CN112403380A - Livestock-raising is with fodder allotment processing system - Google Patents

Abstract

The invention discloses a feed blending treatment system for livestock breeding, which comprises a mixing bottom frame, wherein a buffer frame is fixedly inserted in the middle of the top end of the mixing bottom frame, a mixing assembly is arranged in the mixing bottom frame, two groups of symmetrically-distributed feed frames are fixedly arranged at the top end of the buffer frame, a feed control assembly is arranged between the two groups of feed control frames, and a first feed frame and a second feed frame are respectively and fixedly arranged at the top ends of the two groups of feed control frames; by arranging the mixing assembly and using the driving assembly in a matched manner, the mixing and stirring of different types of feeds in the mixing bottom frame can be effectively driven, and the mixing and stirring efficiency of different types of feeds is improved; through setting up drive assembly, can effectively provide stable drive power to accuse material subassembly and mixing assembly, realize mixing assembly and the linkage between the accuse material subassembly to entire system's transmission efficiency has been promoted.

Description

Livestock-raising is with fodder allotment processing system

Technical Field

The invention relates to the technical field of livestock breeding, in particular to a feed blending and processing system for livestock breeding.

Background

Animal husbandry is a production department for obtaining animal products such as meat, eggs, milk, wool, cashmere, leather, silk and medicinal materials by utilizing the physiological functions of animals such as livestock and poultry which are domesticated by human beings or wild animals such as deer, musk, fox, marten, otter and quail and converting pasture, feed and other plant energy into animal energy through artificial feeding and breeding, and the animal husbandry is popular, namely the animal can be fully utilized by the human beings to serve the human beings, so that the animal husbandry places need to be improved in order to improve the output value in the animal husbandry.

In the livestock breeding, different contents and different varieties of feeds are required to be proportioned for different breeding livestock for feeding, most of the traditional feed proportioning methods are that culturists estimate the required content of each feed according to own experiences to carry out manual proportioning and carry out mixing and stirring among different types of feeds, the proportioning method not only increases the labor intensity of the culturists and influences the efficiency of feed proportioning, but also can not realize quantitative output and proportioning among different types of feeds, can not meet the proportioning content for optimal livestock growth and is not beneficial to the overall development of livestock, therefore, a feed proportioning processing system for livestock breeding is provided for solving the problems.

Disclosure of Invention

The present invention aims to provide a system for blending and processing a feed for livestock breeding, so as to solve the problems in the background art.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a fodder allotment processing system for livestock-raising, includes and mixes the underframe, the fixed inserting in top middle part of mixing the underframe is equipped with the buffering frame, be equipped with the hybrid assembly in the mixing underframe, the top fixed mounting that buffers the frame has two groups of material frames that are the symmetric distribution, and is two sets of be equipped with accuse material subassembly between the accuse material frame, and is two sets of the top of accuse material frame fixed mounting has a feeding frame and No. two feeding frames respectively, the fixed drive assembly that is equipped with on the buffering frame, the bottom both sides of mixing the underframe are all fixed to be inserted and are equipped with the accuse material valve, the bottom fixed mounting who mixes the underframe has the support frame.

Preferably, the mixing assembly comprises a driving middle shaft, the bottom of the driving middle shaft is rotatably inserted in the middle of the lower surface of the inner wall of the mixing bottom frame through a bearing, and a spiral stirring blade is fixedly arranged on the outer side of the driving middle shaft.

