Peanut stalk feed mixing and stirring equipment

By incorporating cutting, crushing, and scraping devices into the feed mixing equipment, the problems of the equipment's inability to use seedling straw as raw material and the difficulty in discharging cohesive materials have been solved, thus achieving high applicability and ease of use of the equipment.

CN224388638UActive Publication Date: 2026-06-23ZHENGYANG COUNTY XINTIANDI GRASS IND CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ZHENGYANG COUNTY XINTIANDI GRASS IND CO LTD
Filing Date
2025-05-15
Publication Date
2026-06-23

AI Technical Summary

Technical Problem

Existing feed mixing equipment cannot directly use seedling and straw materials, and the feed tends to stick to the inner wall of the mixing drum during mixing, resulting in difficulty in discharging the feed. The machine has poor applicability and ease of use.

Method used

A cutting and crushing device is installed to cut and crush feed raw materials, and a scraping device is equipped to scrape off feed adhering to the inside of the machine during mixing, ensuring smooth discharge.

Benefits of technology

This technology enables the direct use of rice seedlings and straw as raw materials to produce feed, improving the applicability of the equipment and reducing sticking during the mixing process, thus enhancing its ease of use.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model relates to technical field of feed mixing equipment especially, it is a kind of peanut seedling feed mixing and stirring equipment, it is directly used seedling straw class raw material to make feed by setting cutting and crushing device, the raw material of feed is cut and crushed, improve machine applicability, and by setting material scraping device, the feed adhered in the inside of machine is scraped off when stirring, make the smooth discharge process, improve machine ease of use;Including fuselage;Still including cutting and crushing device, feeding device, stirring mixing device, material scraping device and discharge device, cutting and crushing device, stirring mixing device and discharge device are all installed on the machine body, feeding device is installed on the machine body and cutting and crushing device, material scraping device is installed on the machine body and stirring mixing device.
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Description

Technical Field

[0001] This utility model relates to the technical field of feed mixing equipment, and in particular to a peanut vine feed mixing and stirring equipment. Background Technology

[0002] Feed is a general term for the food that all animals raise. It is usually composed of a variety of ingredients, and during production, these ingredients need to be mixed together using specific equipment.

[0003] Existing feed mixing equipment, such as the Chinese utility model patent CN222401023U (authorization announcement number: A cattle feed preparation system), represents a class of prior art whose main structure includes a cattle feed mixing cylinder, a lifting stirring component, and a rotating dispensing component. The cattle feed mixing cylinder holds the feed, the lifting stirring component stirs and mixes the feed, and the rotating dispensing component discharges the mixed feed.

[0004] However, the existing technology and equipment still have the following problems when in use: the existing machines require pre-crushed granular raw materials and cannot directly fill the machines with seedlings and straw materials, resulting in poor machine applicability. In addition, the existing machines are prone to causing feed to stick to the inner wall of the mixing drum during mixing, which leads to difficulties in discharging and requires manual cleaning, resulting in poor machine usability. Utility Model Content

[0005] To solve the above-mentioned technical problems, this utility model provides a peanut vine feed mixing and stirring device that cuts and crushes feed raw materials by setting a cutting and crushing device, making it convenient to directly use seedling and straw raw materials to make feed, thus improving the applicability of the machine. Furthermore, by setting a scraping device, the feed adhering to the inside of the machine is scraped off during the mixing process, which promotes the smooth discharge process and improves the ease of use of the machine.

[0006] This utility model discloses a peanut vine feed mixing and stirring device, including a machine body; it also includes a cutting and crushing device, a feeding device, a mixing and stirring device, a scraping device, and a discharging device. The cutting and crushing device, the mixing and stirring device, and the discharging device are all installed on the machine body. The feeding device is installed on the machine body and the cutting and crushing device, and the scraping device is installed on the machine body and the mixing and stirring device. The machine body holds the feed, the cutting and crushing device cuts and crushes the feed raw materials, the feeding device transports and stores the feed raw materials, the mixing and stirring device mixes the feed, the scraping device scrapes off the feed adhering to the machine body, and the discharging device accelerates the discharge of the feed.

