain stripping box, 2101-inclined filter plate, 2102-first slag outlet, 2103-slag collecting box, 22-first motor, 23-grain stripping roller, 2301-rotating shaft, 2302-first rotating disk, 2303-first half gear groove, 2304-second rotating disk, 2305-second half gear groove, 2306-first movable belt, 2307-stripping roller, 24-external gear, 2401-internal gear, 25-stripping outer cylinder, 2501-half gear groove, 2502-stripping spike, 2503-outer cylinder gear, 2504-second movable belt, 26-connecting gear, 27-rectangular opening and closing outer frame, 2701-opening and closing outer frame, 3-conveying pipe, 4-filter assembly, 41-sieving outer cylinder, 4101-screening drum, 4102-baffle, 4103-inclined discharge plate, 4104-second slag outlet, 42-second motor, 43-third movable belt, 44-screening shaft, 4401-vertical fan blade, 4402-fan blade net drum, 45-connecting rod, 4501-cavity, 4502-clasp, 46-stirring plate, 4601-clip head, 47-blanking plate, 4701-blanking outer ring, 5-stirring assembly, 51-stirring drum, 52-second movable ring, 5201-second chute, 53-rotating block, 5301-second embedding rod, 5302-embedding rod, 5303-stirring shaft, 5304-cutting blade, 5305-pushing plate, 5306-crushing roller, 5307-outer ring filter screen, 5308-pressing plate, 54-cutting drum, 5401-cutting tank, 5402-feed tank, 5403-breaking tank, 5404-corn outlet, 55-second spring assembly.

Detailed Description

The technical solution is further described below with reference to specific embodiments, and it should be noted that words indicating orientations, such as up, down, left, right, etc., are used herein only for positions of the illustrated structure in the corresponding drawings. The reference numerals used for the components, such as first, second, etc., are used herein only to distinguish the described objects and do not have any sequential or technical meaning. The application includes both direct and indirect connections (couplings), unless specifically indicated.

Example 1

As shown in fig. 1-8, a corn peeling device for livestock feed production comprises a processing box 1 and a peeling box 21, wherein one side of the upper part of the processing box 1 is connected with the peeling box 21;

The grain stripping assembly 2 comprises a grain stripping box 21, an inclined filter plate 2101 is connected to the lower portion of the inner side of the grain stripping box 21, a first slag outlet 2102 is formed in the upper portion of one side, close to the inclined filter plate 2101, of the grain stripping box 21, a collecting box is connected to one side, close to the first slag outlet 2102, of the lower portion of the grain stripping box 21, a grain stripping roller 23 is connected to the upper portion of the inclined filter plate 2101, one end of the grain stripping roller 23 is connected with a rotating shaft 2301, the other end, far from the grain stripping roller 23, of the rotating shaft 2301 is connected with a first motor 22, a first movable belt 2306 is connected to the other end, far from the rotating shaft 2301, of the grain stripping roller 2307, the grain stripping roller 23 is connected to the other end of the first rotary disk 2302, a first half gear groove 2303 is connected to the other end, the outer side, close to the first rotary disk 2302, of the first rotary disk 2304 is connected to a second half gear 2305, the other end, connected to the second half gear 2305, of the grain stripping roller 23 is connected to a second half gear 2305, the outer gear 25025 is connected to the outer gear 25025, and the half gear 25025 is connected to the outer gear 25025, and the outer gear 25025 is connected to the outer gear 25025.

The gear grooves on the outer circumferential sides of the first half gear groove 2303 and the second half gear groove 2305 are each set to one quarter.

