CN111590650A - Corn cutting equipment for feed production - Google Patents

Abstract

The invention relates to a cutting device, in particular to a corn cutting device for feed production. The technical problem is how to design a corn cutting device for feed production, which can replace manual work to cut corn, has high working efficiency and avoids hand from being cut. A maize dissection equipment for feed production includes: the air cylinder is fixedly connected between the two inner sides of the frame close to the bottom plate; and the L-shaped plates are symmetrically and fixedly connected to one side of the bottom plate far away from the rack. According to the corn cutting machine, a proper amount of corns are placed in the placing cylinder, the telescopic rod of the starting cylinder extends, the placing cylinder can be reversely rotated to be in a vertical state, the cutter moves rightwards and penetrates through the groove in the left part of the placing cylinder to cut the corns, manual corn cutting is not needed, the situation that the hands are injured is avoided, meanwhile, a plurality of corns can be cut, and the working efficiency is high.

Description

Corn cutting equipment for feed production

Technical Field

The invention relates to a cutting device, in particular to a corn cutting device for feed production.

Background

The term "feed" is a general term for food of all human-raised animals, and in a narrow sense, a general feed mainly refers to food of agricultural or animal-raised animals. The feed comprises more than ten kinds of feed raw materials such as soybean, soybean meal, corn, fish meal, amino acid, miscellaneous meal, whey powder, grease, meat and bone meal, grains, feed additives and the like, in the production of the feed, part of the feed needs to be used for the corn, but the corn is cut into sections because the corn is too long and is inconvenient to use, and the use is convenient.

At present, the most all is to carry out the dissection through the manual maize of going on, at first needs the people to put the maize in good, and handheld cutter cuts into the section with the maize again, because the people can only carry out the dissection to a maize once, leads to follow-up work efficiency low, and the dissection in-process, people's hand need press the maize and compress tightly it, carries out the dissection again, and the hand is cut wounded by the cutter easily and influences follow-up work.

Therefore, a corn cutting device for feed production, which can replace manual work to cut corn, has high working efficiency and avoids hand from being cut, is particularly needed to solve the problems in the prior art.

Disclosure of Invention

In order to overcome the defect that the human can only cut one corn once, the follow-up working efficiency is low, the human hand needs to press the corn to compress the corn, then the corn is cut, and the hand is easily cut by a cutter, the technical problem to be solved is that: the utility model provides a can replace the manual work to maize dissection, work efficiency is high, and avoids the hand to be cut by maize dissection equipment for feed production.

The technical scheme of the invention is as follows: a maize dissection equipment for feed production includes: the air cylinder is fixedly connected between the two inner sides of the frame close to the bottom plate; the L-shaped plates are symmetrically and fixedly connected to one side of the bottom plate far away from the rack, and the outer sides of the L-shaped plates are fixedly connected with the end part of the rack; the fixing rod is slidably connected to one part of the L-shaped plate far away from the bottom plate in a penetrating manner; the placing assembly is arranged between one part of the two L-shaped plates close to the bottom plate, is matched with the fixing rod and is used for placing corns; and the cutting assembly is arranged between the rack and the L-shaped plate, is fixedly connected with the end part of the telescopic rod of the cylinder and is used for cutting the corn into sections.

As a preferred technical scheme of the invention, the placing assembly comprises: the n-shaped rod is rotatably connected between one part of the two L-shaped plates close to the bottom plate and matched with the sectioning component; the placing cylinder is fixedly connected to the middle part of the n-shaped rod, and one side of the placing cylinder, facing the rack, is spaced by a groove; the fixing blocks are fixedly connected to two sides of the outer side of the placing cylinder far away from the n-shaped rod and matched with the L-shaped plate; the supporting plate is fixedly connected between one inner sides of the two L-shaped plates close to the n-shaped rod and is in contact fit with the placing cylinder; the arc-shaped rod is fixedly connected to one side, away from the fixed rod, of the outer side of the placing cylinder, and the tail end of the arc-shaped rod penetrates through the supporting plate to be in sliding fit with the supporting plate; the second spring is sleeved on the arc-shaped rod, one end of the second spring is fixedly connected with one part of the arc-shaped rod close to the bottom plate, and the other end of the second spring is fixedly connected with one side of the supporting plate far away from the placing cylinder; the guide block is fixedly connected to the end part of the placing cylinder facing the bottom plate; the baffle is placed between the two sides in the guide block in a sliding manner and is matched with the placing cylinder; the sliding rod is slidably connected to one part of the guide block close to the n-shaped rod in a penetrating manner, and the end part of the sliding rod, far away from the bottom plate, is fixedly connected with one side, facing the baffle plate, of the bottom plate; the first spring is sleeved on the sliding rod, one end of the first spring is fixedly connected with one part of the sliding rod close to the baffle, and the other end of the first spring is fixedly connected with one side in the guide block; the n-type contact block is fixedly connected to the end part, far away from the baffle, of the sliding rod.

