A lutein quantitative mixing and feeding device for laying hen farms
By setting up independent chambers and linkage mechanisms in the feeding device of egg-laying hen farms, the problem of uneven mixing of lutein and chicken feed has been solved, achieving uniform feeding and flexible adjustment, simplifying the cleaning process, and improving the consistency of egg yolk color and cleaning efficiency.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Applications(China)
- Current Assignee / Owner
- FLOWER RES INST OF YUNNAN ACAD OF AGRI SCI
- Filing Date
- 2026-03-26
- Publication Date
- 2026-06-23
AI Technical Summary
In existing technologies, lutein is not mixed evenly with chicken feed, resulting in inconsistent egg yolk color. Furthermore, the feeding device cannot flexibly adjust the ratio, and cleaning up residual feed is time-consuming and labor-intensive.
A lutein quantitative mixing and feeding device for egg-laying hen farms was designed. The device has two independent chambers in the processing compartment, and uses a linkage mechanism to achieve uniform mixing of lutein and chicken feed. The feeding ratio is adjusted by an adjusting rod, and the remaining feed in the chicken feed trough is cleaned by a feed limiting component.
It achieves uniform mixing of lutein and chicken feed, improves the consistency of egg yolk color, and simplifies the cleaning process by adjusting the ratio according to the age, breed and season of the laying hens, thus improving the convenience of feeding and cleaning efficiency.
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Figure CN122250397A_ABST
Abstract
Description
Technical Field
[0001] This invention relates to the field of feed processing technology, specifically to a device for quantitative mixing and feeding of lutein for laying hen farms. Background Technology
[0002] In the modern egg-laying hen industry, egg quality is one of the key factors determining economic benefits. Yolk color is one of the most direct indicators consumers use to judge egg quality, with deeper, more natural orange-yellow yolks being more favored by the market. Lutein is the core natural pigment that achieves this color, and farmers typically feed it to laying hens by mixing lutein additives with regular feed.
[0003] However, in actual operation, farms currently face the following common technical problems: (1) Most farmers need to use mixing equipment (such as feed mixers, agitators, etc.) to mix lutein with chicken feed in a certain proportion before feeding it into the feed. However, due to the differences in weight and size between lutein and feed, lighter substances are on top and heavier substances are on the bottom, smaller substances are on top and larger substances are on the bottom. This still cannot effectively solve the problem of uneven feed distribution, resulting in uneven intake by laying hens, causing the yolk color to vary and affecting product quality.
[0004] (2) The feeding device cannot flexibly adjust the ratio of lutein to chicken feed according to factors such as the age, breed and season of the laying hens. Instead, it is difficult to ensure that the lutein and chicken feed are evenly distributed by manual or mechanical mixing in advance, which may lead to uneven lutein ratio at different feeding positions.
[0005] (3) The leftover feed in the chicken feed trough should be cleaned up in time. If it is not cleaned up in time, it will easily become moldy and affect the health of the laying hens. Manual cleaning is extremely energy-consuming. Summary of the Invention
[0006] To achieve the above objectives, the present invention provides the following technical solution: a lutein quantitative mixing and feeding device for egg-laying hen farms, comprising a movable platform, a docking groove extending through the bottom of the movable platform, and a support frame fixed on the docking groove.
[0007] An auxiliary material cover is movably fitted inside the docking groove. The auxiliary material cover and the support frame are connected by an electric push rod. At the same time, an output groove that runs through the bottom of the auxiliary material cover is opened on the top.
[0008] A processing chamber is fixed on the support frame. Inside the processing chamber, two chambers are opened parallel to each other along its length: processing chamber one at the top and processing chamber two at the bottom. A transmission port is provided between the two chambers. A feed chute penetrating the side of the processing chamber is provided on the side of the two chambers. A discharge chute is opened at the bottom of processing chamber two. The discharge chute is connected to the output chute through a channel pipe.
[0009] The first processing chamber is movably connected to a drug delivery mechanism for quantitatively dispensing lutein, and the second processing chamber is movably connected to a feed delivery mechanism for dispensing mixed feed.
[0010] The moving platform is equipped with a drive assembly for synchronously driving the internal mechanisms of the two chambers.
[0011] Two sets of stabilizing components are symmetrically arranged on the side of the mobile platform. Each set of stabilizing components includes a slide rail frame fixed to the side of the mobile platform, and a guide rail is slidably connected inside the slide rail frame.
