CN113171726B

CN113171726B - Environment-friendly feed preparation facilities

Info

Publication number: CN113171726B
Application number: CN202110410900.3A
Authority: CN
Inventors: 梁厚洪
Original assignee: Linyi Guanghui Biotechnology Co ltd
Current assignee: Linyi Guanghui Biotechnology Co ltd
Priority date: 2021-04-16
Filing date: 2021-04-16
Publication date: 2023-10-03
Anticipated expiration: 2041-04-16
Also published as: CN113171726A

Abstract

The invention relates to a feed preparation device, in particular to an environment-friendly feed preparation device. The invention provides an environment-friendly feed preparation device capable of stirring during preparation of environment-friendly feed and automatically discharging. The invention provides an environment-friendly feed preparation device, which comprises: the bottom plate is provided with a bracket; the stirring mechanism is arranged on the bracket; and the bottom of the stirring mechanism is provided with a blanking mechanism. Firstly, raw materials for manufacturing the environment-friendly feed are added into a stirring mechanism, then the raw materials are stirred through rotation of the stirring mechanism, and after the environment-friendly feed is manufactured, the manufactured environment-friendly feed is collected through leftward movement of a blanking mechanism.

Description

Environment-friendly feed preparation facilities

Technical Field

The invention relates to a feed preparation device, in particular to an environment-friendly feed preparation device.

Background

At present, the pig industry develops rapidly and becomes an important component of the livestock industry in China. The problem of environmental pollution caused by pig industry is increasing. In the breeding process, a certain medicine is usually added into the feed to promote digestion and absorption of pigs or improve immunity of the pigs, and most of the additives are medicines or nutrient components with higher nutrient substances, such as antibiotics, additives and the like, and trace elements such as high copper, iron, zinc and the like, antibiotics, additives and the like in the feed are not easy to digest.

General environmental protection fodder preparation equipment can not stir when the preparation, when the pig eat the fodder of stirring not even for pig's excrement has some harmful gas, influences air quality, causes the destruction to soil structure.

Therefore, there is a need to design an environment-friendly feed preparation device capable of stirring and automatically discharging in manufacturing environment-friendly feeds, so as to solve the above problems.

Disclosure of Invention

In order to overcome the defect that common environment-friendly feed preparation equipment can not stir when the preparation, when the pig eat the feed which is not stirred uniformly, the harmful gas is discharged by the pig, the air quality is influenced, and the damage to the soil structure is caused, the technical problem to be solved is that: provided is an environment-friendly feed production device which can stir during production of environment-friendly feeds and can automatically discharge the feeds.

The technical proposal is as follows: an environmental protection feed preparation device, comprising: the bottom plate is provided with a bracket; the stirring mechanism is arranged on the bracket; and the bottom of the stirring mechanism is provided with a blanking mechanism.

Further, the stirring mechanism includes: the two sides of the bracket are provided with first bearing seats; the first fixing blocks are arranged on opposite sides of the two first bearing seats; a stirring barrel is arranged between the two first fixed blocks; the first rotating shafts are rotatably arranged between the two first bearing seats and penetrate through the stirring barrel; stirring blades are arranged on the first rotating shaft; the swinging blocks are arranged at two ends of the first rotating shaft; the bottoms of the two swinging blocks are provided with first fixing rods; the arc-shaped chute plates are arranged on the side walls of the brackets on the side edges of the two first bearing seats, and one ends of the two first fixing rods are in sliding fit with the two arc-shaped chute plates; and the first elastic pieces are arranged between one side of the two arc-shaped chute plates and one side of the two first fixing rods.

Further, the unloading mechanism includes: the bottom of the stirring barrel is provided with a first straight chute plate; the first straight chute plate is provided with a baffle plate in a sliding manner; the second straight sliding groove plates are arranged on two sides of the bottom of the first straight sliding groove plate; the first guide rod is arranged between the two sides of the two second straight chute plates; the first sliding blocks are arranged on the two first guide rods in a sliding mode, and opposite ends of the two first sliding blocks are connected with the bottom of the striker plate; and second elastic pieces are arranged between one sides of the two first sliding blocks and one sides of the two second straight sliding groove plates.