Firstly, corn to be processed is put into a feed port formed in the top of a threshing box 21, a rotating shaft 2301 is driven by a first motor 22 to rotate with a threshing roller 23, so that the threshing roller 23 rotates and simultaneously drives a first rotating disk 2302 and a second rotating disk 2304 to be meshed with each other, further, two threshing rollers 23 are driven to rotate in the same direction, and simultaneously drive a first movable belt 2306 to rotate along with the rotating shaft 2301, so that the first movable belt 2306 rotates and simultaneously drives a threshing roller 2307 to rotate, then corn is put into a bottom threshing outer cylinder 25 along openings on two sides of a rectangular opening plate 27, the corn is matched with a threshing spike 2502 in the threshing outer cylinder 25 through the threshing roller 2307, after the corn is further peeled, one end of the other threshing roller 23 is provided with a second half gear groove 2305, and simultaneously drives the second half gear groove 2305 to rotate through the same direction rotation of the two threshing rollers 23, the second half gear groove 2305 rotates and is meshed with the external gear 24 at the same time, so that the internal gear 2401 is driven to rotate together, then the internal gear 2401 rotates and is meshed with the semicircular gear groove 2501 on the peeling outer barrel 25, so that the peeling outer barrel 25 is driven to rotate upwards by ninety degrees, corn and husk flow into the peeling roller 23 along the peeling outer barrel 25, the two peeling rollers 23 rotate in the same direction to peel the corn which flows down, the corn after peeling flows into the inclined filter plate 2101, the corn grains flow into the conveying pipe 3 along the big holes due to the large holes formed in the inclined filter plate 2101, the corn sticks and husk flow into the slag collecting box 2103 from the first slag outlet 2102 along the inclined filter plate 2101, the peeling outer barrel 25 rotates upwards and drives the outer barrel gear 2503 to rotate together, the outer cylinder gear 2503 rotates and drives the second movable belt 2504 to rotate, the second movable belt 2504 drives the rectangular opening plate 27 to rotate downwards, the two openings of the opening and closing outer frame 2701 are closed, the upper part is continuously fed when the peeling outer cylinder 25 is prevented from being fed, when the peeling outer cylinder 25 needs to rotate downwards, as the two peeling rollers 23 are provided with half gear grooves and half gear groove gear rings are set to be one fourth, the second peeling roller 23 rotates and drives the second half gear groove 2305 to rotate, so that one fourth gear ring on the second half gear groove 2305 is meshed with the outer gear 24, the peeling outer cylinder 25 is driven to move upwards, and the second half gear groove 2305 is separated from the outer gear 24 gear rings in a rotating way after the peeling outer cylinder 25 rotates upwards,

After the peeling, the first peeling roller 23 rotates in the same direction to drive the quarter gear ring on the first half gear groove 2303 to rotate, so that the first half gear groove 2303 rotates and is meshed with the connecting gear 26, and then drives the outer barrel gear 2503 to rotate together, the peeling outer barrel 25 is driven to rotate downwards by the outer barrel gear 2503, and the second movable belt 2504 is driven to rotate together with the rectangular opening plate 27 when the outer barrel gear 2503 rotates downwards, openings on two sides of the opening and closing outer frame 2701 are opened, new blanking is performed, after the peeling outer barrel 25 rotates downwards, the first half gear groove 2303 is separated from the gear ring of the connecting gear 26 in a rotating way, and then the peeling outer barrel 25 is driven to rotate upwards and downwards in a reversing way through the first half gear groove 2303 and the second half gear groove 2305.

Example 2

As shown in fig. 9-14, on the basis of embodiment 1, the bottom end of the processing box 1 is connected with a conveying pipe 3, the end of the conveying pipe 3 is connected with a sieving outer cylinder 41, the upper part of the inner side of the sieving outer cylinder 41 is connected with a sieving inner cylinder 4101, a plurality of baffles 4102 are connected on the sieving inner cylinder 4101, the bottom of the sieving inner cylinder 4101 is connected with an inclined discharging plate 4103, a second slag outlet 4104 is formed above the circumference outer side of the sieving outer cylinder 41 and close to the inclined discharging plate 4103, a second motor 42 is connected on the circumference outer side of the upper part of the sieving outer cylinder 41, a third movable belt 43 is connected on the second motor 42, the other end of the third movable belt 43 is connected with a sieving shaft 44, vertical blades 4401 are connected on the two ends of the sieving shaft 44, the circumference outer side of the vertical blades 4401 are connected with a blade net drum 4402, the circumference outer side of the upper part of the sieving shaft 44 is connected with a connecting rod 45, a cavity 4501 is formed on the inner side of the connecting rod 4501, a clamping ring 2 is connected with a clamping ring 2 on the bottom of the connecting rod 45, a clamping ring 46 is connected with a clamping ring 46 on the bottom of the connecting rod 45, a clamping ring 4601 is connected with a blanking plate 46 on the top of the clamping ring 46, a blanking plate is connected with a blanking plate 4747 on the bottom of the connecting ring 45.