[0012] Preferably, the drug delivery mechanism includes a rotating roller movably sleeved in the processing chamber, a plurality of drug inlet slots are distributed on the side of the rotating roller, a limiting plate is movably sleeved in the drug inlet slot, and an adjusting rod is threaded to both ends of the limiting plate, with one end of the adjusting rod rotatably connected in the drug inlet slot.
[0013] Preferably, the feed dispensing mechanism includes two rotating wheels that are movably fitted inside the processing chamber two, and a partition plate is fixed between the two rotating wheels.
[0014] Preferably, the drive assembly includes two sets of drive mechanisms disposed on the side of the stabilizing assembly. Each set of drive mechanisms includes a stabilizing side plate symmetrically disposed at one end of a slide rail frame. A rotating wheel is rotatably connected between the stabilizing side plates and the rotating wheel meshes in the guide rail.
[0015] Preferably, one of the drive mechanisms includes a first connecting rod fixed on a rotating wheel, a drive gear fixed at the top of the first connecting rod, a drive toothed belt meshing on the side of the drive gear, a transmission gear meshing inside the drive toothed belt, and a second connecting rod fixed to the shaft of the transmission gear.
[0016] Preferably, the drive assembly includes a speed change mechanism, which includes a protective box fixed to one end of the top of the moving platform. Inside the protective box, there are two meshing gear discs: a large gear disc at one end and a small gear disc at the other end. The large gear disc is fixed to one end of the connecting rod.
[0017] Preferably, the drive assembly includes a transmission mechanism, which includes a support rod one that penetrates the protective box and is fixed to the small gear shaft core, and a support rod two that penetrates the machining cavity two and is fixed to the shaft core of a rotating wheel thereon.
[0018] One end of support rod one is fixed with bevel tooth one, and one end of support rod two is fixed with bevel tooth two. Bevel tooth one and bevel tooth two mesh with each other.
[0019] Preferably, the drive assembly includes a linkage mechanism, which includes a swing arm fixed to both sides of the support rod, and a toggle button fixed to one end of the swing arm.
[0020] Preferably, the linkage mechanism further includes a support rod three that passes through the processing cavity and is fixed to one end of the rotating roller. A transmission disk is fixed to the side of the support rod three. Multiple transmission grooves are distributed on the side of the transmission disk. A toggle button is movably connected in the transmission groove at a set angle and drives the transmission disk to rotate.
[0021] Preferably, a limiting component is provided on the moving platform. The limiting component includes connecting plates symmetrically arranged at both ends of the moving platform, a moving plate is movably connected to the connecting plates, a positioning bolt is threadedly connected to the connecting plates, and a limiting groove is opened on the moving plate, with the positioning bolt slidably connected in the limiting groove.
[0022] Compared with the prior art, the present invention provides a lutein quantitative mixing and feeding device for egg-laying hen farms, which has the following beneficial effects: 1. This egg-laying hen farm uses a lutein quantitative mixing and feeding device. The processing chamber has two independent columnar chambers, each responsible for feeding different substances. When the feed feeding mechanism in one chamber alternates between feeding and discharging, a linkage mechanism drives the drug feeding mechanism to operate intermittently. This achieves a feeding, rotating, discharging, and rotating operation mode for lutein, ensuring that the lutein filled in the installation trough is evenly input into the feed to be output before being mixed with the feed. This ensures the uniformity and amount of lutein mixed with chicken feed in the chicken feed trough.
[0023] 2. The egg-laying hen farm uses a lutein quantitative mixing and feeding device. The height of the limiting plate can be adjusted by rotating the adjustment rod inside the feeding trough, which controls the volume inside the feeding trough. This allows for flexible setting of the ratio of lutein to chicken feed based on factors such as the age, breed, and season of the laying hens, thereby effectively improving the quality of egg production.
