CN222845931U - A livestock ration mixing conveying line - Google Patents

Abstract

The utility model provides a livestock ration mixed conveying line, which comprises a central scraper conveyor for vertically conveying coarse fodder, wherein a plurality of coarse fodder transfer boxes are arranged at the feeding end of the central scraper conveyor, a top scraper conveyor for transversely conveying coarse fodder is arranged at the discharging end of the central scraper conveyor, a fodder stirring vehicle is arranged at the discharging end of the top scraper conveyor, and a belt conveyor is arranged at the discharging port of the fodder stirring vehicle. The livestock ration mixed conveying line disclosed by the utility model is used for continuously and quantitatively conveying coarse fodder to the central scraper conveyor through the coarse fodder transfer box, then conveying the coarse fodder to the fodder stirring vehicle through the top scraper conveyor, mixing and stirring the coarse fodder with the fine fodder, conveying the mixed fodder to the scattering vehicle through the belt conveyor, and conveying the mixed fodder to a feeding room for feeding through the scattering vehicle, so that continuous production of the livestock ration is realized, and the mixed fodder is suitable for large-scale comprehensive pastures.

Description

Livestock ration mixing conveying line

Technical Field

The utility model belongs to the technical field of livestock breeding, and particularly relates to a livestock ration mixing conveying line.

Background

Feed for ruminants such as cattle and sheep is generally classified into coarse feed and fine feed. The coarse fodder mainly comprises various green fodder (such as grass, silage, green dry fodder), hay, straw, etc. The feed is rich in cellulose, can promote ruminant function, and is helpful for maintaining gastrointestinal health. Concentrated feeds mainly comprise grains, bean pulp, feed additives and the like, and the feeds are rich in proteins, carbohydrates and various nutrients, and can provide energy and nutrients required by ruminants. In order to improve the economic benefit of livestock breeding, forage grass materials are required to be processed, namely coarse fodder such as pasture, straw and the like, concentrated fodder, water and other additives such as mineral matters, vitamins and the like are effectively mixed through a fodder stirring vehicle, so that mixed daily ration is obtained, and the nutritional requirements of livestock are better met. In the prior art, a grabbing vehicle is adopted to directly convey pasture to a feed stirring vehicle, concentrated feed and the like are added to stir, mixed ration mixed by the feed stirring vehicle is conveyed to a spreading vehicle through a feed conveyor, and the spreading vehicle is conveyed to a housing cage. The grazing is directly conveyed into the feed mixer by the grabbing vehicle, so that the forage can not be continuously and uniformly fed into the mixer, and continuous production is inconvenient. In addition, since some metal impurities are easy to mix in the roughage during harvesting and transportation, the roughage may be harmful to the health of cattle and sheep if being fed in daily ration.

Disclosure of Invention

Aiming at the technical problem that the existing livestock breeding plants lack a comprehensive livestock ration mixing conveying line capable of realizing sustainable production, the utility model provides the livestock ration mixing conveying line integrating coarse fodder conveying, fodder mixing and conveying.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

The utility model provides a poultry ration mix transfer chain, includes the central scraper conveyor of vertical transport roughage, and many roughage transfer boxes have been arranged to central scraper conveyor's feed end, and central scraper conveyor's discharge end is provided with the top scraper conveyor of horizontal transport roughage, and top scraper conveyor discharge end is provided with the fodder trucd mixer, and fodder trucd mixer's discharge gate department is provided with belt conveyor;

The roughage transfer box comprises a bottom frame, a roughage box is mounted on the bottom frame, the discharge end of the roughage box is connected with a material lifting box, the tail end of the material lifting box is provided with a discharge hole, a roughage horizontal conveyor is arranged in the roughage box, and a roughage scraper elevator is arranged in the material lifting box.

Preferably, the belt conveyor comprises a support, a transmission roller, a belt supporting roller, a tail roller and a belt are arranged on the support, a self-cleaning mechanism is arranged at the discharge end of the support, the self-cleaning mechanism comprises a cleaning brush, and the cleaning brush is fixed on the support through a brush mounting frame.