Further, the method further comprises the following steps: the sliding rods are arranged on the brackets close to the side edges of the two first bearing seats in a sliding manner; the third elastic piece is arranged between one side of the two sliding rods and the side wall of the bracket; the second fixing block is arranged between the bottom ends of the two sliding rods; the bottoms of the two first bearing seats are provided with straight sliding grooves, and the two straight sliding grooves are internally provided with the second sliding blocks in a sliding manner; the first jacking blocks are arranged on one sides of the two second sliding blocks, and the two first jacking blocks are matched with the other ends of the two first fixing rods; and a connecting rod is rotatably arranged between the top ends of the two sliding rods and the other sides of the two second sliding blocks.

Further, the method further comprises the following steps: the brackets close to the bottoms of the two first bearing seats are provided with third fixing blocks; the second guide rod is arranged between the two ends of the two third fixed blocks; the second guide rods are respectively provided with a second sliding block, and a supporting rod is arranged between two opposite sides of the second sliding blocks; the second fixing rods are arranged on one side, opposite to the back, of the two third sliding blocks; and the two second jacking blocks are matched with the two first sliding blocks.

Further, the method further comprises the following steps: the second bearing is arranged on the two side walls of the bracket close to the side edge of the second fixed block; the second rotating shafts are rotatably arranged between the middle parts of the two second shafts; the end parts of the two second bearings are respectively provided with a third rotating shaft in a rotating way; the middle part of the second rotating shaft is provided with a ratchet-type gear-lack; the bottom of the second fixed block is provided with a first ratchet bar which is meshed with the ratchet-type gear lack; the ratchet gears are arranged at the opposite ends of the two third rotating shafts; the first belt conveying device is arranged between one opposite ends of the two third rotating shafts and two sides of the second rotating shaft; the bottoms of the two third sliding blocks are respectively provided with a fourth fixed block; the second ratchet bars are arranged on the two fourth fixing blocks, and the two second ratchet bars are meshed with the two ratchet gears.

Further, the method further comprises the following steps: the bottom of the bracket at the top of the second rotating shaft is provided with a fifth fixed block; the rotating motors are arranged on the two fifth fixed blocks; and a second belt conveying device is arranged between the output shaft of the rotating motor and the second rotating shaft.

Further, the rotating motor is a servo motor.

The invention has the beneficial effects that: 1. firstly, raw materials for manufacturing the environment-friendly feed are added into a stirring mechanism, then the raw materials are stirred through rotation of the stirring mechanism, and after the environment-friendly feed is manufactured, the manufactured environment-friendly feed is collected through leftward movement of a blanking mechanism.

2. The stirring blade rotates to stir the raw materials.

3. The striker plate slides to the left and opens the agitator bottom, more conveniently collects the environmental protection fodder that the preparation was accomplished.

4. The rotary motor rotates positively and reversely, and the third sliding block and the sliding rod are not required to be pushed by a worker to carry out discharging and stirring.

Drawings

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

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

Fig. 3 is a schematic perspective view of a blanking mechanism of the present invention.

Fig. 4 is a schematic perspective view of a first part of the present invention.

Fig. 5 is a schematic perspective view of a second part of the present invention.

Fig. 6 is a schematic perspective view of a third portion of the present invention.

Fig. 7 is a schematic perspective view of a fourth part of the present invention.

Reference numerals: 1. the device comprises a bottom plate, a 2 support, a 3 stirring mechanism, a 31 first bearing seat, a 32 first fixed block, a 33 stirring barrel, a 34 first rotating shaft, a 35 stirring blade, a 36 swinging block, a 37 first fixed rod, a 38 arc-shaped chute plate, a 39 first elastic piece, a 4 blanking mechanism, a 41 first straight chute plate, a 42 baffle plate, a 43 second straight chute plate, a 44 first guide rod, a 45 first slide block, a 46 second elastic piece, a 5 slide rod, a 6 third elastic piece, a 7 second fixed block, a 8 second slide block, a 9 first top block, a 10 connecting rod, a 11 third fixed block, a 12 second guide rod, a 13 third slide block, a 14 second fixed rod, a 15 second top block, a 16 second bearing seat, a 17 second rotating shaft, a 18 third rotating shaft, a 19 ratchet bar, a 20 first ratchet bar, a 21 ratchet gear, a 22 first belt conveyor, a 23 fourth fixed block, a 24 second ratchet bar, a 25 fifth fixed block, a 26 rotating motor, and a 27 second belt conveyor.