Preferably, the material control assembly comprises two groups of middle pipes and driving columns, the middle pipes are respectively rotatably mounted in corresponding material control frames through bearings, material control plates distributed in an annular array are fixedly arranged on the outer sides of the two groups of middle pipes, driving rings matched with the driving columns are fixedly mounted on the inner walls of the opposite sides of the two groups of middle pipes, the driving columns are located between the two groups of driving rings, friction protrusions are fixedly mounted on the two sides of the driving columns, the size of each friction protrusion is the same as that of each driving ring, a connecting shaft is fixedly mounted on one side, away from the driving columns, of one group of friction protrusions, a telescopic shaft is fixedly mounted on one side, away from the driving columns, of the other group of friction protrusions, the connecting shaft movably penetrates through the corresponding driving rings and is rotatably sleeved with a connecting cylinder through bearings, and the telescopic shaft movably penetrates through the corresponding driving rings and is movably sleeved with, the telescopic shaft is close to the fixed spacing arch that is the symmetric distribution that is equipped with of one side outer wall of a telescopic cylinder, the spacing recess that uses with spacing protruding cooperation is seted up to the inner wall of a telescopic cylinder, and spacing protruding slip joint is in the spacing recess that corresponds.

Preferably, one side of the material control plate, which is far away from the middle pipe, is in contact with the inner wall of the material control frame, and the length dimension of the material control plate is the same as that of the material control frame.

Preferably, drive assembly includes driving motor, electric telescopic handle, driven small runner and driven gear wheel, driving motor and electric telescopic handle are fixed mounting respectively in the both sides of buffering frame, driving motor's output is fixed cover respectively and is equipped with drive pinion and drive large runner, driven gear wheel is located the top of drive pinion, and driven gear wheel and drive pinion mesh mutually, driven small runner is located the below of drive large runner, and the fixed cover in the outside of drive large runner and driven small runner is equipped with the drive wheel area, the actuating lever is installed perpendicularly in one side middle part of driven small runner, the actuating lever rotates the bottom of connecting at mixed underframe, one side fixed mounting that driven small runner was kept away from to the actuating lever has the drive bevel gear, the perpendicular meshing in drive bevel gear top is connected with driven bevel gear.

Preferably, one side of the connecting cylinder, which is far away from the connecting shaft, movably penetrates through one side of the material control frame and is fixedly connected with the output end of the electric telescopic rod.

Preferably, one side of the telescopic cylinder, which is far away from the telescopic shaft, movably penetrates through one side of the material control frame and is fixedly connected with the middle part of one side of the driven large gear.

Preferably, the bottom end of the driving middle shaft penetrates through the bottom end of the mixing bottom frame and is fixedly connected with the top end of the driven bevel gear.

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

1. according to the invention, the material control assembly is arranged and the driving assembly is used in a matched manner, so that quantitative output and blending of two groups of different feeds can be effectively carried out.

2. Through setting up mixing assembly and cooperation use drive assembly, can effectively drive the mixing stirring of the different types of fodder in the mixed underframe, promoted the efficiency that different types of fodder mixed stirring.

3. Through setting up drive assembly, can effectively provide stable drive power to accuse material subassembly and mixing assembly, realize mixing assembly and the linkage between the accuse material subassembly to entire system's transmission efficiency has been promoted.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the structural connection between the mixing base frame and the mixing assembly according to the present invention;

FIG. 3 is a schematic view of the structural connection of the material control assembly of the present invention;

FIG. 4 is an enlarged view taken at A of FIG. 3 in accordance with the present invention;

FIG. 5 is an enlarged view taken at B of FIG. 3 in accordance with the present invention;

FIG. 6 is an enlarged view taken at C of FIG. 3 in accordance with the present invention;

FIG. 7 is a schematic connection diagram of a part of the structure of the present invention.

In the figure: 1. a mixing bottom frame; 2. a buffer frame; 3. a material control frame; 4. a mixing assembly; 5. a material control component; 6. a drive assembly; 7. a material control valve; 8. a support frame; 9. a first feeding frame; 10. a feeding frame II; 41. a drive central shaft; 42. a helical mixing blade; 51. a middle tube; 52. a material control plate; 53. a drive ring; 54. a drive column; 541. a friction projection; 55. a connecting shaft; 551. a connecting cylinder; 56. a telescopic shaft; 561. a limiting bulge; 57. a telescopic cylinder; 571. a limiting groove; 61. a drive motor; 62. an electric telescopic rod; 63. a drive pinion; 631. a driven bull gear; 64. driving a large rotating wheel; 641. a driven small runner; 642. a drive pulley belt; 65. a drive rod; 66. the bevel gear is driven; 67. driven bevel gear.

