CN213669847U - Equipment for removing ferromagnetic impurities from cattle feed - Google Patents

Abstract

The utility model discloses a device for removing ferromagnetic impurities from cattle feed, which is provided with a frame; the conveyer belt is installed on the rack, the feed discharging hopper is arranged above the rear portion of the conveyer belt, and the collecting box is arranged below the front end of the conveyer belt. The fodder falls into the conveyer belt through fodder hopper down, is conveyed forward in the collecting box by the conveyer belt. In the conveying process, a magnetic roller is arranged above the front part of the conveying belt to absorb magnetic impurities in the feed in the conveying process; the magnetic impurities on the magnetic roller are scraped and collected by a scraper arranged in front of the magnetic roller. The utility model discloses effectively get rid of the ferromagnetism impurity in the ox fodder, work efficiency is high.

Description

Equipment for removing ferromagnetic impurities from cattle feed

Technical Field

The utility model relates to a livestock-raising field is an equipment that ferromagnetic impurity was got rid of to cattle feed particularly.

Background

The traumatic pericarditis of the cattle is common clinically and is mainly caused by puncture of slender metal foreign bodies from the reticulum, the cattle is chewed roughly and swallowed quickly when eating, and the oral mucosa of the cattle is distributed with a plurality of cornified nipples, so that the cattle feels dull to hard irritants such as iron nails, iron wires, glass slides and the like, and therefore, sharp objects are easy to take into the stomach. And because the stomach and the pericardium are connected by the thin diaphragm, when the stomach contracts, a sharp object usually pierces the stomach and the diaphragm to directly penetrate the pericardium and the heart, and microorganisms in the stomach invade along with the stomach, so that traumatic pericarditis is caused, and cattle death and serious economic loss can be caused if rescue is not performed in time.

The best way to prevent the disease in the cattle farm at present is to enhance the feeding management work and prevent the metal foreign matters from being mixed in the feed. In the current cattle farm, due to scale reasons, staff of the farm need to manage daily living of hundreds or even thousands of cattle, feed thousands or even thousands of jin every day, the work is heavy, and the two conditions of mixing iron wires and the like in the feed production process and ferromagnetic impurities scattered in the feed during daily maintenance of the cattle farm are main causes of the disease through clinical statistics of veterinarians. Therefore, the daily management of a cattle farm urgently needs a device which can detect whether thousands or even thousands of kilograms of feed contain ferromagnetic impurities and is related to the ferromagnetic impurities so as to replace the traditional method of visual search and manual touch detection in work.

SUMMERY OF THE UTILITY MODEL

Aiming at the problems, the invention provides equipment for removing ferromagnetic impurities from cattle feed, which can quickly detect the existence of iron products in the feed.

The utility model discloses ferromagnetic impurity's equipment is got rid of to ox fodder installs the conveyer belt in this equipment rack, and conveyer belt rear portion top sets up hopper under the fodder, and conveyer belt front end below sets up the collecting box. A magnetic roller is arranged above the front part of the conveyor belt; a scraper is arranged in front of the magnetic roller.

From this fodder falls into the conveyer belt through fodder hopper down, is conveyed forward to the collecting box in by the conveyer belt. In the conveying process, a magnetic roller is arranged above the front part of the conveying belt to adsorb magnetic impurities in the feed in the conveying process; ferromagnetic impurities on the magnetic roller are scraped and collected by a scraper arranged in front of the magnetic roller.

The utility model has the advantages that:

1. the utility model discloses ferromagnetic impurity's equipment is got rid of to ox fodder improves work efficiency that can be very big, reduces the manpower, and the existence of ironwork in the fodder is examined out most mainly fast, avoids the emergence of traumatic pericarditis, can retrieve certain economic loss for the raiser.

Drawings

Fig. 1 is the overall structure schematic diagram of the device for removing ferromagnetic impurities from cattle feed.

Fig. 2 is the utility model discloses the equipment overall structure of ferromagnetic impurity is got rid of to ox fodder looks sideways at the schematic diagram.

In the figure:

1-frame 2-conveyer 3-feed discharge hopper

4-magnetic roller 5-scraper 6-collecting box

101-bottom plate 102-side plate 103-leg

201-conveying motor 202-conveying belt 203-front conveying roller

204-rear transport roller 301-web 401-magnetic roller motor

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The utility model discloses ferromagnetic impurity's equipment is got rid of to ox fodder, as shown in fig. 1 fig. 2, hopper 3, magnetism roller 4, scraper blade 5, collecting box 6 under frame 1, conveyer 2, fodder.

The frame 1 has a bottom plate 101, side plates 102 and legs 103. Wherein, the landing leg 103 is installed to bottom plate 101 level setting, anterior and rear portion bottom surface left and right sides, is used for with the utility model discloses whole equipment rack locates ground. The side plates 102 are installed on the left and right sides of the bottom plate 101, and the conveyor 2 is installed between the side plates 102 and the bottom plate.

The conveying device 2 includes a conveying motor 201, a conveying belt 202, a front conveying roller 203, and a rear conveying roller 204. The front conveying roller 203 and the rear conveying roller 204 are axially arranged along the left-right direction and are respectively positioned at the front part and the rear part of the frame 1, and two ends of the roller shaft are respectively connected with the two side plates 102 through bearings. The conveyor belt 202 is looped over the front conveyor roller 203 and the rear conveyor roller 204, and supported and tensioned by the front conveyor roller 203 and the rear conveyor roller 204. The body end of the conveying motor 201 is fixedly mounted on the outer wall of one side plate 102, and the output shaft is coaxially fixed at the end of the roller shaft of the front conveying roller 203. Thereby driving the front conveying roller 203 to rotate by the conveying motor 201, and further driving the conveying belt 202 to convey.

