KR-20260065208-A - Feed supply system for contained driving unit of feed line

Abstract

The present invention relates to a feed supply system equipped with a feed line driving unit and a method for manufacturing the same. The configuration comprises: a feed storage device in which a plurality of feed dispensers are installed in alignment at regular intervals in a livestock barn according to the scale of rearing, and a plurality of feed dispensers are connected via pipelines to supply powdered or solid granular compound feed to a livestock barn such as a cattle barn or pig barn; a feed storage device in which a plurality of feed dispensers operate to control the supply amount of feed through a supply hopper via a pipeline and transmit it to a conveying device; a control device that controls the operation of a conveying device connected to a plurality of pipelines via the supply hopper of the feed storage device by checking the status information of the input or remaining data of the compound feed in the livestock barn using a sensing device, and by allowing the compound feed to be conveyed through the pipeline by the return disc of the disc wire of the conveying device via the operation of a driving device for a time set by a timer, or by conveying it to a feed container through each feed dispenser in the livestock barn; and a drive gear that is linked with the conveying device to convey the compound feed stored in the feed tank of the feed storage device to the livestock barn via a pipeline. The apparatus is characterized by comprising: a driving device that pushes and conveys feed by rotating a return disc formed at regular intervals on the disc wire of the conveying device according to operation; a conveying device in which a plurality of pipelines connected by long metal circular pipes are connected by a connecting joint, and a disc wire connected to the return disc is inserted and rotated within the pipeline in a pipe-like form to discharge compound feed in the form of powder or solid granules; a sensing device installed on one side of a feed trough inside a livestock barn to detect the amount of feed input into the feed trough, which detects the remaining feed or the amount of feed input inside the feed trough to check whether the set threshold amount of each feed trough is met or whether the feed threshold of the feed in the feed trough is exceeded, and transmits status information of the feed amount of each feed trough to the control device so that the supply of compound feed from the conveying device is regulated through the control device; and a timer that operates the disc wire of the conveying device and the sensing device according to the operation of the driving device to supply compound feed from the feed storage device only for a set time.

Inventors

• 이황석
• 임봉환

Assignees

• 라이프이엔지 주식회사

Dates

Publication Date

20260508

Application Date

20241101

Claims (3)