As a preferred technical scheme of the invention, the cutting assembly comprises: the pushing frame is fixedly connected to the end part of the telescopic rod of the air cylinder, and two parts of the pushing frame, which are far away from the air cylinder, are sleeved with sliding sleeves in a sliding manner; the contact rod is fixedly connected to one side, facing the sliding sleeve, of the n-type contact block and is in contact fit with the n-type rod; the fourth spring is sleeved on the push rod, one end of the fourth spring is fixedly connected with one side of the sliding sleeve facing the air cylinder, and the other end of the fourth spring is fixedly connected with one side in the pushing frame; the second rack is fixedly connected to two ends of the pushing frame far away from the air cylinder; the second rotating shaft is rotatably connected between one part of the two L-shaped plates close to the supporting plate in a penetrating manner, one end of the second rotating shaft is fixedly connected with a one-way gear, the other end of the second rotating shaft is fixedly connected with a first chain wheel, and the one-way gear is matched with the second rack; the first rotating shaft is rotatably arranged between the two parts of the rack far away from the bottom plate; the second chain wheel is fixedly sleeved at one end of the first rotating shaft; a chain wound between the second sprocket and the first sprocket; the rotating gear is fixedly sleeved at the end part of the first rotating shaft far away from the second chain wheel; the sliding grooves are formed in two parts, far away from the bottom plate, of the rack and are close to the first rotating shaft; the mounting rack is slidably connected between the two sliding grooves in a penetrating manner; the cutters are fixedly connected to one side, facing the mounting rack of the placing barrel, of the placing barrel at intervals and correspond to the grooves of the placing barrel; the first rack is fixedly connected to the end part, far away from the second chain wheel, of the mounting rack and meshed with the rotating gear; and the third spring is connected between one side of the outer side of the rack close to the L-shaped plate and the end part of the first rack facing the L-shaped plate.

As a preferred embodiment of the present invention, the present invention further comprises: the contact frame is slidably connected between one part of the two L-shaped plates close to the rack in a penetrating manner, and the end part of the contact frame, far away from the bottom plate, is fixedly connected with one side in a fixing rod facing the L-shaped plates; the wedge-shaped rod is fixedly connected to one side, facing the bottom plate and close to the pushing frame of the cylinder, of the wedge-shaped rod and matched with the contact frame; and the fifth spring is sleeved at the two parts of the contact frame close to the fixed rod, one end of the fifth spring is fixedly connected with one side, facing towards the inside of the fixed rod, of the L-shaped plate, and the other end of the fifth spring is fixedly connected with one side, far away from the bottom plate, of the outside of the L-shaped plate.

As a preferred embodiment of the present invention, the present invention further comprises: the number of the push rods is at least two, the push rods are symmetrically and fixedly connected to one side, facing the n-shaped rod, in the wedge-shaped rod, and the push rods are matched with the n-shaped contact blocks.

Has the advantages that:

1. in placing a section of thick bamboo through putting into proper amount maize, the telescopic link extension of starting the cylinder can be so that place a section of thick bamboo reversal and be vertical state, and the cutter moves right and passes the groove of placing a section of thick bamboo left part and carry out the dissection to the maize, then need not the manual dissection of people to the maize, has avoided the hand to be hindered, and can carry out the dissection to many corns simultaneously, and work efficiency is high.

2. Through the effect of contact frame and wedge pole, can be vertical state placing a section of thick bamboo, and when the telescopic link of cylinder extended, can drive the dead lever downstream and carry on spacingly placing a section of thick bamboo, need not people pulling dead lever and remove, it is more convenient.