[0024] 3. This egg-laying hen farm uses a lutein quantitative mixing and feeding device. By installing feed limiting components at both ends of the moving platform, and adjusting the extension length of the moving plate, different feeding methods can be met. When the moving plate in the forward direction is in contact with the bottom of the chicken feed trough and moves with the moving platform, it can scrape and clean the remaining feed in the chicken feed trough. At the rear end, the moving plate at the set height can evenly distribute the newly added feed. When the moving plate in the forward direction is level with or slightly higher than the rear end moving plate, the remaining chicken feed is not scraped off, and new feed can be added on top of it, which effectively improves the convenience of cleaning and feeding. Attached Figure Description
[0025] Figure 1 This is a schematic diagram of the overall structure of the device of the present invention; Figure 2 This is a schematic diagram of the overall partial structure of the device of the present invention; Figure 3 This is a schematic diagram of the connection structure between the mobile stage and the processing chamber of the present invention; Figure 4 This is a schematic diagram of the overall side cross-sectional structure of the device of the present invention; Figure 5 This is a schematic diagram of the overall bottom structure of the device of the present invention; Figure 6 This is a schematic diagram of the drug delivery mechanism and feed delivery mechanism of the present invention; Figure 7 This is a schematic diagram of a partial internal structure of the feed trough of the present invention; Figure 8 This is a schematic diagram of the overall internal structure of the speed change mechanism of the present invention.
[0026] The attached diagram lists the components represented by each number as follows: 1. Moving platform; 11. Docking groove; 12. Support frame; 2. Auxiliary material cover; 21. Electric push rod; 22. Output slot; 3. Processing chamber; 31. Processing cavity one; 32. Processing cavity two; 33. Conveyor port; 34. Feed trough; 35. Drug dispensing mechanism; 351. Rotating roller; 352. Drug inlet; 353. Limiting plate; 354. Adjusting rod; 36. Feed dispensing mechanism; 361. Rotating wheel; 362. Divider plate; 37. Discharge trough; 371. Channel pipe; 4. Drive assembly; 41. Drive mechanism; 411. Stabilizing side plate; 412. Rotating wheel; 413. Linkage rod one; 414. Drive gear; 415. Drive belt; 416. Transmission gear; 417. Linkage rod two; 42. Speed change mechanism; 421. Protective box; 422. Large gear plate; 423. Small gear plate; 43. Transmission mechanism; 431. Support rod one; 432. Support rod two; 433. Bevel gear one; 434. Bevel gear two; 44. Linkage mechanism; 441. Swing rod; 442. Toggle button; 443. Support rod three; 444. Transmission disc; 445. Transmission groove; 5. Stabilizing components; 51. Slide rail frame; 52. Guide rail; 6. Material limiting component; 61. Connecting plate; 611. Positioning bolt; 62. Moving plate; 621. Limiting slide. Detailed Implementation
[0027] The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of the present invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of the present invention.
[0028] Example 1 Please see Figure 1 - Figure 8 As shown in the figure, the lutein quantitative mixing and feeding device for egg-laying chicken farms proposed in this embodiment includes a metal moving platform 1 with an inverted "U" shaped cross section. The moving platform 1 has a docking groove 11 that runs through its bottom. A rectangular support frame 12 made of four hollow square tubes is fixed on the top edge of the docking groove 11.
[0029] The auxiliary material cover 2, which is movably fitted inside the docking groove 11, matches the shape inside the moving platform 1. At the same time, two sets of electric push rods 21 are symmetrically installed between the auxiliary material cover 2 and the support frame 12 (the cylinder of the push rod is fixed to the bottom of the support frame 12, and the output end of the push rod is fixed to the corresponding surface of the auxiliary material cover 2). Meanwhile, the top of the auxiliary material cover 2 is provided with a strip-shaped output groove 22 that runs through its bottom. The auxiliary material cover 2 is controlled by the extension and retraction movement of the output end of the electric push rod 21 to adapt to different feeding environments and the distance between the discharge port and the feed trough. Thus, when the feed is fed from the output groove 22 into the bottom feed trough, the feed impacts the feed trough, causing dust to scatter and feed to splash out.
[0030] A processing chamber 3 is fixed on the support frame 12. Inside the processing chamber 3, two cylindrical hollow chambers are opened parallel to each other along its length: a processing chamber 31 at the top for storing and quantitatively dispensing lutein, and a processing chamber 32 at the bottom for storing and mixing feed. The two chambers are connected by a transmission port 33. Both chambers are provided with strip-shaped feed troughs 34 that penetrate the side of the processing chamber 3. The bottom of the processing chamber 32 is provided with a strip-shaped discharge trough 37. The discharge trough 37 is connected to the output trough 22 by a channel pipe 371. This allows the processing chamber 31 to receive lutein through the corresponding feed trough 34, while the processing chamber 32 receives feed through the corresponding feed trough 34. The lutein in the processing chamber 31 falls into the chicken feed in the processing chamber 32 in a strip-like distribution through the bottom transmission port 33 for mixing. The mixed feed is then discharged from the discharge trough 37 and conveyed to the output trough 22 through the channel pipe 371.