Detailed Description

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

Example 1

As shown in fig. 1, an environment-friendly feed preparation device comprises a bottom plate 1, a support 2, a stirring mechanism 3 and a discharging mechanism 4, wherein the support 2 is arranged on the bottom plate 1, the stirring mechanism 3 is arranged on the support 2, and the discharging mechanism 4 is arranged at the bottom of the stirring mechanism 3.

When the environment-friendly feed needs to be manufactured, a worker adds the raw materials for manufacturing the environment-friendly feed into the stirring mechanism 3, then the raw materials are stirred through the worker rotating the stirring mechanism 3, after the environment-friendly feed is manufactured, the worker stops rotating the stirring mechanism 3, the stirring mechanism 3 stops rotating and does not stir the raw materials, the worker pushes the blanking mechanism 4 leftwards, the blanking mechanism 4 opens the bottom of the stirring mechanism 3, the environment-friendly feed falls off the worker to collect the environment-friendly feed, after the collection is completed, the worker loosens the blanking mechanism 4, and the blanking mechanism 4 moves rightwards to reset to close the bottom of the stirring mechanism 3. The device has simple structure and is convenient to operate.

Example 2

As shown in fig. 2 and 3, based on embodiment 1, the stirring mechanism 3 includes a first bearing seat 31, a first fixing block 32, a stirring barrel 33, a first rotating shaft 34, stirring blades 35, swinging blocks 36, first fixing rods 37, arc-shaped chute plates 38 and first elastic members 39, the front and rear sides of the support 2 are respectively provided with the first bearing seat 31, opposite sides of the two first bearing seats 31 are respectively provided with the first fixing block 32, the stirring barrel 33 is arranged between the two first fixing blocks 32, a first rotating shaft 34 is rotatably arranged between the two first bearing seats 31, the first rotating shaft 34 penetrates through the stirring barrel 33, the stirring blades 35 are arranged on the first rotating shaft 34, swinging blocks 36 are respectively arranged at two ends of the first rotating shaft 34, first fixing rods 37 are respectively arranged at the bottoms of the two swinging blocks 36, arc-shaped chute plates 38 are respectively arranged on side walls of the support 2 at the sides of the two first bearing seats 31, one ends of the two first fixing rods 37 are in sliding fit with the two arc-shaped chute plates 38, and the first elastic members 39 are respectively arranged between one side of the two arc-shaped chute plates 38 and one side of the two first fixing rods 37.

When the environment-friendly feed needs to be manufactured, a worker adds the raw materials for manufacturing the environment-friendly feed into the stirring barrel 33, then the worker pushes the first fixing rod 37 leftwards, the first fixing rod 37 slides leftwards in the arc-shaped chute plate 38, the first elastic piece 39 is compressed, the first fixing rod 37 slides leftwards to drive the swinging block 36 to rotate leftwards, the swinging block 36 rotates leftwards to drive the first rotating shaft 34 to rotate, the first rotating shaft 34 rotates to drive the stirring blade 35 to rotate, the worker pushes the first fixing rod 37 rightwards, the first fixing rod 37 slides rightwards in the arc-shaped chute plate 38, the first elastic piece 39 is reset, the first fixing rod 37 slides rightwards to drive the swinging block 36 to rotate rightwards, the swinging block 36 rotates rightwards to drive the first rotating shaft 34 to reversely rotate, the first rotating shaft 34 reversely rotates to drive the stirring blade 35 to reversely rotate, and the above actions are repeated, so that the raw materials can be stirred.