3. Through the effect of push rod, can drive n type contact block and move right and make the baffle not block the maize, the maize of cutting into the section then drops to the collection container in, need not people's pulling n type contact block and drives the baffle and not block the maize, labour saving and time saving.

Drawings

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

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

FIG. 3 is a schematic diagram of a first partial structure according to the present invention.

FIG. 4 is a second partial structure diagram of the present invention.

FIG. 5 is a third partial structural diagram of the present invention.

Wherein: 1 … bottom plate, 2 … frame, 201 … L-shaped plate, 3 … cylinder, 4 … fixed rod, 5 … placing component, 501 … n-shaped rod, 502 … placing cylinder, 503 … fixed block, 504 … guide block, 505 … baffle, 506 … sliding rod, 507 … first spring, 508 … n-shaped contact block, 509 … supporting plate, 510 … arc-shaped rod, 511 … second spring, 6 … cutting component, 601 … first rotating shaft, 602 … rotating gear, 603 … mounting rack, 604 … cutter, 605 … first rack, … third spring, 607 … sliding groove, 608 … second rotating shaft, 609 … one-way gear, 610 … first sprocket, 611 … second sprocket, 612 … chain, 613 … pushing rack, 614 … sliding sleeve, 615 … fourth spring, … contact rod, … second sprocket, … second rack 617, … contact rod, … push rod.

Detailed Description

The invention is described in further detail below with reference to the drawings and the detailed description, but the invention is not limited to the scope of protection and application.

Example 1

Referring to fig. 1-5, a maize dissection equipment for feed production, including bottom plate 1, a machine support 2, L template 201, cylinder 3, dead lever 4, place subassembly 5 and dissection subassembly 6, 1 top left side rigid coupling of bottom plate has frame 2, the symmetry rigid coupling has L template 201 around between 2 right sides of frame and 1 top right side of bottom plate, the slidingtype dead lever 4 that is equipped with in both sides L template 201 upper portion right side around, install cylinder 3 between the face lower part of both sides around in the frame 2, be equipped with between cylinder 3 and the both sides L template 201 lower part around and place subassembly 5, be equipped with dissection subassembly 6 between 2 upper portions of frame and the both sides L template 201 lower part around and, dissection subassembly 6 still with cylinder 3's telescopic link fixed connection.

The placing component 5 comprises an n-shaped rod 501, a placing cylinder 502, a fixed block 503, a guide block 504, a baffle 505, a sliding rod 506, a first spring 507, an n-shaped contact block 508, a supporting plate 509, an arc-shaped rod 510 and a second spring 511, the n-shaped rod 501 is rotatably connected between the left sides of the lower parts of the L-shaped plates 201 on the front side and the rear side, the n-shaped rod 501 is matched with the sectioning component 6, the placing cylinder 502 is fixedly connected with the middle part of the n-shaped rod 501, a plurality of grooves are uniformly formed in the left part of the placing cylinder 502 at intervals, the fixed block 503 matched with the L-shaped plate 201 is fixedly connected between the upper parts of the front side surface and the rear side surface outside the placing cylinder 502, the guide block 504 is fixedly connected on the right side of the bottom of the placing cylinder 502, the baffle 505 is slidably arranged between the front side surface and the rear side surface inside the guide block 504, the sliding rod 506 is slidably matched with the placing cylinder 502, a first spring 507 is wound between the left part of the sliding rod 506 and the middle part of the inner right side surface of the guide block 504, a supporting plate 509 is fixedly connected between the right sides of the inner bottoms of the L-shaped plates 201 on the front side and the rear side, the supporting plate 509 is in contact fit with the placing cylinder 502, an arc-shaped rod 510 is fixedly connected to the middle part of the outer right side surface of the placing cylinder 502, the tail end of the arc-shaped rod 510 penetrates through the supporting plate 509 to be in sliding fit with the supporting plate 509, and a second spring 511 is wound between the.