[0031] A drug delivery mechanism 35 for quantitatively dispensing lutein is movably connected within processing chamber 31. This mechanism includes a rotating roller 351 movably fitted inside processing chamber 31 (the roller's diameter and length match the inner diameter and length of processing chamber 31 to ensure the stability of the mechanism's rotation). Six strip-shaped drug inlet grooves 352 are distributed on the side of the rotating roller 351. The size of the drug inlet grooves 352 matches that of the transmission port 33. As the rotating roller 351 rotates, when each drug inlet groove 352 aligns with the corresponding side feeding groove 34, lutein can be directly fed into the drug inlet groove 352. With continued rotation, when the drug inlet groove 352 faces downward and aligns with the transmission port 33, the lutein inside is fed into processing chamber 32.
[0032] In addition, a limiting plate 353 is movably sleeved inside the drug inlet tank 352. Adjusting rods 354 are threadedly connected to both ends of the limiting plate 353. One end of the adjusting rod 354 is rotatably connected to the corresponding position inside the drug inlet tank 352 through a bearing. By rotating the adjusting rod 354 in the clockwise and counterclockwise directions, the height of the limiting plate 353 inside the drug inlet tank 352 can be adjusted by using the thread meshing force, thereby expanding or shrinking the effective volume inside the tank. This allows the amount of lutein dispensed each time to be controlled according to the actual dispensing needs.
[0033] A feed dispensing mechanism 36 for dispensing mixed feed (a mixture of lutein and feed) is movably connected inside the second processing chamber 32. This mechanism includes two rotating wheels 361 movably fitted inside the second processing chamber 32. A partition plate 362 is fixed between the two rotating wheels 361 at an incline (the diameter of the wheels matches the inner diameter of the second processing chamber 32, and the partition plate 362 ensures that the overall length of the mechanism matches the length inside the second processing chamber 32, thus ensuring the rotational stability of the mechanism). The partition plate 362 is used to divide the interior of the second processing chamber 32 into two independent spaces, so that the feed dispensing mechanism 36 completes one feeding cycle every time it rotates.
[0034] Two sets of stabilizing components 5 are symmetrically arranged on the side of the moving platform 1. Each set of stabilizing components 5 includes a slide rail frame 51 fixed to the side of the moving platform 1, and a guide rail 52 is slidably connected in the slide rail frame 51. When the moving platform 1 is controlled by a push-pull or external drive mechanism as a power source, it moves along the path set by the guide rail 52.
[0035] It should be further explained that the two guide rails 52 can be pre-installed along the edges of the chicken feed trough by bolts or welding, thereby pre-setting the feeding route. The distance between the two guide rails 52 is always consistent (even when the path of the rail body is bent, the same distance is maintained), thereby ensuring the stability of the displacement movement of the moving platform 1. At the same time, the opposite outer surfaces of the two guide rails 52 are provided with tooth profiles.
[0036] The mobile platform 1 is equipped with a drive assembly 4 for synchronously driving the internal mechanisms of the two chambers (drug dispensing mechanism 35 and feed dispensing mechanism 36). This assembly includes multiple functional mechanisms, namely: Four sets of drive mechanisms 41, which ensure the stability of the device movement and provide power, are respectively installed at both ends of the opposite sides of the two stabilizing components 5. Each set of drive mechanisms 41 includes two stabilizing side plates 411 symmetrically arranged on one end of the slide rail frame 51. A rotating wheel 412 is rotatably connected between the symmetrical stabilizing side plates 411 through a bearing. The rotating wheel 412 is engaged in the guide rail 52, so that the device moves smoothly and avoids disengaging from the guide rail.
[0037] Each set of drive mechanisms 41 also includes a first connecting rod 413 fixed on the rotating wheel 412. A drive gear 414 is fixed at the top of the first connecting rod 413. A drive toothed belt 415 meshes with the side of the drive gear 414. A transmission gear 416 meshes with the drive toothed belt 415. A second connecting rod 417 is fixed to the shaft of the transmission gear 416. When the moving table 1 slides on the side of the guide rail 52 via the slide rail frame 51, the rotating wheel 412 drives the drive gear 414 to rotate through the first connecting rod 413. The drive toothed belt 415 on the side drives the transmission gear 416 and the second connecting rod 417 on the shaft to rotate, thereby realizing the transmission of power.