The blanking mechanism 4 comprises a first straight chute plate 41, a baffle plate 42, a second straight chute plate 43, a first guide rod 44, a first sliding block 45 and a second elastic piece 46, wherein the first straight chute plate 41 is arranged at the bottom of the stirring barrel 33, the baffle plate 42 is arranged on the first straight chute plate 41 in a sliding mode, the second straight chute plates 43 are arranged on the front side and the rear side of the bottom of the first straight chute plate 41, the first guide rods 44 are arranged between the left side and the right side of the two second straight chute plates 43, the first sliding blocks 45 are arranged on the two first guide rods 44 in a sliding mode, one ends, opposite to each other, of the two first sliding blocks 45 are connected with the bottom of the baffle plate 42, and the second elastic piece 46 is arranged between one side of the two first sliding blocks 45 and one side of the two second straight chute plates 43.

After the environment-friendly feed is manufactured, a worker moves the first sliding block 45 leftwards, the first sliding block 45 slides leftwards on the first guide rod 44, the second elastic piece 46 is compressed, the first sliding block 45 slides leftwards to drive the baffle plate 42 to slide leftwards on the first straight chute plate 41 to open the bottom of the stirring barrel 33, the environment-friendly feed falls off along with the environment-friendly feed and is collected by the worker, the worker releases the first sliding block 45 after the collection is completed, the second elastic piece 46 resets to drive the first sliding block 45 to slide rightwards on the first guide rod 44, the first sliding block 45 slides rightwards to drive the baffle plate 42 to slide rightwards on the first straight chute plate 41 to reset to close the bottom of the stirring barrel 33. The device has simple structure, and is more convenient for collecting the environment-friendly feed after the manufacture.

Example 3

As shown in fig. 4, fig. 5, fig. 6 and fig. 7, the sliding type lifting device further comprises a sliding rod 5, a third elastic piece 6, a second fixing block 7, a second sliding block 8, a first jacking block 9 and a connecting rod 10, wherein the sliding rod 5 is arranged on the support 2 close to the right side of the two first bearing seats 31 in a sliding manner, the third elastic piece 6 is arranged between one side of the two sliding rods 5 and the side wall of the support 2, the second fixing block 7 is arranged between the bottom ends of the two sliding rods 5, the bottom parts of the two first bearing seats 31 are provided with straight sliding grooves, the second sliding blocks 8 are arranged in the two straight sliding grooves in a sliding manner, the first jacking blocks 9 are matched with the other ends of the two first fixing rods 37, and the connecting rod 10 is arranged between the top ends of the two sliding rods 5 and the other sides of the two second sliding blocks 8 in a rotating manner.

After the raw materials of preparation environmental protection fodder adds agitator 33, the staff pushes down slide bar 5 downwardly and slides, third elastic component 6 is compressed, slide bar 5 downwardly and slide and drive second fixed block 7 downwardly and move, slide bar 5 downwardly and slide and drive connecting rod 10 and rotate upwards, and promote second slider 8 to the left, second slider 8 slides to the left in the straight spout, second slider 8 slides to drive first kicking block 9 and first dead lever 37 contact, and promote first dead lever 37 to the left, first dead lever 37 moves left and then realized that first pivot 34 rotates and drives stirring vane 35 to rotate and stir the raw materials, then the staff unclamps slide bar 5, third elastic component 6 resets and drives slide bar 5 upwardly and slide, slide bar 5 upwardly and drive second dead block 7 upwardly and move, slide bar 5 upwardly and drive connecting rod 10 downwardly and rotate, and pull second slider 8 to the right, second slider 8 slides to the right and resets in the straight spout, second slider 8 slides to drive first kicking block 9 and first dead lever 37 contact, first elastic component 39 resets and drives first dead lever 37 to the right to rotate and drive first fixed lever 37 to rotate to the right in the straight spout 37, and then, the stirring vane 35 rotates to rotate to the first pivot 35 and rotates to the stirring vane to the full, and can fully stir raw materials to the raw materials.

Still including third fixed block 11, second guide arm 12, third slider 13, second dead lever 14 and second kicking block 15, support 2 that is close to two first bearing frame 31 bottoms all is provided with third fixed block 11, all be provided with second guide arm 12 between the both ends about two third fixed blocks 11, all be provided with third slider 13 on two second guide arms 12 in a sliding manner, be provided with branch between two third slider 13 opposite sides, two third slider 13 all are provided with second dead lever 14 opposite sides, two second dead lever 14 opposite ends all are provided with second kicking block 15, two second kicking blocks 15 and two first slider 45 cooperation.