The cutting assembly 6 comprises a first rotating shaft 601, a rotating gear 602, a mounting frame 603, a cutter 604, a first rack 605, a third spring 606, a second rotating shaft 608, a one-way gear 609, a first chain wheel 610, a second chain wheel 611, a chain 612, a pushing frame 613, a sliding sleeve 614, a fourth spring 615, a contact rod 616 and a second chain wheel 617, wherein the first rotating shaft 601 is rotatably connected between the left sides of the upper part of the frame 2, the rotating gear 602 is fixedly connected at the front end of the first rotating shaft 601, the second chain wheel 611 is fixedly connected at the rear end of the first rotating shaft 601, the second rotating shaft 608 is rotatably connected between the right sides of the lower parts of the front and rear side L-shaped plates 201, the one-way gear 609 is fixedly connected at the front end of the second rotating shaft 608, the first chain wheel 610 is fixedly connected at the rear end of the second rotating shaft 608, the chain 612 is wound between the first chain wheel 610 and the second chain wheel 611, the front and rear parts of the middle part, cutters 604 are fixedly connected to the right side face of the mounting frame 603 at uniform intervals, the cutters 604 correspond to a groove in the left portion of the placing barrel 502, a first rack 605 is fixedly connected to the front end of the mounting frame 603, the first rack 605 is located below the rotating gear 602 and is meshed with the rotating gear, a third spring 606 is connected between the right end of the first rack 605 and the lower portion of the right portion of the front side face outside the frame 2, a pushing frame 613 is fixedly connected to the end portion of a telescopic rod of the air cylinder 3, a sliding sleeve 614 is slidably arranged on the right portion of the pushing frame 613, a contact rod 616 is fixedly connected to the middle portions of the inner side faces of the sliding sleeves 614 on the front and the rear sides, the contact rod 616 is in contact fit with the n-shaped rod 501, a fourth spring 615 is wound between the left side face of the sliding sleeve 614 and the left side face inside the pushing frame 613, a second.

Firstly, an operator puts a proper amount of corns into a placing component 5, pulls a fixed rod 4 to move upwards to a proper position, then places a collecting container below an L-shaped plate 201, starts a cylinder 3, a telescopic rod of the cylinder 3 extends to drive a cutting component 6 to operate, the cutting component 6 operates to drive the placing component 5 to rotate reversely, when the placing component 5 rotates reversely and contacts with the L-shaped plate 201, the placing component 5 stops rotating reversely to be in a vertical state, loosens the fixed rod 4, the fixed rod 4 moves downwards to limit the placing component 5, the telescopic rod of the cylinder 3 continues to extend, the telescopic rod of the cylinder 3 drives the cutting component 6 to continue to operate, the cutting component 6 continues to operate to cut the corns in the placing component 5, after the corns are all cut into sections, the telescopic rod of the cylinder 3 is started to shorten, the telescopic rod of the cylinder 3 shortens the telescopic rod to drive the cutting component 6 to operate and reset, the subassembly 5 is placed in the pulling again and is not blocked the maize, and the maize of cutting into segments then drops to the collection container in placing the subassembly 5, and after the maize is whole to fall, pulling dead lever 4 rebound with place subassembly 5 and break away from, place subassembly 5 corotation and reset, so, just also can be continuous cut the maize into segments, make things convenient for the preparation of fodder.

Firstly, an operator puts a proper amount of corns into a placing barrel 502, a baffle 505 blocks the corns, an expansion rod of a starting cylinder 3 extends to drive a cutting assembly 6 to operate, the cutting assembly 6 operates to drive an n-type rod 501 to rotate reversely, the n-type rod 501 rotates reversely to drive the placing barrel 502 to rotate reversely, the placing barrel 502 rotates reversely to drive an arc-shaped rod 510 to rotate reversely, a second spring 511 compresses, the placing barrel 502 rotates reversely to drive the corns to rotate reversely, meanwhile, the placing barrel 502 also drives a fixing block 503 to rotate reversely, when the fixing block 503 rotates reversely to contact with an L-shaped plate 201, the L-shaped plate 201 blocks the fixing block 503, the placing barrel 502 stops rotating reversely, the cutting assembly 6 continues to operate, and then the corns are cut into sections through a groove in the left. After the corns are cut into sections, the telescopic rod of the starting cylinder 3 is shortened to drive the section cutting assembly 6 to reset, then the n-type contact block 508 is pulled to move rightwards, the n-type contact block 508 moves rightwards to drive the slide rod 506 to move rightwards, the first spring 507 is compressed, the slide rod 506 moves rightwards to drive the baffle 505 to move rightwards, the baffle 505 moves rightwards to be separated from the corns, the corns cut into sections in the placing barrel 502 fall downwards into the collecting container, after the corns fall off completely, the n-type contact block 508 is loosened, the slide rod 506 moves leftwards to drive the baffle 505 to move leftwards to reset due to the action of the first spring 507, then the fixed rod 4 is pulled upwards to move to be separated from the fixed block 503, due to the action of the second spring 511, the arc-shaped rod 510 drives the placing barrel.