[0038] The transmission mechanism 42 for increasing the power speed includes a protective box 421 fixed to one end of the top of the moving platform 1. Two meshing gear discs are rotatably connected inside the protective box 421: a large gear disc 422 at one end and a small gear disc 423 at the other end. The large gear disc 422 is fixed to one end of the connecting rod 417. When the connecting rod 417 rotates, it drives the large gear disc 422 to rotate and uses the meshing force to drive the small gear disc 423 to rotate in the opposite direction (the transmission principle is based on the fact that the diameter and number of teeth of the large gear disc 422 are greater than the diameter and number of teeth of the small gear disc 423, so that the transmission ratio between the large gear disc 422 and the small gear disc 423 is 1:2).
[0039] The transmission mechanism 43, which transmits kinetic energy after speed change, includes two support rods: a support rod 431 that passes through the protective box 421 and is fixed to the shaft of the small gear 423, with a bevel tooth 433 fixed to one end; and a support rod 432 that passes through the processing cavity 32 and is fixed to the shaft of a rotating wheel 361, with a bevel tooth 434 fixed to one end. The bevel tooth 433 and the bevel tooth 434 mesh with each other. When the small gear 423 rotates, the bevel tooth 433 is driven to rotate via the support rod 431. The meshing force causes the bevel tooth 434 to drive the rotating wheel 361 to rotate via the support rod 432, thereby driving the feed dispensing mechanism 36 to rotate.
[0040] The linkage mechanism 44, which transmits the kinetic energy of the feed dispensing mechanism 36 to the drug dispensing mechanism 35, includes two cooperating components: a swing rod 441 fixed to the side of the second support rod 432, with a toggle button 442 fixed at one end of the swing rod 441; and a third support rod 443, which passes through the first processing cavity 31 and is fixed to one end of the rotating roller 351. A transmission disk 444 is fixed to the side of the third support rod 443. The side of the transmission disk 444 has six transmission grooves 445 distributed circumferentially (six drug inlet grooves 352 are sequentially arranged between adjacent grooves). When the second support rod 432 drives the swing rod 441 to rotate continuously, the toggle button 442 will periodically enter the transmission groove 445 and push its side wall, thereby causing the transmission disk 444 and the rotating roller 351 to rotate intermittently by a fixed angle. This realizes the operation mode of loading, rotating, discharging, and rotating of the drug dispensing mechanism 35, and realizes the quantitative intermittent dispensing of lutein.
[0041] The working principle of the lutein quantitative mixing and feeding device for egg-laying hen farms proposed in this embodiment is as follows: Before use, first slide the slide rail frames 51 on both sides of the moving platform 1 onto the two guide rails 52, then fix the guide rails 52 to the edges on both sides of the chicken feed trough with bolts, and ensure that the guide rails 52 match the path of the chicken feed trough, and that there is a certain gap between the bottom of the guide rails 52 and the top of the chicken feed trough. Then, install the feeding device for lutein and the feeding device for chicken feed on the movable platform (a movable platform driven by manual or electric means), and connect the outlets of the two devices to the corresponding feed troughs 34 of the two chambers of the processing chamber 3 through metal pipes (the shape of the pipe matches the feed trough 34, and the pipe joint is fixed to the edge of the feed trough 34 with bolts so that the pipe is connected to the inside of the trough).
[0042] In use, by pushing the moving platform, the two devices (the lutein feeding device and the chicken feed feeding device) move along the guide rail 52 through the metal pipe, driving the processing chamber 3 and the entire feeding device. During the movement, the rotating wheel 412, under the force of meshing with the tooth profile on the side of the guide rail 52, drives the drive gear 414 above to rotate synchronously. At this time, under the transmission of the drive belt 415, the transmission gear 416 drives the connecting rod 417 to rotate, thereby activating the speed change mechanism 42 to drive the transmission mechanism 43 to run at a speed ratio of 1:2. At this time, the support rod 432 drives the feed feeding mechanism 36 to rotate, regulating the chicken feed in the processing chamber 32. Simultaneously, the support rod 432 also drives the swing rod 441 to rotate, causing its front end to... The knob 442 enters the corresponding transmission groove 445 and, with the rotation direction, pushes the transmission disk 444 to rotate to a set angle, then disengages from the transmission groove 445. In this rotating state, the transmission disk 444 drives the drug delivery mechanism 35 to rotate, so that the lutein in the downward-facing drug inlet 352 is put into the processing chamber 2 32 from the transmission port 33 and is located in an independent space separated by the partition plate 362. As the feed delivery mechanism 36 continues to rotate, the partition plate 362 drives the mixed feed (chicken feed and lutein mixture) in the independent space to be output from the lower discharge trough 37, and then enters the bottom of the auxiliary feed cover 2 from the output trough 22 through the channel pipe 371, and finally falls into the chicken feed trough. With the continuous movement of the moving table 1, the mixed feed is continuously delivered.