Preferably, the brush mounting frame comprises a brush back plate and brush side plates used for connecting the support, strip-shaped holes are formed in the brush back plate, the material cleaning brush is fixed on the brush back plate through bolts arranged in the strip-shaped holes, and the brush side plates are arranged at two ends of the brush back plate.

Preferably, the two brush side plates are also connected with a material blocking plate, and the material blocking plate is positioned below the material cleaning brush.

Preferably, the iron removing mechanism is arranged at the discharge end of the bracket, and comprises a left mounting plate and a right mounting plate which are arranged on the bracket, and a magnet iron removing roller is rotatably arranged on the left mounting plate and the right mounting plate and the mounting position is adjustable.

Preferably, the magnet iron removing roller comprises a left rotary table, a right rotary table and a connecting plate, a plurality of horizontal beams with magnets are connected between the left rotary table and the right rotary table, rotary shafts are arranged on the left rotary table and the right rotary table, the rotary shafts are arranged on the connecting plate through bearings, and the connecting plate is arranged on a left mounting plate and a right mounting plate and the mounting position is adjustable.

Preferably, the bracket includes a front support leg and a rear support leg, the front support leg including one or more telescoping rods.

Preferably, the top scraper conveyor can run bidirectionally, and two ends of the top scraper conveyor are respectively provided with a feed stirring vehicle.

Preferably, the chassis comprises a plurality of groups of supporting weighing components, the supporting weighing components are connected into a whole through connecting beams, each supporting weighing component comprises supporting legs, a weighing sensor is installed at the upper ends of the supporting legs, a sensor connecting seat is installed at one end of each weighing sensor, and the coarse material box is fixed on the sensor connecting seat.

Compared with the prior art, the utility model has the advantages and positive effects that:

1. The livestock ration mixed conveying line disclosed by the utility model is used for continuously and quantitatively conveying coarse fodder to the central scraper conveyor through the coarse fodder transfer box, then conveying the coarse fodder to the fodder stirring vehicle through the top scraper conveyor, mixing and stirring the coarse fodder with the fine fodder, conveying the mixed fodder to the scattering vehicle through the belt conveyor, and conveying the mixed fodder to a feeding room for feeding through the scattering vehicle, so that continuous production of the livestock ration is realized, and the mixed fodder is suitable for large-scale comprehensive pastures.

2. Install self-cleaning mechanism on the band conveyer, self-cleaning mechanism installs in the position that is close to the driving roll, through adjusting the mounted position of clear material brush on the brush backplate to through adjusting the installation angle of brush backplate on the brush curb plate, can make clear material brush and belt laminating mutually, and keep suitable angle, clean in the fodder that falls to the striker plate that is located clear material brush below after directly sliding into ejection of compact funnel, have good cleaning effect.

3. The belt conveyor is characterized by further comprising an iron removing structure, the iron removing structure is arranged in the discharging hopper, the installation position of the iron removing structure can be adjusted according to the falling position of the feed, so that the feed drives the magnet iron removing roller to rotate in the falling process, smooth falling of the feed and adsorption of iron impurities mixed in the falling process by the magnet iron removing roller are ensured, and the safety of livestock is avoided.

Drawings

FIG. 1 is a schematic structural view of a livestock ration mixing conveyor line of the present utility model;

FIG. 2 is a schematic diagram of a coarse fodder transfer box structure of the livestock ration mixing conveyor line;

FIG. 3 is a side view of the roughage transfer box of the livestock ration mixing conveyor line of the present utility model;

FIG. 4 is a schematic structural view of a belt conveyor of the livestock ration mixing conveyor line of the present utility model;

FIG. 5 is an enlarged partial view of section I of FIG. 4;

FIG. 6 is a cross-sectional view of the belt conveyor of the livestock ration mixing conveyor line of the present utility model;

FIG. 7 is a schematic structural view of a self-cleaning mechanism of the livestock ration mixing conveyor line of the utility model;

fig. 8 is a schematic structural diagram of an iron removal mechanism of the livestock ration mixing conveyor line;