When a proper amount of corns are placed in the placing cylinder 502, the telescopic rod of the cylinder 3 is started to extend, the telescopic rod of the cylinder 3 extends to drive the pushing frame 613 to move rightwards, the pushing frame 613 also drives the second rack 617 to move rightwards, meanwhile, the pushing frame 613 also drives the sliding sleeve 614 to move rightwards, the sliding sleeve 614 moves rightwards to drive the contact rod 616 to move rightwards, the contact rod 616 moves rightwards to drive the n-shaped rod 501 to rotate reversely, the placing cylinder 502 is rotated reversely to be vertical and limited, the n-shaped rod 501 stops rotating reversely to block the sliding sleeve 614, the pushing frame 613 continues moving rightwards to compress the fourth spring 615, the second rack 617 continues moving rightwards to be meshed with the one-way gear 609, the second rack 617 drives the one-way gear 609 to rotate reversely, the one-way gear 609 rotates reversely to drive the second rotating shaft 608 to rotate reversely, the second rotating shaft 608 rotates reversely to drive the first chain wheel, the second chain wheel 611 rotates reversely to drive the first rotating shaft 601 to rotate reversely, the first rotating shaft 601 rotates reversely to drive the rotating gear 602 to rotate reversely, the rotating gear 602 rotates reversely to drive the first rack 605 to move rightwards, the third spring 606 compresses, the first rack 605 moves rightwards to drive the mounting rack 603 to move rightwards, the mounting rack 603 moves rightwards to drive the cutter 604 to move rightwards, the cutter 604 moves rightwards to penetrate through a groove at the left part of the placing barrel 502 to cut corn sections, when the second rack 617 continues to move rightwards to be separated from the one-way gear 609, the first rack 605 moves leftwards under the action of the third spring 606 to drive the cutter 604 to move leftwards to reset, so that the baffle 505 can not block the corn sections, the cut corn falls into the collecting container, the telescopic rod of the air cylinder 3 can be started to shorten, the telescopic rod of the air cylinder 3 drives the pushing frame 613 to move leftwards to reset, the fourth spring 615 is reset, the pushing frame 613 also drives the second rack 617 to move leftwards for resetting, the second rack 617 resets to drive the one-way gear 609 to rotate forwards, the one-way gear 609 does not drive the second rotating shaft 608 to rotate forwards, and the air cylinder 3 is closed after the pushing frame 613 resets.

Example 2

Referring to fig. 4 and 5, in this embodiment, compared with embodiment 1, the main difference lies in this embodiment, the contact frame 7, the fifth spring 8 and the wedge rod 9 are further included, the contact frame 7 is vertically slidably disposed between the left portions of the front and rear side L-shaped plates 201, the top ends of the front and rear sides of the contact frame 7 are fixedly connected with the left side of the inner top of the fixing rod 4, the wedge rod 9 is fixedly connected to the left side of the bottom of the pushing frame 613, the wedge rod 9 is matched with the contact frame 7, the fifth spring 8 is connected between the left side of the inner top of the fixing rod 4 and the top of the L-shaped plate 201, and the fifth.

When the placing barrel 502 is in a vertical state, the pushing frame 613 moves rightwards and also drives the wedge rod 9 to move rightwards, when the wedge rod 9 moves rightwards and contacts with the contact frame 7, the wedge rod 9 drives the contact frame 7 to move downwards, the contact frame 7 moves downwards and drives the fixing rod 4 to move downwards, the fifth spring 8 is compressed, and the fixing rod 4 moves downwards to limit the placing barrel 502. After the maize all is cut into the section, push frame 613 drives wedge pole 9 and moves left and resets, and wedge pole 9 breaks away from with contact frame 7, and because of the effect of fifth spring 8, it is spacing not to place a section of thick bamboo 502 that dead lever 4 upwards moves, and simultaneously, dead lever 4 still drives contact frame 7 rebound and resets. Therefore, the fixing rod 4 does not need to be pulled by the hand of an operator to move, and the operation is convenient.