[0043] Example 2 Please see Figure 1 - Figure 4 As shown, the lutein quantitative mixing and feeding device for egg-laying chicken farms proposed in this embodiment, based on Embodiment 1, further includes a feed limiting component 6 set on the moving platform 1. This component is used to level the feed inside the chicken feed trough. It includes two shorter connecting plates 61 respectively set at both ends of the moving platform 1. The two connecting plates 61 are set at opposite inclinations. A longer moving plate 62 is movably connected to each connecting plate 61. The shape of the moving plate 62 is the same as the shape inside the chicken feed trough. A positioning bolt 611 is threadedly connected to the connecting plate 61. A limiting groove 621 is opened on the moving plate 62. When the screw of the positioning bolt 611 is in the limiting groove 621, but the nut is not attached to the top surface of the connecting plate 61, the depth of the moving plate 62 into the chicken feed trough can be adjusted. When the positioning bolt 611 is rotated so that its nut is tightly attached to the top surface of the connecting plate 61 (edge of the limiting groove 621), the position of the moving plate 62 is fixed.
[0044] It should be further explained that when the moving plate 62 in the forward direction is attached to the bottom of the chicken feed trough, it can push and clear the original feed in the feed trough and refill the chicken feed trough with new feed (a mixture of chicken feed and lutein).
[0045] The working principle of the lutein quantitative mixing and feeding device for egg-laying chicken farms proposed in this embodiment is as follows: Based on the working principle in Embodiment 1, before the moving platform 1 moves, the depth of the two moving plates 62 extending into the chicken feed trough needs to be set. When the bottom end of the moving plate 62 in the forward direction is attached to the bottom surface of the chicken feed trough, and the moving plate 62 at the opposite end is set to the average height value of the feed output, when the moving platform 1 moves forward, the front moving plate 62 pushes the original remaining chicken feed or mixed feed in the chicken feed trough forward to the end point, cleaning the chicken feed trough. The rear moving plate 62 scrapes the mixed feed currently output and scrapes the feed exceeding the height limit forward. When the height of the moving plate 62 in the forward direction is greater than or equal to the height of the rear moving plate 62, the original feed in the chicken feed trough is not removed during the movement of the moving platform 1, but feed is directly added to the chicken feed trough.
[0046] Although embodiments of the invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the appended claims and their equivalents.
Claims
1. A device for quantitative mixing and feeding of lutein in egg-laying hen farms, characterized in that, Includes a mobile platform (1), on which a docking groove (11) is provided through the bottom, and a support frame (12) is fixed on the docking groove (11). The auxiliary material cover (2) is movably sleeved in the docking groove (11). The auxiliary material cover (2) and the support frame (12) are connected by an electric push rod (21). At the same time, the top of the auxiliary material cover (2) is provided with an output groove (22) that passes through its bottom. The support frame (12) is fixed with a processing chamber (3). The processing chamber (3) has two chambers that are parallel to each other along its length: a processing chamber 1 (31) at the top and a processing chamber 2 (32) at the bottom. A transmission port (33) is provided between the two chambers. The sides of the two chambers are provided with feeding grooves (34) that penetrate the side of the processing chamber (3). The bottom of the processing chamber 2 (32) is provided with a discharge groove (37). The discharge groove (37) is connected to the output groove (22) through a channel pipe (371). The first processing chamber (31) is movably connected to a drug delivery mechanism (35) for quantitative delivery of lutein, and the second processing chamber (32) is movably connected to a feed delivery mechanism (36) for delivery of mixed feed. The mobile stage (1) is equipped with a drive assembly (4) for driving the internal mechanisms of the two chambers to operate synchronously. The side of the mobile platform (1) is symmetrically provided with two sets of stabilizing components (5). Each set of stabilizing components (5) includes a slide rail frame (51) fixed to the side of the mobile platform (1), and a guide rail (52) is slidably connected in the slide rail frame (51).