After the environment-friendly feed is manufactured, a worker pushes the third slider 13 to slide leftwards on the second guide, the third slider 13 slides leftwards to drive the second top block 15 to be in contact with the first slider 45 through the second fixing rod 14, the first slider 45 is pushed leftwards, the first slider 45 slides leftwards to further realize that the striker plate 42 slides leftwards on the first straight chute plate 41 to open the bottom of the stirring barrel 33, the environment-friendly feed falls off the worker to collect the same, after the collection is completed, the worker releases the third slider 13, the second elastic piece 46 resets to drive the first slider 45 to slide rightwards on the first guide rod 44, the first slider 45 slides rightwards to drive the striker plate 42 to slide rightwards on the first straight chute plate 41 to reset the bottom of the stirring barrel 33, the first slider 45 slides rightwards to drive the second top block 15 to move rightwards, and the second top block 15 moves rightwards to drive the third slider 13 to slide rightwards on the second guide rod 12 to reset. The device has simple structure, and the worker can drive the baffle plate 42 to move leftwards by pushing the third sliding block 13 so as not to block the stirring barrel 33.

The ratchet wheel and ratchet wheel combination mechanism comprises a bracket 2, a second bearing seat 16, a second rotating shaft 17, a third rotating shaft 18, ratchet wheel deficiency gears 19, a first ratchet bar 20, ratchet wheel gears 21, a first belt conveying device 22, a fourth fixing block 23 and a second ratchet bar 24, wherein the two side walls of the bracket 2, which are close to the right side of the second fixing block 7, are respectively provided with the second bearing seat 16, the middle parts of the two second bearing seats 16 are respectively provided with the second rotating shaft 17 in a rotating way, the end parts of the two second bearing seats 16 are respectively provided with the third rotating shaft 18 in a rotating way, the middle parts of the second rotating shafts 17 are respectively provided with the ratchet wheel deficiency gears 19, the bottoms of the second fixing blocks 7 are respectively provided with the first ratchet bar 20, the first ratchet bar 20 is mutually meshed with the ratchet wheel deficiency gears 19, the opposite ends of the two third rotating shafts 18 are respectively provided with the first belt conveying device 22, the bottoms of the two third sliding blocks 13 are respectively provided with the fourth fixing blocks 23, and the two fourth fixing blocks 23 are respectively provided with the second ratchet bars 24, and the two ratchet bars 21 are mutually meshed with the two ratchet wheel deficiency gears 21.

The sliding rod 5 slides downwards to drive the second fixed block 7 to move downwards, the second fixed block 7 moves downwards to drive the first ratchet 20 to move downwards to be meshed with the ratchet wheel 19, the ratchet wheel 19 rotates to drive the second rotating shaft 17 to rotate, the sliding rod 5 slides downwards to further realize that the first rotating shaft 34 rotates to drive the stirring blade 35 to rotate to stir raw materials, when the ratchet wheel 19 does not mesh with the first ratchet 20 any more, the third elastic piece 6 resets to drive the sliding rod 5 to slide upwards, the sliding rod 5 slides upwards to reset to drive the connecting rod 10 to rotate downwards to further realize that the first rotating shaft 34 rotates to drive the stirring blade 35 to rotate to stir raw materials for the second time, after the environment-friendly feed is manufactured, a worker pushes the third sliding block 13 to slide leftwards on the second guide rod 12, the third sliding block 13 slides leftwards to drive the second ratchet 24 to be meshed with the ratchet wheel 21 through the fourth fixed block 23, the third sliding block 13 slides leftwards to further realize that the baffle plate 42 slides leftwards on the first straight sliding groove plate 41 to open the bottom of the stirring barrel 33, the environment-friendly feed falls, the worker pushes the third sliding block 13 to slide rightwards after the environment-friendly feed is manufactured, and the third sliding block 13 slides rightwards to reset the third sliding block is driven to slide the third sliding bar 13 to be fixed to slide rightwards after the third sliding block 13 is slid to be reset to be driven by the third sliding bar 13. The device has simple structure and is more convenient for people to use.