Detailed Description

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

Referring to fig. 1-7, the present invention provides a technical solution: the utility model provides a fodder allotment processing system for livestock-raising, including mixing underframe 1, the fixed inserting of top middle part of mixing underframe 1 is equipped with buffering frame 2, be equipped with mixed subassembly 4 in the mixing underframe 1, the top fixed mounting of buffering frame 2 has two sets of accuse material frames 3 that are the symmetric distribution, be equipped with accuse material subassembly 5 between two sets of accuse material frames 3, the top of two sets of accuse material frames 3 is fixed mounting respectively No. one feeding frame 9 and No. two feeding frames 10, accessible a feeding frame 9 and No. two feeding frames 10 add the fodder of establishing the different grade type, the fixed drive assembly 6 that is equipped with on buffering frame 2, the bottom both sides of mixing underframe 1 are all fixed to be inserted and are equipped with accuse material valve 7, through the ejection of compact of the inside mixed fodder of use accuse material valve 7 control mixing underframe 1, the bottom fixed mounting of mixing underframe 1 has support frame 8, carry out the overhead support to whole device.

Mixing unit 4 includes drive axis 41, the bottom of drive axis 41 is passed through the bearing and is rotated the grafting at the inner wall lower surface middle part of mixing underframe 1, the fixed helical mixing blade 42 that is equipped with in drive axis 41's the outside, rotate through driving drive axis 41, thereby it rotates to drive helical mixing blade 42, the rotation through helical mixing blade 42 can effectively drive the mixed stirring of the different types of fodder in mixing underframe 1, the efficiency that the mixed stirring of different types of fodder has been promoted.

The material control assembly 5 comprises middle pipes 51 and driving columns 54, the middle pipes 51 are provided with two groups, the two groups of middle pipes 51 are respectively rotatably installed in the corresponding material control frames 3 through bearings, material control plates 52 distributed in an annular array are fixedly arranged on the outer sides of the two groups of middle pipes 51, one sides of the material control plates 52 far away from the middle pipes 51 are in contact with the inner walls of the material control frames 3, and the length dimensions of the material control plates 52 are the same as the length dimensions of the material control frames 3; a storage cavity is formed between two adjacent material control plates 52 and the inner wall of the material control frame 3, feed is stored quantitatively, the middle pipe 51 rotates in the corresponding material control frame 3 to drive the material control plates 52 to rotate, and the feed in the storage cavity is conveniently and quantitatively output; the inner walls of the opposite sides of the two groups of middle pipes 51 are fixedly provided with driving rings 53 matched with the driving columns 54, the driving columns 54 are positioned between the two groups of driving rings 53, the two sides of the driving columns 54 are fixedly provided with friction bulges 541, and the size of the friction bulges 541 is the same as that of the driving rings 53; when the driving column 54 moves back and forth horizontally and is in close contact with the corresponding driving ring 53, the friction protrusions 541 are driven to be clamped in the corresponding driving ring 53, large friction resistance is generated among the driving column 54, the friction protrusions 541 and the corresponding driving ring 53, the corresponding driving ring 53 and the middle tube 51 can be driven to rotate through the rotation of the driving column 54, when the driving column 54 is positioned between the two groups of driving rings 53, the driving column 54, the friction protrusions 541 and the driving rings 53 on the two sides are not in contact, at the moment, the driving column 54 cannot drive the middle tubes 51 on the two sides to rotate through the rotation of the driving column 54, one side of one group of friction protrusions 541, which is far away from the driving column 54, is fixedly provided with a connecting shaft 55, and one side of the other group of friction protrusions 541, which is far away from the driving column 54, is fixedly provided with an expansion shaft 56, the connecting shaft 55 movably penetrates, the driving connecting shaft 55 horizontally moves back and forth, and the rotation of the connecting shaft 55 is not influenced, the telescopic shaft 56 movably penetrates through the corresponding driving ring 53 and is movably sleeved with the telescopic cylinder 57, the outer wall of one side of the telescopic shaft 56, which is close to the telescopic cylinder 57, is fixedly provided with the limiting protrusions 561 which are symmetrically distributed, the inner wall of the telescopic cylinder 57 is provided with the limiting grooves 571 which are matched with the limiting protrusions 561 for use, the limiting protrusions 561 are slidably clamped in the corresponding limiting grooves 571, the angle limitation between the telescopic shaft 56 and the telescopic cylinder 57 is realized, and when the telescopic cylinder 57 drives the telescopic shaft 56 to rotate, the telescopic effect of the telescopic shaft 56 in the telescopic cylinder 57 is not influenced.