[0007] Preferably, the machine body includes a support frame, a mixing drum, a drum cover, a discharge pipe, and an electric valve. The mixing drum is mounted on the support frame, and the drum cover is mounted on the top of the mixing drum. The top of the drum cover is provided with a feed inlet 1, multiple feed inlets 2, a mounting platform, and a mounting groove. The discharge pipe is mounted on the bottom of the mixing drum, and the electric valve is connected to and mounted on the discharge pipe. The mixing drum holds the feed, and the electric valve closes the mixing drum through the discharge pipe.

[0008] Preferably, the cutting and pulverizing device includes a pulverizing cylinder, a reducer, a motor, two pulverizing rollers, two gears, two supports, two cylinders, two sets of guide rods, and two cutters. The pulverizing cylinder is installed at the top of the feed inlet of the cylinder cover. The reducer is fixedly installed on the side of the pulverizing cylinder, and the motor is fixedly installed on the side of the reducer. Both pulverizing rollers are rotatably installed inside the pulverizing cylinder and mesh with each other. One pulverizing roller passes through the pulverizing cylinder and is rotatably connected to the reducer. The motor provides power to one of the pulverizing cylinders connected to it through the reducer. Both gears are rotatably installed on the other side of the pulverizing cylinder and mesh with each other. The feed is engaged, with two brackets mounted on the top of the cylinder cover. Each bracket has a mounting hole and a set of through holes. Two cylinders are mounted on the sides of the mounting holes of the two brackets, and two sets of guide rods are slidably mounted in the two sets of through holes of the two brackets. Two cutters are mounted on the two cylinders and the two sets of guide rods, with the two cylinders located on both sides of the two brackets and the two cutters located between the two brackets. The cylinders provide power to drive the cutters to reciprocate and cut the feed ingredients. The motor provides power, which is transmitted through the reducer and gears to drive the two crushing rollers to rotate in opposite directions to crush the cut feed ingredients.

[0009] Preferably, the feeding device includes a conveying cylinder, a second reducer, a second motor, two conveying rollers, two second gears, a hopper, and multiple feeding pipes. The conveying cylinder is installed at the top of the crushing cylinder, the second reducer is fixedly installed at the side end of the conveying cylinder, the second motor is fixedly installed at the side end of the second reducer, the two conveying rollers are rotatably installed inside the conveying cylinder and mesh with each other, the two second gears are rotatably installed at the other side end of the conveying cylinder and mesh with each other, the hopper is installed at the top of the conveying cylinder, and the multiple feeding pipes are respectively installed at the top of the multiple discharge ports of the cylinder cover. The hopper holds the feed raw materials to be crushed, the second motor provides power, and the power is transmitted through the second reducer and the second gears to drive the two conveying rollers to rotate in opposite directions to transport the feed raw materials. The feeding pipes facilitate the addition of various different feed raw materials that do not need to be crushed into the mixing cylinder.

[0010] Preferably, the mixing device includes a reducer, a motor, two pulleys, a bracket, multiple belts, and a mixing shaft. The reducer is fixedly installed at the bottom of the mounting platform of the cylinder cover, the motor is fixedly installed at the bottom of the reducer, and a pulley is rotatably installed at the top of the mounting platform of the cylinder cover, passing through the cylinder cover and rotating between the reducer. The motor provides power to the pulley through the reducer. The bracket is installed at the top of the mounting groove of the cylinder cover, and another pulley is rotatably installed inside the top of the bracket. Multiple belts are installed on two brackets, and the mixing shaft is fixedly installed at the bottom of another belt. The motor provides power, which is transmitted through the reducer, pulleys, and belts to drive the mixing shaft to rotate and mix the feed.

[0011] Preferably, the scraping device includes a reducer four, a rotating shaft, a gear three, a bracket four, a gear ring, multiple scraper blades, and a sliding sleeve. The reducer four is fixedly installed at the top of the bracket three and is rotatably connected to a pulley connected to the bracket three. The rotating shaft is rotatably installed at the bottom of the reducer four. The gear three is fixedly installed at the bottom of the rotating shaft. The bracket four is rotatably installed in the mounting groove of the cylinder cover. The gear ring is fixedly installed at the side of the bracket four, and the gear ring and the gear three mesh with each other. Multiple scraper blades are evenly spaced at the side of the bracket four, and all scraper blades are in contact with the inner wall of the mixing cylinder. The sliding sleeve is installed at the bottom of the multiple scraper blades and is rotatably installed at the bottom of the mixing shaft. Power is transmitted through the reducer four, the rotating shaft, the gear three, and the gear ring, driving the scraper blades to rotate and scrape off the feed adhering to the inner side wall of the mixing cylinder. At the same time, when the scraper blades rotate forward, they drive the outer layer of feed to rise and tumble the feed. When the scraper blades rotate in reverse, they drive the outer layer of feed to fall and quickly discharge the feed.