The device further comprises a fifth fixed block 25, a rotating motor 26 and a second belt conveying device 27, wherein the fifth fixed block 25 is arranged at the bottom of the bracket 2 at the top of the second rotating shaft 17, the rotating motor 26 is arranged on the two fifth fixed blocks 25, and the second belt conveying device 27 is arranged between the output shaft of the rotating motor 26 and the second rotating shaft 17.

When the environment-friendly feed needs to be manufactured, a worker adds the raw materials for manufacturing the environment-friendly feed into the stirring barrel 33, then the worker controls the rotating motor 26, the rotating motor 26 reversely rotates to drive the second rotating shaft 17 to rotate through the second belt conveying device 27, the second rotating shaft 17 rotates to drive the ratchet wheel 19 to rotate to be meshed with the first ratchet bar 20, the first ratchet bar 20 moves downwards to drive the sliding rod 5 to slide downwards through the second fixing block 7, the third elastic piece 6 is compressed, the sliding rod 5 slides downwards to further realize that the first rotating shaft 34 rotates to drive the stirring blade 35 to rotate to stir the raw materials, when the ratchet wheel 19 is not meshed with the first ratchet bar 20 any more, the third elastic piece 6 resets to drive the sliding rod 5 to slide upwards to reset, the sliding rod 5 slides upwards to drive the connecting rod 10 to rotate downwards to realize that the first rotating shaft 34 rotates to drive the stirring blade 35 to stir the raw materials for the second time, after the environment-friendly feed is manufactured, a worker controls the rotating motor 26 to rotate positively, the rotating motor 26 drives the second rotating shaft 17 to rotate positively through the second belt conveying device 27, the second rotating shaft 17 rotates to drive the ratchet wheel 21 to rotate through the first belt conveying device 22 and is meshed with the second ratchet bar 24, the second ratchet bar 24 moves leftwards to drive the third sliding block 13 to slide leftwards through the fourth fixed block 23, the third sliding block 13 slides leftwards to further realize that the striker plate 42 slides leftwards on the first straight chute plate 41 to open the bottom of the stirring barrel 33, the environment-friendly feed falls down along with the striker plate to be collected by the worker, after the collection is completed, the worker turns off the rotating motor 26, the second elastic piece 46 resets to drive the first sliding block 45 to slide rightwards on the first guide rod 44, the first sliding block 45 slides rightwards to drive the material blocking plate 42 to slide rightwards on the first straight chute plate 41 to reset so as to close the bottom of the stirring barrel 33, the first sliding block 45 slides rightwards to drive the second top block 15 to move rightwards, and the second top block 15 moves rightwards to drive the third sliding block 13 to slide rightwards on the second guide rod 12 through the second fixing rod 14 to reset. The device has a simple structure, and the third sliding block 13 and the sliding rod 5 do not need to be pushed by a worker for discharging and stirring.

The foregoing examples have shown only the preferred embodiments of the invention, which are described in more detail and are not to be construed as limiting the scope of the invention. It should be noted that modifications, improvements and substitutions can be made by those skilled in the art without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims

1. An environment-friendly feed preparation device, characterized by comprising:

the base plate (1), the base plate (1) is provided with a bracket (2);

the stirring mechanism (3) is arranged on the bracket (2);

the bottom of the stirring mechanism (3) is provided with the blanking mechanism (4);

the stirring mechanism (3) comprises:

the two sides of the bracket (2) are provided with the first bearing seats (31);

the first fixing blocks (32) are arranged on opposite sides of the two first bearing seats (31);

a stirring barrel (33), wherein the stirring barrel (33) is arranged between the two first fixed blocks (32);

the first rotating shafts (34) are rotatably arranged between the two first bearing seats (31), and the first rotating shafts (34) penetrate through the stirring barrel (33);

a stirring blade (35), wherein the stirring blade (35) is arranged on the first rotating shaft (34);

the swinging blocks (36) are arranged at two ends of the first rotating shaft (34);

the bottoms of the two swinging blocks (36) are provided with first fixing rods (37);