1. A feed storage device (100) that operates such that, depending on the scale of rearing, a plurality of feed dispensers are installed in a livestock barn at regular intervals and a plurality of feed dispensers are connected via a pipeline (700) to supply powdered or solid granular compound feed to a livestock barn in a cow barn or pig barn, and the plurality of feed dispensers are operated to control the amount of feed supplied through a supply hopper via the pipeline (700) and transmit it to a transfer device (400). A control device (200) that controls the operation of a conveying device (400) connected to a plurality of pipelines (700) through a supply hopper of a feed storage device (100) by checking the status information of the input or remaining data of the compound feed in the livestock barn of a sensing device (500) and, for a time set by a timer (600), conveying the compound feed through the pipeline (700) by the return disc (450) of the disc wire (440) of the conveying device (400) through the operation of a driving device (300) or conveying it to a feed container through each feed dispenser of the livestock barn. A driving device (300) that moves the feed by pushing it, in conjunction with a transfer device (400) to transfer the compound feed stored in the feed tank of the feed storage device (100) through the pipeline (700) according to the control signal of the above-mentioned control device (200), and rotates the return disc (450) formed at regular intervals on the disc wire (440) of the transfer device (400) according to the operation of the drive gear (330). A conveying device (400) in which a plurality of pipelines (700) connected by long metal circular pipes are connected by a connecting joint (710) and a disc wire (440) connected to a return disc (450) is inserted and rotated within the pipeline (700) in the form of a pipe to excrete a compound feed in the form of powder or solid granules. A detection device (500) installed on one side of a feed container in a livestock barn to detect the amount of feed input into the feed container, detects the remaining feed or the amount of feed input into the feed container to check whether the set threshold amount of each feed container is exceeded or to check whether the feed threshold of the feed container is exceeded, and transmits status information of the feed amount of each feed container to the control device (200) so that the supply of compound feed from the transfer device (400) is controlled through the control device (200). A feed supply system having a feed line driving unit, characterized by comprising a timer (600) that operates the disk wire (440) and the detection device (500) of the transfer device (400) according to the operation of the driving device (300) only for a time set according to the control signal of the above-mentioned control device (200).
2. In Article 1, The above driving device (300) The drive gear (330) installed inside the conveying device (400) drives the compound feed flowing in through the above pipeline (700) according to the operation of the drive motor (310), and a reduction gear (350) connected to the drive shaft (420) of the conveying device (400) by the drive motor (310) provided on one side of the outer side is provided so that the drive gear (330) is coupled to the reduction gear (350) through the drive shaft (420) of the conveying device (400), and the power of the drive motor (310) is transmitted to the drive gear (330) through the reduction gear (350), and the drive gear (330) that receives power through the reduction gear (350) rotates and sequentially engages with the return discs (450) formed at regular intervals on the disc wire (440) of the conveying device (400), thereby pushing and moving the disc wire (440). The transfer device (400) A drive unit (410) that operates by stacking two cover-shaped cases, storing a drive gear (430) that holds a portion of a disc wire (440) within a unit cover (460) configured to be detachable, and connecting to a drive motor (310) of a drive device (300) to operate the disc wire (440) at each corner of a pipeline (700), and having the drive gear (430) axially supported to operate the disc wire (440) so that the condensed portion of the compound feed flowing in in the form of powder or solid granules is dispersed. A feed supply system equipped with a feed line drive unit, characterized by comprising a disc wire (440) that is configured to be drivable by being formed by connecting several steel wires, each having a plurality of return discs (450) fixedly mounted at equal intervals, to a certain length using a joint fitting, so as to engage the return discs (450) with a drive gear (430), and then circulatingly hanging between each drive gear (430) at the corners.
3. In Article 1, The above compound feed comprises 20 to 40% by weight of oyster shell powder, obtained by washing oyster shells, immersing them in methyl alcohol to remove salt and impurities, adding water for additional washing, removing water using a centrifuge, and calcining to grind to a size of 400 mesh; 30 to 50 parts by weight of rice bran; 10 to 30% by weight of beet pulp; and 10 to 20% by weight of cottonseed, mixed with 3 to 9% by weight of a fermentation agent and fermented to obtain a semi-solid fermented product by drying to a moisture content of approximately 10 to 20%, followed by freeze-drying to obtain a dried powder; and, respectively, hot-air drying and powdering of Angelica gigas extract residue and Ginseng extract residue, mixing the herbal medicine extract residue mixed in equal proportions with sugar, inoculating with cultured fermentation microorganisms, culturing, and then drying to a moisture content of approximately 10 to 20% to obtain a semi-solid fermented product, followed by freeze-drying to obtain a dried powder; Seaweed and kelp are soaked in water to remove salt, then each is hot-air dried and powdered; the seaweed and sugar are mixed in equal proportions, then cultured with cultured fermentation microorganisms, the supernatant is taken after centrifugation, and the seaweed fermentation product is obtained by concentrating under reduced pressure, and then freeze-dried to obtain dried seaweed fermentation product powder; and an organic mineral is obtained by chelating any one of the inorganic minerals selected from chromium (Cr), zinc (Zn), iron (Fe), and copper (Cu) with an amino acid; A feed supply system equipped with a feed line driving unit, characterized by being composed of 31.78 wt% fermented oyster shell extract, 16.24 wt% fermented herbal medicine extract, 12.39 wt% fermented seaweed extract, 9.36 wt% organic mineral, 9.17 wt% iron sulfate, 7.42 wt% processed sulfur, and 13.29 wt% water, then additionally mixing and coating with 0.35 wt% liquid paraffin, compressing into tablets of a certain size, and drying with hot air to form a solid granule.