2. The lutein quantitative mixing and feeding device for egg-laying hen farms according to claim 1, characterized in that: The drug delivery mechanism (35) includes a rotating roller (351) movably sleeved in the processing chamber (31), a plurality of drug inlet slots (352) are distributed on the side of the rotating roller (351), a limiting plate (353) is movably sleeved in the drug inlet slot (352), and an adjusting rod (354) is threadedly connected to both ends of the limiting plate (353), one end of the adjusting rod (354) is rotatably connected in the drug inlet slot (352).
3. The lutein quantitative mixing and feeding device for egg-laying hen farms according to claim 1, characterized in that: The feed dispensing mechanism (36) includes two rotating wheels (361) that are movably fitted inside the processing chamber (32), and a partition plate (362) is fixed between the two rotating wheels (361).
4. The lutein quantitative mixing and feeding device for egg-laying hen farms according to claim 1, characterized in that: The drive assembly (4) includes two sets of drive mechanisms (41) arranged on the side of the stabilizing assembly (5). Each set of drive mechanisms (41) includes a slide rail frame (51) with a symmetrically arranged stabilizing side plate (411) at one end. A rotating wheel (412) is rotatably connected between the stabilizing side plates (411), and the rotating wheel (412) meshes in the guide rail (52).
5. The lutein quantitative mixing and feeding device for egg-laying hen farms according to claim 4, characterized in that: The first drive mechanism (41) includes a first connecting rod (413) fixed on a rotating wheel (412), a drive gear (414) fixed at the top of the first connecting rod (413), a drive toothed belt (415) meshing on the side of the drive gear (414), a transmission gear (416) meshing inside the drive toothed belt (415), and a second connecting rod (417) fixed on the shaft of the transmission gear (416).
6. The lutein quantitative mixing and feeding device for egg-laying hen farms according to claim 4, characterized in that: The drive assembly (4) includes a speed change mechanism (42), which includes a protective box (421) fixed to one end of the top of the moving platform (1). Two meshing gear discs are rotatably connected inside the protective box (421): a large gear disc (422) at one end of its interior and a small gear disc (423) at the other end of its interior. The large gear disc (422) is fixed to one end of the connecting rod (417).
7. A lutein quantitative mixing and feeding device for egg-laying hen farms according to claim 3 or 6, characterized in that: The drive assembly (4) includes a transmission mechanism (43), which includes a support rod (431) that penetrates the protective box (421) and is fixed to the shaft of the small gear plate (423), and a support rod (432) that penetrates the processing cavity (32) and is fixed to the shaft of the rotating wheel (361). One end of the first support rod (431) is fixed with a bevel tooth (433), and one end of the second support rod (432) is fixed with a bevel tooth (434). The bevel tooth (433) and the bevel tooth (434) mesh with each other.
8. The lutein quantitative mixing and feeding device for egg-laying hen farms according to claim 7, characterized in that: The drive assembly (4) includes a linkage mechanism (44), which includes a swing rod (441) fixed to the side of the support rod (432), and a toggle button (442) is fixed at one end of the swing rod (441).
9. A lutein quantitative mixing and feeding device for egg-laying hen farms according to claim 8, characterized in that: The linkage mechanism (44) also includes a support rod (443) that passes through the processing cavity (31) and is fixed to one end of the rotating roller (351). A transmission disk (444) is fixed on the side of the support rod (443). Multiple transmission grooves (445) are distributed on the side of the transmission disk (444). The toggle button (442) is movably connected in the transmission groove (445) at a set angle and pushes the transmission disk (444) to rotate.
10. A lutein quantitative mixing and feeding device for egg-laying hen farms according to claim 1, characterized in that: The moving platform (1) is provided with a limiting component (6). The limiting component (6) includes connecting plates (61) symmetrically arranged at both ends of the moving platform (1). A moving plate (62) is movably connected to the connecting plate (61). A positioning bolt (611) is threadedly connected to the connecting plate (61). A limiting groove (621) is opened on the moving plate (62). The positioning bolt (611) is slidably connected in the limiting groove (621).