The driving assembly 6 comprises a driving motor 61, an electric telescopic rod 62, a driven small wheel 641 and a driven large wheel 631, the driving motor 61 and the electric telescopic rod 62 are respectively and fixedly installed at two sides of the buffer frame 2, the output end of the driving motor 61 is respectively and fixedly sleeved with a driving small wheel 63 and a driving large wheel 64, the driven large wheel 631 is positioned above the driving small wheel 63, and the driven large gear 631 is engaged with the driving small gear 63, the driven small rotor 641 is positioned below the driving large rotor 64, a driving wheel belt 642 is fixedly sleeved on the outer sides of the driving large rotating wheel 64 and the driven small rotating wheel 641, a driving rod 65 is vertically arranged in the middle of one side of the driven small rotating wheel 641, the driving rod 65 is rotatably connected to the bottom end of the mixing bottom frame 1, so that the rotating stability of the driving rod 65 is improved, a driving bevel gear 66 is fixedly arranged on one side of the driving rod 65 away from the driven small rotating wheel 641, and a driven bevel gear 67 is vertically meshed and connected above the driving bevel gear 66; one side of the connecting cylinder 551, which is far away from the connecting shaft 55, movably penetrates through one side of the material control frame 3 and is fixedly connected with the output end of the electric telescopic rod 62; one side of the telescopic cylinder 57 far away from the telescopic shaft 56 movably penetrates one side of the material control frame 3 and is fixedly connected with the middle part of one side of the driven large gear 631; the bottom of drive axis 41 passes the bottom of mixing underframe 1 and with the top fixed connection of driven bevel gear 67, drive pinion 63 and drive bull wheel 64 and rotate through control and start driving motor 61, and then synchronous drive driven bull gear 631 carries out slow rotation and driven bull wheel 641 carries out high-speed rotation, thereby the slow rotation through driven bull gear 631 drives telescopic cylinder 57 and slowly rotates and the high-speed rotation through driven bull wheel 641 drives drive bevel gear 66 and driven bevel gear 67 and carries out high-speed rotation, thereby drive axis 41 and carry out high-speed rotation, and then realize the linkage between mixed subassembly 4 and the accuse material subassembly 5, drive electric telescopic handle 62 through control and drive connecting cylinder 551 and stretch out and draw back.