FIG. 9 is a side view of the deironing mechanism of the livestock ration mixing conveyor line of the present utility model;

in the above figures:

10. A central scraper conveyor;

20. The fodder feeding device comprises a fodder transfer box 201, a chassis 211, a supporting weighing assembly, 2111, supporting legs 2112, a weighing sensor, 2113, a sensor connecting seat 212, a connecting beam 202, a fodder box 203, a fodder horizontal conveyor 204, a fodder lifting box 205 and a fodder scraper elevator;

30. a top scraper conveyor;

40. a feed mixer truck;

50. The belt conveyor comprises a belt conveyor body, a bracket, 11, side baffles, 12, a discharging hopper, 13, a material blocking plastic plate, 14, a front supporting leg, 141, an upper steel plate, 141, a lower steel plate, 143, a cross beam, 144, a first inclined supporting beam, 145, a second inclined supporting beam, 15, a rear supporting leg, 16, a lifting beam, 2, a transmission roller, 3, a belt supporting roller, 4, a tail roller, 5, a belt, 6, a self-cleaning mechanism, 61, a cleaning brush, 62, a brush side plate, 621, an arc-shaped hole, 63, a brush back plate, 64, a material blocking plate, 7, an iron removing mechanism, 71, a left mounting plate, 711, a large-strip-shaped hole, 712, a small-strip-shaped hole, 72, a right mounting plate, 73, a magnet iron removing roller, 731, a left rotary plate, 732, a right rotary plate, 733, a connecting plate, 734, a horizontal beam, 735, a rotary shaft, 736 and a bearing.

Detailed Description

For a better understanding of the present utility model, reference will now be made in detail to the drawings and examples.

Embodiment As shown in fig. 1, the livestock ration mixing conveying line comprises a central scraper conveyor 10, wherein the central scraper conveyor 10 comprises a horizontal section for feeding and an inclined section for lifting, a plurality of coarse fodder transfer boxes 20 are arranged on two sides of the horizontal section of the central scraper conveyor 10, a top scraper conveyor 30 for transversely conveying coarse fodder is arranged at the discharge end of the central scraper conveyor 10, a fodder stirring vehicle 40 is arranged at the discharge end of the top scraper conveyor 30, and a belt conveyor 50 is arranged at the discharge port of the fodder stirring vehicle 40. The coarse fodder is put into the coarse fodder transfer box 20 through the grabbing vehicle, is continuously and quantitatively conveyed to the central scraper conveyor 10 through the coarse fodder transfer box 20, is then conveyed to the top scraper conveyor 30, is conveyed to the fodder mixing vehicle 40 through the top scraper conveyor 30, and the concentrated fodder or other materials can be conveyed to the top scraper conveyor 30 through the pipeline, added into the fodder mixing vehicle 40 together with the coarse fodder or directly added into the fodder mixing vehicle 40, is conveyed to the scattering vehicle through the belt conveyor 50 after being mixed, and is conveyed to the feeding room through the scattering vehicle.

The top scraper conveyor 30 is set to run bidirectionally, two ends of the top scraper conveyor 30 are respectively provided with a feed mixer truck 40, and a discharge port of each feed mixer truck 40 is provided with a belt conveyor 50, so that the two feed mixer trucks 40 can run alternately, and the requirement of large-scale cultivation is met.