the arc-shaped chute plates (38) are arranged on the side walls of the brackets (2) on the side edges of the two first bearing seats (31), and one ends of the two first fixing rods (37) are in sliding fit with the two arc-shaped chute plates (38);

a first elastic piece (39) is arranged between one side of the two arc-shaped chute plates (38) and one side of the two first fixing rods (37);

the unloading mechanism (4) comprises:

the first straight chute plate (41) is arranged at the bottom of the stirring barrel (33), and the first straight chute plate (41) is arranged at the bottom of the stirring barrel;

the material blocking plate (42) is arranged on the first straight chute plate (41) in a sliding manner;

the second straight chute plates (43) are arranged on two sides of the bottom of the first straight chute plate (41);

the first guide rod (44) is arranged between two sides of the two second straight chute plates (43);

the first sliding blocks (45) are arranged on the two first guide rods (44) in a sliding mode, and one ends of the two first sliding blocks (45) which are opposite to each other are connected with the bottom of the striker plate (42);

a second elastic piece (46), wherein the second elastic piece (46) is arranged between one side of the two first sliding blocks (45) and one side of the two second straight sliding groove plates (43);

the sliding rod (5) is arranged on the bracket (2) close to the side edges of the two first bearing seats (31) in a sliding manner;

a third elastic piece (6) is arranged between one side of the two sliding rods (5) and the side wall of the bracket (2);

a second fixed block (7) is arranged between the bottom ends of the two sliding rods (5);

the bottoms of the two first bearing seats (31) are provided with straight sliding grooves, and the two straight sliding grooves are internally provided with the second sliding blocks (8) in a sliding manner;

the first jacking blocks (9) are arranged on one sides of the two second sliding blocks (8), and the two first jacking blocks (9) are matched with the other ends of the two first fixing rods (37);

a connecting rod (10) is rotatably arranged between the top ends of the two sliding rods (5) and the other sides of the two second sliding blocks (8);

further comprises:

the third fixing blocks (11) are arranged on the brackets (2) close to the bottoms of the two first bearing seats (31);

the second guide rod (12) is arranged between the two ends of the two third fixed blocks (11);

the third sliding blocks (13) are arranged on the two second guide rods (12) in a sliding mode, and a supporting rod is arranged between one opposite sides of the two third sliding blocks (13);

the second fixing rods (14) are arranged on one back side of the two third sliding blocks (13);

the second jacking blocks (15) are arranged at opposite ends of the two second fixing rods (14), and the two second jacking blocks (15) are matched with the two first sliding blocks (45);

further comprises:

the second bearing (16) is arranged on the two side walls of the bracket (2) close to the side edge of the second fixed block (7);

a second rotating shaft (17) is rotatably arranged between the middle parts of the two second bearings (16);

the ends of the two second bearings (16) are respectively provided with a third rotating shaft (18) in a rotating way;

the middle part of the second rotating shaft (17) is provided with a ratchet-type gear-lack (19);

the bottom of the second fixed block (7) is provided with a first ratchet bar (20), and the first ratchet bar (20) is meshed with the ratchet-type gear-lack wheel (19);

the ratchet gears (21) are arranged at opposite ends of the two third rotating shafts (18);

the first belt conveying device (22) is arranged between one opposite end of the two third rotating shafts (18) and two sides of the second rotating shaft (17);

the bottoms of the two third sliding blocks (13) are respectively provided with a fourth fixed block (23);

the second ratchet bars (24) are arranged on the two fourth fixing blocks (23), the second ratchet bars (24), and the two second ratchet bars (24) are meshed with the two ratchet gears (21).

2. The environmental-friendly feed preparation device as claimed in claim 1, further comprising:

a fifth fixed block (25) is arranged at the bottom of the bracket (2) at the top of the second rotating shaft (17);

a rotating motor (26), wherein the rotating motor (26) is arranged on the two fifth fixed blocks (25);

and a second belt conveyor (27), wherein the second belt conveyor (27) is arranged between the output shaft of the rotating motor (26) and the second rotating shaft (17).

3. An environmental protection feed preparation device according to claim 2, characterized in that the rotating motor (26) is a servo motor.