[0012] Preferably, the discharge device includes a discharge cylinder, an auger, a reducer five, and a motor four. The discharge cylinder is fixedly installed at the bottom end of the discharge pipe, and a discharge trough is provided on the side end of the discharge cylinder. The auger is rotatably installed inside the bottom end of the discharge cylinder. The reducer five is fixedly installed at the bottom end of the discharge cylinder and is rotatably connected between the discharge cylinder and the auger. The motor four is fixedly installed at the bottom end of the reducer five and provides power to the auger through the reducer five. The motor four provides power to drive the auger to rotate and discharge the feed quickly.

[0013] Compared with the prior art, the beneficial effects of this utility model are as follows: by cutting and crushing the feed raw materials, seedling and straw materials can be used directly to make feed, and the machine has good applicability; and the feed adhering to the inside of the machine can be scraped off during mixing, which promotes the smooth discharge process and makes the machine easy to use. Attached Figure Description

[0014] Figure 1 This is a schematic diagram of the isometric structure of this utility model;

[0015] Figure 2 This is a schematic diagram of the isometric cross-sectional structure of the fuselage;

[0016] Figure 3 This is a schematic diagram of the isometric cross-sectional structure of the cutting and crushing device;

[0017] Figure 4 This is a schematic diagram of the isometric cross-sectional structure of the feeding device;

[0018] Figure 5 This is an isometric structural diagram of the cutting and crushing device and the feeding device from another direction;

[0019] Figure 6 This is an isometric structural diagram of the stirring and mixing device;

[0020] Figure 7 This is an isometric structural diagram of the scraping device;

[0021] Figure 8 This is a schematic diagram of the isometric cross-sectional structure of the discharge device.

[0022] The attached diagram is labeled as follows: 01. Machine body; 11. Support frame one; 12. Mixing drum; 13. Drum cover; 14. Discharge pipe; 15. Electric valve; 02. Cutting and crushing device; 21. Crushing drum; 22. Reducer one; 23. Motor one; 24. Crushing roller; 25. Gear one; 26. Support frame two; 27. Cylinder; 28. Guide rod; 29. ​​Cutter; 03. Feeding device; 31. Conveying drum; 32. Reducer two; 33. Motor two; 34. Conveying roller; 35. 36. Gear II; 37. Hopper; 48. Feeding pipe; 59. Mixing device; 40. Reducer III; 41. Motor III; 42. Pulley; 43. Support III; 44. Belt; 45. Mixing shaft; 60. Scraper; 51. Reducer IV; 52. Rotating shaft; 53. Gear III; 54. Support IV; 55. Gear ring; 56. Scraper; 57. Sliding sleeve; 60. Discharge device; 61. Discharge cylinder; 62. Screwdriver; 63. Reducer V; 64. Motor IV. Detailed Implementation

[0023] To facilitate understanding of this utility model, a more complete description will be given below with reference to the accompanying drawings. This utility model can be implemented in many different forms and is not limited to the embodiments described herein. Rather, these embodiments are provided to make the disclosure of this utility model more thorough and complete.

[0024] Example 1

[0025] like Figure 1As shown, the device includes a machine body 01; it also includes a cutting and crushing device 02, a feeding device 03, a mixing and stirring device 04, a scraping device 05, and a discharging device 06. The cutting and crushing device 02, the mixing and stirring device 04, and the discharging device 06 are all installed on the machine body 01. The feeding device 03 is installed on the machine body 01 and the cutting and crushing device 02. The scraping device 05 is installed on the machine body 01 and the mixing and stirring device 04. The machine body 01 holds the feed, the cutting and crushing device 02 cuts and crushes the feed raw materials, the feeding device 03 transports and stores the feed raw materials, the mixing and stirring device 04 mixes the feed, the scraping device 05 scrapes off the feed adhering to the machine body 01, and the discharging device 06 accelerates the discharge of the feed.