The working principle is as follows: the invention relates to a feed blending and processing system for livestock breeding, when in use, different types of feeds can be added through a first feeding frame 9 and a second feeding frame 10, then a driving motor 61 is controlled and started to drive a driving pinion 63 and a driving large runner 64 to rotate, further a driven large gear 631 is synchronously driven to slowly rotate and a driven small runner 641 is synchronously driven to rotate at a high speed, so that a telescopic cylinder 57 is driven to slowly rotate by the slow rotation of the driven large gear 631, a driving bevel gear 66 and a driven bevel gear 67 are driven to rotate at a high speed by the high-speed rotation of the driven small runner 641, a driving central shaft 41 is driven to rotate at a high speed, further the linkage between a mixing component 4 and a material control component 5 is realized, an electric telescopic rod 62 is controlled and driven to drive a connecting cylinder 551 to horizontally move back and forth, a connecting shaft 55 is driven to horizontally move back and forth, and forth, when the driving column 54 moves back and forth horizontally and is in close contact with one of the driving rings 53, the driving friction protrusions 541 are driven to be clamped in the corresponding driving rings 53, large friction resistance is generated among the driving column 54, the friction protrusions 541 and the corresponding driving rings 53, the corresponding driving rings 53 and the middle pipes 51 can be driven to rotate through the rotation of the driving column 54, the middle pipes 51 in one group rotate in the corresponding material control frames 3 to drive the material control plates 52 to rotate, the feed in one group of the corresponding material storage cavities in the first feeding frame 9 and the second feeding frame 10 can be conveniently quantitatively output and enters the mixing bottom frame 1 through the buffer frame 2, after the quantitative output of the feed in one group of the corresponding material storage cavities in the first feeding frame 9 and the second feeding frame 10 is finished, the feed in the other group of the corresponding material storage cavities needs to be quantitatively output, at this time, the electric telescopic rod 62 is controlled and driven again to drive the connecting cylinder 551 to move back and forth horizontally, the driving connecting shaft 55 moves horizontally back and forth to make the driving column 54 move horizontally back and forth, when the driving column 54 moves horizontally back and forth and is in close contact with another group of driving rings 53, the driving friction protrusions 541 are clamped in the corresponding driving rings 53, large friction resistance is generated among the driving column 54, the friction protrusions 541 and the corresponding driving rings 53, the driving column 54 rotates to drive the corresponding driving rings 53 and the middle tubes 51 to rotate, the middle tubes 51 of the other group rotate in the corresponding material control frames 3 to drive the material control plates 52 to rotate, feed in the other group of corresponding storage cavities of the first feeding frame 9 and the second feeding frame 10 is conveniently quantitatively output and enters the mixing bottom frame 1 through the buffer frame 2, so that quantitative output and allocation of two groups of different feeds are realized, and then the electric telescopic rod 62 is controlled and driven again to drive the connecting barrel 551 to move horizontally back and forth, until drive post 54 is in between two sets of drive rings 53, drive post 54, contactless between the drive ring 53 of friction arch 541 and both sides, at this moment, drive post 54 rotates well pipe 51 that can't drive both sides and rotates, close the output of fodder, and simultaneously, rotate through driving drive axis 41, thereby drive helical mixing blade 42 and rotate, the rotation through helical mixing blade 42 can effectively drive the mixing stirring of the different types of fodder in mixing underframe 1, the efficiency of the mixed stirring of different types of fodder has been promoted, after the fodder mixes the stirring, through the ejection of compact of the inside mixed fodder of use accuse material valve 7 control mixing underframe 1.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides a fodder allotment processing system for livestock-raising, includes mixes underframe (1), its characterized in that: mix the top middle part of underframe (1) and fixedly insert and be equipped with buffering frame (2), be equipped with mixed subassembly (4) in mixing underframe (1), the top fixed mounting of buffering frame (2) has two groups of material frame (3) that are symmetric distribution, and is two sets of be equipped with accuse material subassembly (5) between accuse material frame (3), and is two sets of the top of accuse material frame (3) is fixed mounting respectively has a feeding frame (9) and No. two feeding frames (10), the fixed drive assembly (6) that is equipped with on buffering frame (2), the bottom both sides of mixing underframe (1) are all fixed to be inserted and are equipped with accuse material valve (7), the bottom fixed mounting of mixing underframe (1) has support frame (8).