The connecting rod 45 is internally provided with a cavity 4501 and a clamping ring 4502, the cross section size of the cavity 4501 is larger than that of a clamping head 4601 of the turning plate 46, and the clamping head 4601 of the turning plate 46 is embedded in the cavity 4501 of the connecting rod 45 and matched with the clamping head 4601 through the clamping ring 4502.

In addition, the corn kernels flowing into the conveying pipe 3 flow into the sieving inner cylinder 4101 along the conveying pipe 3, the sieving shaft 44 is driven to rotate through the second motor 42, the sieving shaft 44 rotates and drives the vertical fan blades 4401 to rotate with the connecting rod 45, the turning plate 46 is driven to rotate through the connecting rod 45 and simultaneously rotates, the turning plate 46 rotates and simultaneously collides with the baffle 4102 on the sieving inner cylinder 4101, the turning plate 46 and the clamping head 4601 are driven to rotate in the cavity 4501 in the connecting rod 45 through the collision force after the turning plate 46 collides with the baffle 4102, wind force is generated after the corn kernels flowing into the sieving inner cylinder 4101 are stirred by utilizing the rotation of the turning plate 46, the corn kernels are blown out from the surface of the sieving inner cylinder 4101 and flow into the inclined discharging plate 4103, the corn kernels flow out from the second slag outlet 4104 along the inclined discharging plate 4103, the turning plate 46 is connected with the blanking plate 47, the blanking plate 47 is driven to rotate at a uniform speed through the turning plate 46 and simultaneously rotates the inner cylinder 47 along the blanking inner cylinder 4701, the inside of the sieving inner cylinder is provided with the two vertical fan blades 4401, and the inside of the sieving inner cylinder 4401 is provided with the sieving inner cylinder 4401, and the inside of the sieving inner cylinder 4401 is provided with the vertical mixing effect is improved, and the inside the sieving inner cylinder 4401 is provided with the two cavities and the sieving inner cavity is provided with the vertical mixing effect.

Example 3

As shown in fig. 15-19, on the basis of embodiment 2, a crushing drum 51 is connected to the bottom of the sieving outer drum 41, the crushing assembly 5 comprises a crushing drum 51, a rotating block 53 is connected directly under the sieving shaft 44, nesting rods 5302 are respectively arranged at two ends of the top of the rotating block 53, the sieving shaft 44 is connected with the nesting rods 5302 of the rotating block 53, a second embedding rod 5301 is connected to the outer side of the circumference of the rotating block 53, a second sliding groove 5201 is formed in the inner side of the second sliding ring 52, the second embedding rod 5301 of the rotating block 53 is matched with the second sliding groove 5201 of the second sliding ring 52, a crushing shaft 5303 is connected to the bottom of the rotating block 53, a cutting blade 5304 is connected to the upper part of the crushing shaft 5303, a pushing plate 5305 is connected to the lower part of the crushing shaft 5303, a roller 5306 is connected to the lower part of the crushing shaft 3, a second sliding plate 5303 is connected to the lower part of the crushing shaft 5303, a plurality of grooves 5304 are formed in the inner side of the crushing shaft 5305, a plurality of grooves 5304 are formed in the inner side of the grooves 5305, and a plurality of grooves 5305 are formed in the inner side of the grooves 5305, a plurality of grooves 5305 are formed in the inner side of the grooves are formed in the inner side of the crushing shaft 54, and an outer groove 5305, and a plurality of grooves 5305 are formed in the grooves are cut in the inner side of the grooves of the groove 5305, and are cut 54, and the grooves are cut between the grooves are cut.

The outside of the circumference of the lower part of the sieving shaft 44 is provided with fixed rods, the top of the rotating block 53 is provided with two nested rods 5302, the middle part of each nested rod 5302 is provided with an O-shaped cavity, the fixed rods are embedded into the O-shaped cavities in the nested rods 5302, and the cross section size of each O-shaped cavity is larger than that of each fixed rod.