Hopper 3 is used for the unloading of fodder under the fodder, and hopper 3 and conveyer belt 202 gapped under the fodder can reach, and the decline volume is determined by conveyer belt 202 speed and clearance, and the fodder falls on the belt via the storage hopper promptly, sets up in frame 1 rear portion, is located the conveyer belt 202 top. Connecting plates 301 are mounted on the left side and the right side of the feed discharging hopper 3, and the bottoms of the connecting plates 301 are respectively fixed on the left side plate 102 and the right side plate 102. The fodder can fall onto the conveyor belt 202 through the fodder discharge hopper 3, and the fodder is conveyed to the front of the frame 1 by the conveyor belt 202. The feed storage head 3 is funnel-shaped and is provided with 4 inclined planes in the circumferential direction, the included angle between each inclined plane and the horizontal plane is 45 degrees, and the vertical distance between the outlet of the feed discharging hopper 3 and the conveyor belt 202 is 10cm, so that the feed slowly falls onto the conveyor belt 202 in the feed discharging hopper 3.

In the feed conveying process, the magnetic roller 4 and the scraper 5 are arranged at the front part of the frame 1 to remove the ferromagnetic impurities in the feed. The magnetic roller 4 is provided with a cylindrical shell 401, roller shafts are arranged at two ends of the shell, and annular neodymium iron boron 402 is fixedly adhered to the inner circumferential wall of the inner part of the shell through glue. Roller shafts at two ends of the magnetic roller 4 are respectively arranged on the protruding parts designed on the two side plates 102 through bearings, so that the magnetic roller 4 is positioned above the conveyor belt 202, has a vertical distance of 100mm with the upper surface between the conveyor belt 202 and is used for passing feed. The magnetic roller 4 is driven to rotate by a magnetic roller motor 401; the body end of the magnetic roller motor 404 is fixedly mounted on the protruding part designed on the side plate 102, and the output shaft is fixed with the end part of the roller shaft of the magnetic roller 4. Therefore, when the feed is conveyed to the lower part of the magnetic roller 4, ferromagnetic impurities in the feed can be adsorbed on the surface of the magnetic roller 4.

The scraper 5 is arranged in front of the magnetic roller 4 and is of a rectangular plate-shaped structure, and the length of the long edge in the left-right direction is equal to the distance between the two side plates. The left and right sides of the scraper 5 are fixed on the protruding parts of the two side plates 102 through screws, so that the front side of the scraper 5 inclines downwards by 40 degrees, and the scraper 5 is further provided with a baffle 501 along the front side and the left and right sides, so as to prevent ferromagnetic impurities scraped by the scraper 5. The rear side of the scraper 5 is spaced from the outer surface of the magnetic roller 4 by 1 mm. In the rotation process of the magnetic roller 4, the ferromagnetic impurities adsorbed on the magnetic roller 4 can be scraped by the scraper, so that the ferromagnetic impurities are separated to the scraper.

The collecting box 6 is arranged below the front end of the conveyor belt and used for storing the feed filtered by the ferromagnetic impurities.

Claims (4)

1. The utility model provides an equipment of ferromagnetic impurity is got rid of to ox fodder, includes the frame, its characterized in that: a conveyor belt is arranged on the frame at the rear part of the rack, a feed discharging hopper is arranged above the rear part of the conveyor belt, and the vertical distance between the feed discharging hopper and the conveyor belt is 10 cm; a collecting box is arranged below the front end of the conveyor belt; a magnetic roller is arranged above the front part of the conveyor belt, and the vertical distance between the magnetic roller and the upper surface of the conveyor belt is 100 mm; a scraper is arranged in front of the magnetic roller, and a distance of 1mm is formed between the rear side edge of the scraper and the outer surface of the magnetic roller; the front side of the scraper inclines downwards by 40 degrees;

the magnetic roller is provided with a cylindrical shell, and roller shafts are arranged at two ends of the shell; the roller shafts at the two ends of the magnetic roller are respectively arranged on the protruding parts designed on the two side plates through bearings; the magnetic roller is driven to rotate by a magnetic roller motor; the machine body end of the magnetic roller motor is fixedly arranged on a protruding part designed on a side plate, and an output shaft is fixed with the end part of a roller shaft of the magnetic roller;

the scraper is arranged in front of the magnetic roller and is of a rectangular plate-shaped structure, and the length of the long side in the left-right direction is equal to the distance between the two side plates; the left and right sides of the scraper are fixed on the protruding parts of the two side plates through screws.

2. The apparatus for removing ferromagnetic impurities from cattle feed of claim 1, wherein: the circumferential side wall of the feed blanking hopper is an inclined plane which forms an included angle of 45 degrees with the horizontal plane.

3. The apparatus for removing ferromagnetic impurities from cattle feed of claim 1, wherein: the inner wall of the magnetic roller is fixed with annular neodymium iron boron.

4. The apparatus for removing ferromagnetic impurities from cattle feed of claim 1, wherein: the front side and the left and right sides of the scraper are provided with baffles.

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