Referring to fig. 5, the wedge-shaped rod 9 further comprises a push rod 10, the push rod 10 is fixedly connected to the front portion and the rear portion of the left side face in the wedge-shaped rod 9, and the push rod 10 is matched with the n-type contact block 508.

When the wedge rod 9 moves rightwards, the wedge rod 9 also drives the push rod 10 to move rightwards, and when the push rod 10 moves rightwards to contact the n-shaped contact block 508, which means that the corn is cut into sections by the cutting knife 604, the push rod 10 also pushes the n-shaped contact block 508 to move rightwards, so that the baffle 505 moves rightwards to not block the corn in the placing barrel 502, and the corn falls into the collecting container. When the wedge rod 9 moves leftwards for resetting, the wedge rod 9 drives the push rod 10 to move leftwards for resetting, the push rod 10 is separated from the n-type contact block 508, and the baffle 505 moves leftwards for resetting. Therefore, the operator does not need to pull the n-type contact block 508 by hands to prevent the baffle 505 from blocking the corns, and time and labor are saved.

While the disclosure has been described with respect to a limited number of embodiments, those skilled in the art, having benefit of this disclosure, will appreciate that various other embodiments can be devised which do not depart from the scope of the invention as disclosed herein. Accordingly, the scope of the invention should be limited only by the attached claims.

Claims (5)

1. The utility model provides a maize dissection equipment for feed production which characterized in that, including:

the device comprises a bottom plate (1), wherein a rack (2) is fixedly connected to one side of the bottom plate (1), and a cylinder (3) is fixedly connected between the rack (2) and the two inner sides of the bottom plate (1);

the L-shaped plates (201), the L-shaped plates (201) are symmetrically and fixedly connected to one side of the bottom plate (1) far away from the rack (2), and the outer sides of the L-shaped plates are fixedly connected with the end part of the rack (2);

the fixing rod (4) is slidably connected to one part of the L-shaped plate (201) far away from the bottom plate (1) in a penetrating manner;

the placing assembly (5) is arranged between one part of the two L-shaped plates (201) close to the bottom plate (1), is matched with the fixing rod (4) and is used for placing corns;

and the cutting assembly (6) is arranged between the rack (2) and the L-shaped plate (201), and is also fixedly connected with the end part of the telescopic rod of the cylinder (3) and used for cutting the corn into sections.

2. The corn chopping device for feed production according to claim 1, characterized in that the placement module (5) comprises:

the n-shaped rod (501), the n-shaped rod (501) is rotatably connected between one part of the two L-shaped plates (201) close to the bottom plate (1), and is matched with the sectioning component (6);

the placing barrel (502) is fixedly connected to the middle part of the n-shaped rod (501), and one side of the placing barrel (502) facing the rack (2) is spaced by a groove;

the fixing blocks (503) are fixedly connected to the two sides of the outer side of the placing cylinder (502) far away from the n-shaped rod (501) and matched with the L-shaped plate (201);

the supporting plate (509) is fixedly connected between the inner sides of the two L-shaped plates (201) close to the n-shaped rod (501), and is in contact fit with the placing cylinder (502);

the arc-shaped rod (510), the arc-shaped rod (510) is fixedly connected to one side of the outside of the placing cylinder (502) far away from the fixing rod (4), and the tail end of the arc-shaped rod penetrates through the supporting plate (509) to be in sliding fit with the supporting plate;

the second spring (511) is sleeved on the arc-shaped rod (510), one end of the second spring (511) is fixedly connected with one part of the arc-shaped rod (510) close to the bottom plate (1), and the other end of the second spring is fixedly connected with one side of the supporting plate (509) far away from the placing cylinder (502);

a guide block (504), wherein the guide block (504) is fixedly connected to the end of the placing cylinder (502) facing the bottom plate (1);

a baffle plate (505), wherein the baffle plate (505) is slidably placed between two sides in the guide block (504) and is matched with the placing cylinder (502);

the sliding rod (506) is slidably connected to one part of the guide block (504) close to the n-shaped rod (501) in a penetrating manner, and the end part of the sliding rod (506) far away from the bottom plate (1) is fixedly connected with one side of the baffle (505) facing the bottom plate (1);

the first spring (507) is sleeved on the sliding rod (506), one end of the first spring (507) is fixedly connected with one part of the sliding rod (506) close to the baffle (505), and the other end of the first spring (507) is fixedly connected with one inner side of the guide block (504);

an n-type contact block (508), the n-type contact block (508) being fixedly connected to the end of the sliding bar (506) away from the baffle (505).