[0026] like Figure 2 As shown, the machine body 01 includes a support 11, a mixing drum 12, a drum cover 13, a discharge pipe 14, and an electric valve 15. The mixing drum 12 is mounted on the support 11, the drum cover 13 is mounted on the top of the mixing drum 12, and the top of the drum cover 13 is provided with a feed inlet 1, multiple feed inlets 2, a mounting platform, and a mounting groove. The discharge pipe 14 is mounted on the bottom of the mixing drum 12, and the electric valve 15 is connected to and mounted on the discharge pipe 14.

[0027] like Figure 3 and Figure 5 As shown, the cutting and crushing device 02 includes a crushing cylinder 21, a reducer 22, a motor 23, two crushing rollers 24, two gears 25, two supports 26, two cylinders 27, two sets of guide rods 28, and two cutters 29. The crushing cylinder 21 is installed at the top of the feed inlet of the cylinder cover 13. The reducer 22 is fixedly installed on the side of the crushing cylinder 21, and the motor 23 is fixedly installed on the side of the reducer 22. Both crushing rollers 24 are rotatably installed inside the crushing cylinder 21, and the two crushing rollers 24 mesh with each other. One crushing roller 24 passes through the crushing cylinder 21 and is rotatably connected to the reducer 22. The motor 23 is powered by the reducer 22. A connected crushing cylinder 21 provides power. Two gears 25 are rotatably mounted on the other side of the crushing cylinder 21 and mesh with each other. Two brackets 26 are mounted on the top of the cylinder cover 13 and are respectively provided with a mounting hole and a set of through holes. Two cylinders 27 are respectively mounted on the two mounting hole sides of the two brackets 26. Two sets of guide rods 28 are respectively slidably mounted in the two sets of through holes of the two brackets 26. Two cutters 29 are respectively mounted on the two cylinders 27 and the two sets of guide rods 28. The two cylinders 27 are respectively located on both sides of the two brackets 26, and the two cutters 29 are located between the two brackets 26.

[0028] like Figure 4 and Figure 5As shown, the feeding device 03 includes a conveying cylinder 31, a second reducer 32, a second motor 33, two conveying rollers 34, two second gears 35, a hopper 36, and multiple feeding pipes 37. The conveying cylinder 31 is installed at the top of the crushing cylinder 21. The second reducer 32 is fixedly installed at the side end of the conveying cylinder 31. The second motor 33 is fixedly installed at the side end of the second reducer 32. The two conveying rollers 34 are rotatably installed inside the conveying cylinder 31 and mesh with each other. The two second gears 35 are rotatably installed at the other side end of the conveying cylinder 31 and mesh with each other. The hopper 36 is installed at the top of the conveying cylinder 31. The multiple feeding pipes 37 are respectively installed at the top of the multiple discharge ports of the cylinder cover 13.

[0029] like Figure 6 As shown, the mixing device 04 includes a reducer 41, a motor 42, two pulleys 43, a bracket 44, multiple belts 45, and a stirring shaft 46. The reducer 41 is fixedly installed at the bottom of the mounting platform of the cylinder cover 13, the motor 42 is fixedly installed at the bottom of the reducer 41, one pulley 43 is rotatably installed at the top of the mounting platform of the cylinder cover 13, and this pulley 43 passes through the cylinder cover 13 and is rotatably connected to the reducer 41. The motor 42 provides power to this pulley 43 through the reducer 41. The bracket 44 is installed at the top of the mounting groove of the cylinder cover 13, another pulley 43 is rotatably installed at the top of the inside of the bracket 44, multiple belts 45 are installed on two brackets 44, and the stirring shaft 46 is fixedly installed at the bottom of another belt 45.

[0030] like Figure 7 As shown, the scraping device 05 includes a reducer 41, a rotating shaft 52, a gear 3 53, a bracket 44, a gear ring 55, multiple scraper blades 56, and a sliding sleeve 57. The reducer 41 is fixedly installed at the top of the bracket 3 44 and is rotatably connected to a pulley 43 connected to the bracket 3 44. The rotating shaft 52 is rotatably installed at the bottom of the reducer 41. The gear 3 53 is fixedly installed at the bottom of the rotating shaft 52. The bracket 4 54 is rotatably installed in the mounting groove of the cylinder cover 13. The gear ring 55 is fixedly installed at the side of the bracket 4 54 and meshes with the gear 3 53. Multiple scraper blades 56 are evenly spaced on the side of the bracket 4 54 and all scraper blades 56 are in contact with the inner wall of the mixing cylinder 12. The sliding sleeve 57 is installed at the bottom of the multiple scraper blades 56 and is rotatably installed at the bottom of the stirring shaft 46.