As shown in fig. 2-3, the roughage transfer box 20 comprises a chassis 201, a roughage box 202 is mounted on the chassis 201, a discharge end of the roughage box 202 is connected with a material lifting box 204, a discharge hole is formed in the tail end of the material lifting box 204, a roughage horizontal conveyor 203 is arranged in the roughage box 202, a roughage scraper elevator 205 is arranged in the material lifting box 204, and a controller for controlling the roughage transfer box 20 to operate is further included. The chassis 201 includes six sets of support weight assemblies 211, the six sets of support weight assemblies 211 being divided into two rows of three along the length of the coarse fodder tank 202. And the connecting beams 212 are arranged in the transverse direction and the vertical direction, and the six groups of supporting and weighing assemblies 211 are connected into a bottom bracket which firmly supports the whole roughage transfer box 20 through the connecting beams 212. The supporting and weighing assembly 211 comprises supporting legs 2111, a weighing sensor 2112 is installed at the upper ends of the supporting legs 2111, a sensor connecting seat 2113 is installed at one end of the weighing sensor 2112, the coarse fodder box 202 is fixed on the sensor connecting seat 2113, and the weighing sensor 2112 is electrically connected with a controller. The weight of the feed in the transfer box can be detected in real time through the weighing sensor, so that the feed is quantitatively conveyed. The roughage transfer boxes 20 are arranged in a plurality, and the roughage transfer boxes 20 can alternately and continuously convey roughage to the central scraper conveyor 10, so that continuous production is ensured.

As shown in fig. 4-6, the belt conveyor 50 includes a bracket 1, on which a driving roller 2, a belt supporting roller 3, a tail roller 4 and a belt 5 are mounted, and the driving roller 2 is driven by a driving motor to rotate, so as to drive the belt 5 to reciprocate. The support 1 is still including being located the side shield 11 of belt 5 both sides to and be located the ejection of compact funnel 12 of discharge end, be provided with between side shield 11 and the belt 5 and keep off material plastic board 13, keep off the clearance between material plastic board 13 shielding side shield 11 and the belt 5, prevent that the fodder from dropping to the belt 5 back influence conveyer operation in the clearance. The belt 5 is provided with herringbone anti-skid patterns, so that friction force is increased, and conveyed materials can be conveniently lifted to a discharge end.

The support 1 further comprises a front support leg 14 and a rear support leg 15 which are arranged at the bottom, the height of the front support leg 14 is adjustable, the support is convenient to adapt to different application scenes, the specific front support leg 14 comprises two telescopic rods which are vertically arranged, and a plurality of cross beams 143 are further connected between the two telescopic rods. The telescopic link includes steel sheet 141 and lower steel sheet 142, all is provided with a plurality of screw holes on steel sheet 141 and the lower steel sheet 142, and the two passes through the screw connection and fixes, can realize the altitude mixture control according to the suitable screw hole installation screw of required height selection. The front support leg 14 further includes a first diagonal support beam 144 for connecting the telescopic rod with the ground, and a second diagonal support beam 145 for connecting the telescopic rod with the bottom surface of the conveyor belt, and the second diagonal support beam 145 may be provided with a telescopic structure.

The discharge end of the bracket 1 is provided with a self-cleaning mechanism 6, and the self-cleaning mechanism 6 is used for cleaning the belt 5 at a return position so that feed on the belt 5 falls into the discharge hopper 12. As shown in fig. 7, the self-cleaning mechanism 6 includes a cleaning brush 61, and the cleaning brush 61 is fixed on the support 1 by a brush mounting frame. The brush mounting frame comprises a left brush side plate 62 and a right brush side plate 62 which are used for connecting the bracket 1, and a brush backboard 63 and a striker plate 64 are connected between the two brush side plates 62. The brush back plate 63 is provided with a strip-shaped hole in the width direction, and the material cleaning brush 61 is fixed on the brush back plate 63 through a bolt arranged in the strip-shaped hole. The brush side plate 62 is provided with an arc hole 621, and the brush back plate 63 is mounted in the arc hole 621 by a screw. The self-cleaning mechanism 6 is arranged at a position close to the transmission roller 2, when the self-cleaning mechanism is arranged, the installation position of the cleaning brush 61 on the brush backboard 63 is adjusted, the cleaning brush 61 is attached to the belt 5, and the proper angle between the cleaning brush 61 and the belt 5 is kept by adjusting the installation angle of the brush backboard 63 on the brush side plate 62, so that a good cleaning effect is ensured, and cleaned feed falls onto the baffle plate 64 below the cleaning brush 61 and slides into the discharge hopper 12.