2. The system for blending and processing a feed for livestock breeding according to claim 1, wherein: the mixing assembly (4) comprises a driving middle shaft (41), the bottom of the driving middle shaft (41) is rotatably inserted in the middle of the lower surface of the inner wall of the mixing bottom frame (1) through a bearing, and a spiral stirring blade (42) is fixedly arranged on the outer side of the driving middle shaft (41).

3. The system for blending and processing a feed for livestock breeding according to claim 1, wherein: the material control assembly (5) comprises a middle pipe (51) and driving columns (54), the middle pipe (51) is provided with two groups, the two groups of middle pipes (51) are respectively rotatably installed in corresponding material control frames (3) through bearings, material control plates (52) distributed in an annular array are fixedly arranged on the outer sides of the two groups of middle pipes (51), driving rings (53) matched with the driving columns (54) are fixedly installed on the inner walls of the opposite sides of the two groups of middle pipes (51), the driving columns (54) are located between the two groups of driving rings (53), friction bulges (541) are fixedly installed on the two sides of the driving columns (54), the size of the friction bulges (541) is the same as that of the driving rings (53), one side, far away from the driving columns (54), of one group of the friction bulges (541) is fixedly installed with a connecting shaft (55), and one side, far away from the driving columns (54), of the other group of the friction bulges (541) is fixedly installed with a, the connecting shaft (55) movably penetrates through the corresponding driving ring (53) and is rotatably sleeved with a connecting cylinder (551) through a bearing, the telescopic shaft (56) movably penetrates through the corresponding driving ring (53) and is movably sleeved with a telescopic cylinder (57), limiting bulges (561) which are symmetrically distributed are fixedly arranged on the outer wall of one side, close to the telescopic cylinder (57), of the telescopic shaft (56), limiting grooves (571) matched with the limiting bulges (561) are formed in the inner wall of the telescopic cylinder (57), and the limiting bulges (561) are slidably clamped in the corresponding limiting grooves (571).

4. The system for blending and processing a feed for livestock breeding according to claim 3, wherein: one side of the material control plate (52) far away from the middle pipe (51) is in contact with the inner wall of the material control frame (3), and the length size of the material control plate (52) is the same as that of the material control frame (3).

5. The system for blending and processing a feed for livestock breeding according to claim 1, wherein: drive assembly (6) includes driving motor (61), electric telescopic handle (62), driven small runner (641) and driven gear wheel (631), driving motor (61) and electric telescopic handle (62) are fixed respectively and are equipped with drive pinion (63) and drive bull wheel (64) in the both sides of buffering frame (2), the output of driving motor (61) is fixed the cover respectively, driven gear wheel (631) is located the top of drive pinion (63), and driven gear wheel (631) and drive pinion (63) mesh mutually, driven small runner (641) is located the below of drive bull wheel (64), and the fixed cover in outside of drive bull wheel (64) and driven bull wheel (641) is equipped with drive wheel area (642), actuating lever (65) is installed perpendicularly in the middle part of one side of driven small runner (641), actuating lever (65) rotate the bottom of connecting in mixing underframe (1), one side fixed mounting that driven small wheel (641) was kept away from in actuating lever (65) has drive umbrella tooth (66), drive umbrella tooth (66) top perpendicular meshing is connected with driven umbrella tooth (67).

6. The system for blending and processing a feed for livestock breeding according to claim 3, wherein: one side of the connecting cylinder (551) far away from the connecting shaft (55) movably penetrates through one side of the material control frame (3) and is fixedly connected with the output end of the electric telescopic rod (62).

7. The system for blending and processing a feed for livestock breeding according to claim 3, wherein: one side of the telescopic cylinder (57) far away from the telescopic shaft (56) movably penetrates through one side of the material control frame (3) and is fixedly connected with the middle part of one side of the driven large gear (631).

8. The system for blending and processing a feed for livestock breeding according to claim 2, wherein: the bottom end of the driving middle shaft (41) penetrates through the bottom end of the mixing bottom frame (1) and is fixedly connected with the top end of the driven bevel gear (67).

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