In addition, corn flowing out of the inner sieve cylinder 4101 flows into the bottom cutting groove 5401, the sieve shaft 44 rotates and drives the nested rod 5302 on the rotating block 53 to rotate, the nested rod 5302 drives the rotating block 53 and the second nested rod 5301 to rotate along the second sliding groove 5201 in the second movable ring 52, then the rotating block 53 rotates and drives the stirring shaft 5303 to rotate together with the cutting blade 5304, the cutting blade 5304 is matched with the cutting groove 5401 in the cutting cylinder 54 to cut the corn flowing down, the pushing plate 5305 is arranged at the bottom of the cutting blade 5304, the cut corn grains are pushed out of the corn outlet 5404 opened on the cutting groove 5401 by the pushing plate 5305 to flow into the outer ring filter screen 5307 cover plate 48, the slag generated by cutting corn is filtered by the outer ring filter screen 5307, the small corn grains are remained on the outer ring filter screen 5307 cover plate 48, and because the second chute 5201 is wave-shaped, the rotating block 53 drives the second embedding rod 5301 to rotate along the second chute 5201, and simultaneously drives the rotating block 53 and the crushing shaft 5303 of the embedding rod 5302 to move up and down together, then the outer ring filter screen 5307 is driven to move up by the crushing shaft 5303 and simultaneously pushes the small-sized corn kernels into the feeding groove 5402 of the cutting cylinder 54, the small-sized corn kernels flow into the crushing groove 5403 along the feeding groove 5402, the crushing roller 5306 is matched with the crushing groove 5403 to process the corn for a second time, the processed corn flows out along the bottom of the crushing cylinder 51, the bottom end of the crushing shaft 5303 is also provided with the pressing plate 5308, the pressing plate 5308 is driven to move down along with the up and down movement of the crushing shaft 5303 to press the bottom second spring component 55, the second spring component 55 is driven to push the rotating block 53 and the crushing shaft 5303 upwards by the elasticity of the second spring component 55, the moving effect is improved.

While the present invention has been described in detail with reference to the above embodiments, it will be apparent to those skilled in the art from this disclosure that various changes or modifications can be made therein without departing from the spirit and scope of the invention as defined in the following claims. Accordingly, the detailed description of the disclosed embodiments is to be taken only by way of illustration and not by way of limitation, and the scope of protection is defined by the content of the claims.

Claims

1. The corn peeling device for livestock feed production is characterized by comprising a processing box (1) and a peeling box (21), wherein one side of the upper part of the processing box (1) is connected with the peeling box (21);

The lower part of the inner side of the grain stripping box (21) is connected with an inclined filter plate (2101), a first slag outlet (2102) is formed in the upper part of one side of the grain stripping box (21) close to the inclined filter plate (2101), a collecting box is connected in one side of the lower part of the grain stripping box (21) close to the first slag outlet (2102), a grain stripping roller (23) is connected above the inner side of the grain stripping box (21) and above the inclined filter plate (2101), one end of the grain stripping roller (23) is connected with a rotating shaft (2301), the other end of the rotating shaft (2301) far away from the grain stripping roller (23) is connected with a first motor (22), the other end of the rotating shaft (2306) far away from the rotating shaft (2301) is connected with a peeling roller (2307), the other end of the grain stripping roller (23) far away from the first motor (22) is connected with a first rotating disk 2303), the other end of the first rotating disk (2302) is connected with an external gear (2304), the other end of the second rotating disk (2304) is connected with an external gear (2304), the other end of the second rotating disk (24) is connected with an external gear (2305), the outer side of the circumference of the inner gear (2401) is connected with a peeling outer cylinder (25), the outer side of the circumference of the peeling outer cylinder (25) is connected with a semicircular gear groove (2501), a plurality of peeling spines (2502) are arranged on the inner side of the peeling outer cylinder (25), the other end of the peeling outer cylinder (25) far away from the inner gear (2401) is connected with an outer cylinder gear (2503), a second movable belt (2504) is connected between the peeling outer cylinder (25) and the outer cylinder gear (2503), the other end of the second movable belt (2504) far away from the outer cylinder gear (2503) is connected with a rectangular opening and closing plate (27), an opening and closing outer frame (2701) is arranged right above the rectangular opening and closing plate (27), the first half gear groove (2303) of the grain stripping roller (23) is connected with an outer cylinder gear (2503) of the grain stripping outer cylinder (25) through a connecting gear (26), the bottom end of the processing box (1) is connected with a conveying pipe (3), the tail end of the conveying pipe (3) is connected with a sieving outer cylinder (41), the upper part of the inner side of the sieving outer cylinder (41) is connected with a sieving inner cylinder (4101), a plurality of baffles (4102) are connected on the sieving inner cylinder (4101), the bottom of the sieving inner cylinder (4101) is connected with an inclined discharging plate (4103), the outer side of the circumference of the sieving outer cylinder (41) is close to the upper part of the inclined discharging plate (4103) and is provided with a second slag outlet (4104), the utility model discloses a sieving barrel, including sieving urceolus (41), outer cylinder (41), second motor (42), third movable band (43) are connected with on the second motor (42), third movable band (43) other end is connected with sieving shaft (44), both ends all are connected with vertical flabellum (4401) on sieving shaft (44), vertical flabellum (4401) circumference outside is connected with flabellum net section of thick bamboo (4402), all be connected with connecting rod (45) in sieving shaft (44) upper portion circumference outside, cavity (4501) have been seted up to connecting rod (45) inboard, cavity (4501) bottom is connected with snap ring (4502), connecting rod (45) bottom is connected with stirring board (46), stirring board (46) top is connected with chuck (4601), stirring board (46) bottom is connected with unloading board (47), install under unloading board (47) and is connected with unloading (4701).