[0031] First, feed ingredients that do not require grinding are added into the mixing drum 12. The feeding pipe 37 facilitates the addition of various feed ingredients that do not require grinding into the mixing drum 12. Then, the remaining feed ingredients are stored in the hopper 36. Next, motor 23, cylinder 27, and motor 23 are turned on. Motor 23 provides power, which is transmitted through reducer 22 and gear 25, driving two conveying rollers 34 to rotate in opposite directions to transport the feed ingredients. Cylinder 27 provides power, driving the cutter 29 to reciprocate and cut the feed ingredients. Motor 23 provides power, which is transmitted through reducer 22 and gear 25. Two crushing rollers 24 are driven to rotate in opposite directions to crush the cut feed raw materials. At the same time, motor 3 42 is turned on, and motor 3 42 provides power. The power is transmitted through reducer 3 41, pulley 43 and belt 45 to drive the stirring shaft 46 to rotate and mix the feed. The power is transmitted through reducer 4 51, rotating shaft 52, gear 3 53 and gear ring 55 to drive scraper 56 to rotate and scrape off the feed adhering to the inner side wall of the mixing drum 12. At the same time, when scraper 56 rotates forward, it drives the outer layer of feed to rise and tumble the feed. When scraper 56 rotates in reverse, it drives the outer layer of feed to fall and quickly discharge the feed.

[0032] Example 2

[0033] In addition to Example 1, it also includes:

[0034] like Figure 8 As shown, the discharge device 06 includes a discharge cylinder 61, an auger 62, a reducer 63, and a motor 64. The discharge cylinder 61 is fixedly installed at the bottom end of the discharge pipe 14, and a discharge trough is provided on the side end of the discharge cylinder 61. The auger 62 is rotatably installed inside the bottom end of the discharge cylinder 61. The reducer 63 is fixedly installed at the bottom end of the discharge cylinder 61 and is rotatably connected between the discharge cylinder 61 and the auger 62. The motor 64 is fixedly installed at the bottom end of the reducer 63 and provides power to the auger 62 through the reducer 63.

[0035] First, feed ingredients that do not require grinding are added into the mixing drum 12. The feeding pipe 37 facilitates the addition of various feed ingredients that do not require grinding into the mixing drum 12. Then, the remaining feed ingredients are stored in the hopper 36. Next, motor 23, cylinder 27, and motor 1 23 are turned on. Motor 2 33 provides power, which is transmitted through reducer 2 32 and gear 2 35, driving two conveying rollers 34 to rotate in opposite directions to transport the feed ingredients. Cylinder 27 provides power, driving the cutter 29 to reciprocate and cut the feed ingredients. Motor 1 23 provides power, which is transmitted through reducer 22 and gear 25, driving two grinding rollers 24 to rotate in opposite directions to cut the feed ingredients. The material is crushed, and motor 3 42 is turned on. Motor 3 42 provides power, which is transmitted through reducer 3 41, pulley 43 and belt 45 to drive the stirring shaft 46 to rotate and mix the feed. Power is transmitted through reducer 4 51, rotating shaft 52, gear 3 53 and gear ring 55 to drive scraper 56 to rotate and scrape off the feed adhering to the inner side wall of the mixing drum 12. At the same time, when scraper 56 rotates forward, it drives the outer layer of feed to rise and tumble the feed. When scraper 56 rotates in reverse, it drives the outer layer of feed to fall and discharge the feed quickly. During discharge, motor 4 64 is turned on and provides power to drive auger 62 to rotate and discharge the feed quickly.