3. The corn chopping device for feed production according to claim 2, characterized in that the chopping assembly (6) comprises:

the pushing frame (613), the said pushing frame (613) is fixedly connected to the telescopic link end of the said cylinder (3), its two parts far away from the said cylinder (3) are slipped and fitted with the sliding bush (614) slidably;

the contact rod (616), the contact rod (616) is fixedly connected to the side of the sliding sleeve (614) facing the n-type contact block (508), and the contact rod (616) is in contact fit with the n-type rod (501);

the fourth spring (615) is sleeved on the push rod (10), one end of the fourth spring (615) is fixedly connected with one side, facing the sliding sleeve (614) of the cylinder (3), of the sliding sleeve, and the other end of the fourth spring (615) is fixedly connected with one inner side of the pushing frame (613);

a second rack (617), wherein the second rack (617) is fixedly connected to two ends of the pushing frame (613) far away from the cylinder (3);

the second rotating shaft (608) is rotatably connected between one part of the two L-shaped plates (201) close to the supporting plate (509) in a penetrating manner, one end of the second rotating shaft (608) is fixedly connected with a one-way gear (609), the other end of the second rotating shaft is fixedly connected with a first chain wheel (610), and the one-way gear (609) is matched with the second rack (617);

the first rotating shaft (601), the first rotating shaft (601) is rotatably installed between two parts of the rack (2) far away from the bottom plate (1);

the second chain wheel (611), the second chain wheel (611) is fixedly sleeved at one end of the first rotating shaft (601);

a chain (612), the chain (612) being wound between the second sprocket (611) and the first sprocket (610);

the rotating gear (602), the rotating gear (602) is fixedly sleeved on the end part of the first rotating shaft (601) far away from the second chain wheel (611);

the sliding grooves (607) are arranged at two parts of the machine frame (2) far away from the bottom plate (1) and close to the first rotating shaft (601);

the mounting rack (603), the mounting rack (603) is slidably penetrated between the two sliding chutes (607);

the cutting knife (604) is fixedly connected to one side of the mounting rack (603) facing the placing barrel (502) at intervals and corresponds to the groove of the placing barrel (502);

a first rack (605), said first rack (605) being affixed to the end of said mounting frame (603) remote from said second sprocket (611), which meshes with said rotary gear (602);

a third spring (606), wherein the third spring (606) is connected between one side of the outer side of the frame (2) close to the L-shaped plate (201) and the end part of the first rack (605) facing the L-shaped plate (201).

4. The corn-cutting apparatus for feed production as claimed in claim 3, further comprising:

the contact frame (7) is slidably connected between one part of the two L-shaped plates (201) close to the rack (2) in a penetrating manner, and the end part of the contact frame (7) far away from the bottom plate (1) is fixedly connected with one inner side of a fixing rod (4) facing the L-shaped plates (201);

a wedge-shaped rod (9), said wedge-shaped rod (9) being fixedly connected to the side of said pushing frame (613) facing said bottom plate (1) and close to said cylinder (3), and cooperating with said contact frame (7);

the contact frame (7) is close to the fixing rod (4), one end of the contact frame is fixedly connected with one side, facing the L-shaped plate (201), of the inner side of the fixing rod (4), and the other end of the contact frame is fixedly connected with one side, far away from the bottom plate (1), of the outer side of the L-shaped plate (201).

5. The corn-cutting apparatus for feed production as claimed in claim 4, further comprising:

the number of the push rods (10) is at least two, the push rods (10) are symmetrically and fixedly connected to one side, facing the inside of the wedge-shaped rod (9) of the n-type rod (501), of the n-type rod, and the push rods (10) are matched with the n-type contact block (508).

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