2. A device for stripping corn in the production of livestock feed as in claim 1, characterized in that the first half-gear groove (2303) and the second half-gear groove (2305) are provided with a quarter of the gear grooves on the outer circumference.

3. The corn peeling device for livestock feed production as claimed in claim 1, wherein a cavity (4501) and a clamping ring (4502) are arranged in the connecting rod (45), the cross section of the cavity (4501) is larger than that of a clamping head (4601) of the turning plate (46), the clamping head (4601) of the turning plate (46) is embedded in the cavity (4501) of the connecting rod (45), and the clamping head (4601) is matched with the cavity through the clamping ring (4502).

4. The device for producing corn according to claim 1, wherein the bottom of the sieving outer cylinder (41) is connected with a crushing cylinder (51), a rotating block (53) is connected under the sieving shaft (44), both ends of the top of the rotating block (53) are provided with a nested rod (5302), the sieving shaft (44) is connected with the nested rod (5302) of the rotating block (53), a second nested rod (5301) is connected outside the circumference of the rotating block (53), the second nested rod (5301) is far away from the other end of the rotating block (53), a second sliding groove (5201) is arranged inside the second sliding ring (52), the second nested rod (5301) of the rotating block (53) is matched with the second sliding groove (5201) of the second sliding ring (52), the bottom of the rotating block (53) is connected with a crushing shaft (5303), the upper part of the crushing shaft (5303) is connected with a cutting blade (5304), the upper part of the crushing shaft (5303) is connected with a pressing plate (5303), the lower part of the crushing shaft (5303) is connected with a pressing plate (5303), the pressing plate (5303) is connected with the lower part of the crushing plate (5303), the pressing plate (5303) is connected with the pressing plate (5303), the pressing plate (5306) is connected with the lower part of the crushing plate (5306), the inner side of the outer ring filter screen (5307) is connected with a cutting cylinder (54), a cutting groove (5401) is formed in the top of the cutting cylinder (54), a plurality of corn outlets (5404) are formed in the lower portion of the cutting groove (5401) of the cutting cylinder (54), a breaking groove (5403) is formed in the inner side of the cutting cylinder (54), and a feeding groove (5402) is formed between the cutting groove (5401) on the cutting cylinder (54) and the corn outlets (5404).

5. The corn peeling device for livestock feed production as recited in claim 4, wherein fixed rods are arranged on the outer side of the circumference of the lower portion of the sieving shaft (44), two nested rods (5302) are arranged on the top of the rotating block (53), the middle part of each nested rod (5302) is provided with an O-shaped cavity, the fixed rods are embedded in the O-shaped cavities in the nested rods (5302), and meanwhile the cross-sectional size of the O-shaped cavities is larger than that of the fixed rods.