Description

Feed supply system equipped with a feed line driving unit The present invention relates to a feed supply system equipped with a feed line driving unit, wherein a disc wire is inserted into a feed supply line pipe for raising cattle or pigs, and the disc wire is driven to return feed introduced into the line pipe from a feed supply device and supply it to each feed dispenser. In addition, the present invention relates to a feed supply system equipped with a feed line driving unit capable of conveying compound feed by pushing the feed with the discs, wherein discs are fixed at equal intervals to a disc wire installed inside a transfer pipe in the form of a spherical ball of a feed line, and the disc wire installed in a circulating structure inside the transfer pipe moves entirely inside the transfer pipe. Recently, with the improvement of national income and cultural standards, the demand for high-quality livestock products with excellent texture and taste has been increasing. Consequently, the domestic livestock industry is conducting various studies to improve the quality of feed supplied to livestock in order to reduce production costs and produce high-quality livestock products at affordable prices, thereby enabling them to compete with imported products. In particular, ruminants such as cattle are herbivores, including beef cattle for meat production and dairy cows for milk production, and use plants such as pasture as their main energy source. However, for the purpose of improving productivity, plants such as pasture are mixed with cereal feeds such as corn, barley, beet pulp, and cottonseed as energy sources and supplied. Recently, total mixed ration (TMR) consisting of a single feed made by mixing roughage and concentrate feed is being supplied. Complete mixed feed is manufactured by mixing roughage and concentrate feed in appropriate proportions, taking into account the nutritional and physiological characteristics of ruminants. It is also manufactured by mixing roughage consisting of solid fibrous material to supplement the fibrous material lacking in concentrate feed. As a result, when livestock with rumen, such as cattle or sheep, consume the feed, the ingested feed remains in the stomach for a long time, allowing it to be properly agitated by gastric motility and fermented by the action of various bacteria or enzymes in the stomach, thereby enabling sufficient absorption of nutrients. Meanwhile, regarding compound feed, since supplying large quantities of feed manually in pig farms, cattle barns, and poultry farms where livestock are raised on a large scale incurs excessive labor costs, devices capable of automatically supplying feed are installed and operated in pig farms, cattle barns, and poultry farms. The automatic feed supply device is equipped with a feed storage tank for storing feed, and a hopper is installed at the bottom of the feed storage tank, and the hopper is equipped with a feed discharge port. Additionally, both ends of a transfer pipe are connected to the discharge port and the recovery port of the hopper, respectively. In other words, the transfer pipe is configured to be arranged along the feed supply locations inside the livestock barn, so the feed discharged through the hopper outlet circulates along the transfer pipe and is supplied sequentially to various feed supply locations in the barn. Consequently, any feed that is not supplied remains as a residue in the transfer pipe. As the feed remaining in the transfer pipe accumulates, it undergoes spoilage and decay, which can have a negative impact on the balanced growth and development of livestock that consume it. Furthermore, since a single type of feed stored in the feed storage tank is transported through a single line of transfer pipes and supplied to the feed troughs in the livestock barn, it exhibited functional limitations, such as the inability to supply a variety of feeds to livestock or to supply different types of feed according to the different growth stages of the livestock species. In addition, the installation of the feed supply device's transfer pipe and the disc wire installed inside it is complex, which may lead to increased or decreased costs for smooth feed supply or equipment installation, thereby imposing an installation burden on farms. Accordingly, the applicant intends to propose a feed supply method that can facilitate smooth transport and eliminate spoilage and decay of the feed by providing the supplied compound feed in a ball shape in a pipeline, containing components such as tourmaline, silica, maifan stone, and guimunsa stone. [Related Technical Literature] 1. Feed supply system and control method thereof (Patent Registration No. 10-1319837) 2. Feed supply automatic control system (Patent Registration No. 10-2562759) FIG. 1 is a configuration diagram of a feed supply system equipped with a feed line driving unit according to the present invention. FIG. 2 is a state diagram illustrating the con