[0036] like Figures 1 to 8 As shown, this utility model discloses a peanut vine feed mixing and stirring device. During operation, the feed ingredients that do not require grinding are first added to the mixing drum 12. The feeding pipe 37 facilitates the addition of various feed ingredients that do not require grinding to the mixing drum 12. Then, the remaining feed ingredients are stored in the hopper 36. Afterwards, motor 23, cylinder 27, and motor 23 are turned on. Motor 23 provides power, which is transmitted through reducer 22 and gear 25, driving two conveying rollers 34 to rotate in opposite directions to transport the feed ingredients. Cylinder 27 provides power, driving cutter 29 to reciprocate and cut the feed ingredients. Motor 23 provides power, which is transmitted through reducer 22 and gear 25, driving two grinding rollers 34 to rotate in opposite directions to transport the feed ingredients. The crushing rollers 24 rotate in opposite directions to crush the cut feed raw materials. At the same time, motor 3 42 is turned on, and motor 3 42 provides power. The power is transmitted through reducer 3 41, pulley 43 and belt 45 to drive the stirring shaft 46 to rotate and mix the feed. The power is transmitted through reducer 4 51, rotating shaft 52, gear 3 53 and gear ring 55 to drive scraper 56 to rotate and scrape off the feed adhering to the inner side wall of the mixing drum 12. At the same time, when scraper 56 rotates forward, it drives the outer layer of feed to rise and tumble the feed. When scraper 56 rotates in reverse, it drives the outer layer of feed to fall and quickly discharge the feed. During discharge, motor 4 64 is turned on, and motor 4 64 provides power to drive auger 62 to rotate and quickly discharge the feed.

[0037] The electric valve 15, motor 1 23, two crushing rollers 24, two gears 1 25, two cylinders 27, two cutters 29, motor 2 33, two conveying rollers 34, two gears 2 35, motor 3 42, two pulleys 43, multiple belts 45, gear 3 53, gear ring 55, and motor 4 64 of this utility model are commercially available. Technical personnel in this industry only need to install and operate them according to the accompanying instruction manual, without requiring any creative work from those skilled in the art.

[0038] The main functions achieved by this utility model are as follows: by setting a cutting and crushing device 02, feed raw materials are cut and crushed, making it convenient to directly use seedling and straw materials to make feed, thus improving the applicability of the machine. Furthermore, by setting a scraping device 05, feed adhering to the inside of the machine is scraped off during mixing, promoting smooth discharge and improving the ease of use of the machine. This solves the existing technical problems that require the use of pre-crushed granular raw materials, making it impossible to directly fill the machine with seedling and straw materials, resulting in poor machine applicability. In addition, existing machines tend to cause feed to stick to the inner wall of the mixing drum during mixing, leading to difficulty in discharge, requiring manual cleaning, and resulting in poor machine ease of use.

[0039] The above description is only a preferred embodiment of the present utility model. It should be noted that for those skilled in the art, several improvements and modifications can be made without departing from the technical principles of the present utility model, and these improvements and modifications should also be considered within the protection scope of the present utility model.

Claims

1. A peanut vine feed mixing and stirring device, comprising a machine body (01); characterized in that, It also includes a cutting and crushing device (02), a feeding device (03), a mixing and blending device (04), a scraping device (05), and a discharging device (06). The cutting and crushing device (02), the mixing and blending device (04), and the discharging device (06) are all installed on the machine body (01). The feeding device (03) is installed on the machine body (01) and the cutting and crushing device (02). The scraping device (05) is installed on the machine body (01) and the mixing and blending device (04). The machine body (01) holds the feed, the cutting and crushing device (02) cuts and crushes the feed raw materials, the feeding device (03) transports and stores the feed raw materials, the mixing and blending device (04) mixes and blends the feed, the scraping device (05) scrapes off the feed adhering to the machine body (01), and the discharging device (06) accelerates the discharge of the feed. The machine body (01) includes a support (11), a mixing drum (12), a drum cover (13), a discharge pipe (14), and an electric valve (15). The mixing drum (12) is mounted on the support (11), the drum cover (13) is mounted on the top of the mixing drum (12), and the top of the drum cover (13) is provided with a feed inlet, multiple feed inlets, a mounting platform, and a mounting groove. The discharge pipe (14) is mounted on the bottom of the mixing drum (12), and the electric valve (15) is connected to the discharge pipe (14). The cutting and crushing device (02) includes a crushing cylinder (21), a reducer (22), a motor (23), two crushing rollers (24), two gears (25), two supports (26), two cylinders (27), two sets of guide rods (28), and two cutters (29). The crushing cylinder (21) is installed at the top of the feed inlet of the cylinder cover (13). The reducer (22) is fixedly installed on the side of the crushing cylinder (21). The motor (23) is fixedly installed on the side of the reducer (22). The two crushing rollers (24) are rotatably installed inside the crushing cylinder (21) and mesh with each other. One crushing roller (24) passes through the crushing cylinder (21) and is rotatably connected to the reducer (22). The motor (23) is connected to the reducer (22) through the reducer (23). Power is supplied to a crushing cylinder (21) connected to it. Two gears (25) are rotatably mounted on the other side of the crushing cylinder (21) and mesh with each other. Two supports (26) are mounted on the top of the cylinder cover (13) and each of the two supports (26) has a mounting hole and a set of through holes. Two cylinders (27) are mounted on the two mounting holes of the two supports (26) respectively. Two sets of guide rods (28) are slidably mounted in the two sets of through holes of the two supports (26) respectively. Two cutters (29) are mounted on the two cylinders (27) and the two sets of guide rods (28) respectively. The two cylinders (27) are located on both sides of the two supports (26) respectively. The two cutters (29) are located between the two supports (26).

2. The peanut vine feed mixing and stirring equipment as described in claim 1, characterized in that, The feeding device (03) includes a conveying cylinder (31), a second reducer (32), a second motor (33), two conveying rollers (34), two second gears (35), a hopper (36), and multiple feeding pipes (37). The conveying cylinder (31) is installed at the top of the crushing cylinder (21). The second reducer (32) is fixedly installed at the side end of the conveying cylinder (31). The second motor (33) is fixedly installed at the side end of the second reducer (32). The two conveying rollers (34) are rotatably installed inside the conveying cylinder (31) and mesh with each other. The two second gears (35) are rotatably installed at the other side end of the conveying cylinder (31) and mesh with each other. The hopper (36) is installed at the top of the conveying cylinder (31). Multiple feeding pipes (37) are respectively installed at the top of multiple discharge ports of the cylinder cover (13).

3. The peanut vine feed mixing and stirring equipment as described in claim 1, characterized in that, The mixing device (04) includes a reducer (41), a motor (42), two pulleys (43), a bracket (44), multiple belts (45), and a stirring shaft (46). The reducer (41) is fixedly installed at the bottom of the mounting platform of the cylinder cover (13). The motor (42) is fixedly installed at the bottom of the reducer (41). One pulley (43) is rotatably installed at the top of the mounting platform of the cylinder cover (13), and this pulley (43) passes through the cylinder cover (13) and is rotatably connected to the reducer (41). The motor (42) provides power to this pulley (43) through the reducer (41). The bracket (44) is installed at the top of the mounting groove of the cylinder cover (13). Another pulley (43) is rotatably installed at the top of the inside of the bracket (44). Multiple belts (45) are installed on two brackets (44). The stirring shaft (46) is fixedly installed at the bottom of another belt (45).

4. The peanut vine feed mixing and stirring equipment as described in claim 3, characterized in that, The scraping device (05) includes a reducer four (51), a rotating shaft (52), a gear three (53), a bracket four (54), a gear ring (55), multiple scraper plates (56), and a sliding sleeve (57). The reducer four (51) is fixedly installed on the top of the bracket three (44), and the reducer four (51) is rotatably connected between the bracket three (44) and a pulley (43) connected thereto. The rotating shaft (52) is rotatably installed on the bottom of the reducer four (51), and the gear three (53) is fixedly installed on the rotating shaft (52). At the bottom, bracket four (54) is rotatably installed in the mounting groove of the cylinder cover (13), gear ring (55) is fixedly installed on the side of bracket four (54), and gear ring (55) and gear three (53) mesh with each other. Multiple scraper plates (56) are evenly spaced on the side of bracket four (54), and multiple scraper plates (56) are in contact with the inner wall of the mixing cylinder (12). Sliding sleeve (57) is installed at the bottom of multiple scraper plates (56), and sliding sleeve (57) is rotatably installed at the bottom of the stirring shaft (46).

5. The peanut vine feed mixing and stirring equipment as described in claim 1, characterized in that, The discharge device (06) includes a discharge cylinder (61), an auger (62), a reducer (63) and a motor (64). The discharge cylinder (61) is fixedly installed at the bottom of the discharge pipe (14). A discharge trough is provided on the side of the discharge cylinder (61). The auger (62) is rotatably installed at the bottom inside the discharge cylinder (61). The reducer (63) is fixedly installed at the bottom of the discharge cylinder (61) and is rotatably connected between the discharge cylinder (61) and the auger (62). The motor (64) is fixedly installed at the bottom of the reducer (63) and provides power to the auger (62) through the reducer (63).