The discharge end of the support 1 is provided with an iron removal mechanism 7, preferably directly in a discharge hopper 12. As shown in fig. 8 and 9, the iron removing mechanism 7 includes a left mounting plate 71 and a right mounting plate 72, and the left mounting plate 71 and the right mounting plate 72 are provided with a large bar-shaped hole 711 and a small bar-shaped hole 712 which are transversely arranged. The magnet deironing roller 73 includes left carousel 731, right carousel 732 and connecting plate 733, is connected with many horizontal beams 734 that have magnet between left carousel 731 and the right carousel 732, be provided with pivot 735 on left carousel 731 and the right carousel 732, pivot 735 passes through bearing 736 and installs on connecting plate 733, and pivot 735 installs in big bar hole 711, afterwards fixes connecting plate 733 on left mounting panel 71 and right mounting panel 72 through the screw in the little bar hole 712 in position, and the mounted position of connecting plate 733 can be adjusted according to the whereabouts position of fodder, makes the fodder drive magnet deironing roller 73 rotation at whereabouts in-process, guarantees that the fodder falls smoothly and is adsorbed by magnet deironing roller 73 at whereabouts in-process mingled iron impurity, avoids iron impurity to endanger the safety of livestock.

In order to facilitate the movement of the conveyor, a plurality of lifting beams 16 are connected between the two side baffles 11, and lifting holes are formed in the lifting beams.

The mixed feed line for livestock ration is used for continuously and quantitatively conveying coarse feed to the central scraper conveyor 10 through the coarse feed transfer box 20, then conveying the coarse feed to the feed stirring vehicle 40 through the top scraper conveyor 30, mixing and stirring the coarse feed with the fine feed, conveying the mixed feed to the scattering vehicle through the belt conveyor 50, and conveying the mixed feed to a feeding room for feeding through the scattering vehicle, so that continuous production of the livestock ration is realized, and the mixed feed line for livestock ration is suitable for large-scale comprehensive pastures.

The present utility model is not limited to the above-mentioned embodiments, and any equivalent embodiments which can be changed or modified by the technical content disclosed above can be applied to other fields, but any simple modification, equivalent changes and modification made to the above-mentioned embodiments according to the technical substance of the present utility model without departing from the technical content of the present utility model still belong to the protection scope of the technical solution of the present utility model.

Claims (9)

1. The livestock ration mixing conveyor line is characterized by comprising a central scraper conveyor for vertically conveying coarse fodder, wherein a plurality of coarse fodder transfer boxes are arranged at the feed end of the central scraper conveyor, a top scraper conveyor for transversely conveying the coarse fodder is arranged at the discharge end of the central scraper conveyor, a fodder stirring vehicle is arranged at the discharge end of the top scraper conveyor, and a belt conveyor is arranged at the discharge port of the fodder stirring vehicle;

The roughage transfer box comprises a bottom frame, a roughage box is mounted on the bottom frame, the discharge end of the roughage box is connected with a material lifting box, the tail end of the material lifting box is provided with a discharge hole, a roughage horizontal conveyor is arranged in the roughage box, and a roughage scraper elevator is arranged in the material lifting box.

2. The mixed conveyor line for livestock ration according to claim 1, wherein the belt conveyor comprises a bracket, a transmission roller, a belt supporting roller, a tail roller and a belt are arranged on the bracket, a self-cleaning mechanism is arranged at the discharge end of the bracket, and the self-cleaning mechanism comprises a cleaning brush which is fixed on the bracket through a brush mounting frame.

3. The animal husbandry ration mixing conveying line of claim 2, wherein the brush mounting frame comprises a brush back plate and brush side plates used for connecting the support, strip-shaped holes are formed in the brush back plate, the material cleaning brush is fixed on the brush back plate through bolts arranged in the strip-shaped holes, and the brush side plates are arranged at two ends of the brush back plate.

4. The mixed feed line for livestock ration according to claim 3, wherein the two brush side plates are also connected with a material baffle plate, and the material baffle plate is positioned below the material cleaning brush.

5. The mixed feed line for livestock ration according to claim 2, wherein the iron removing mechanism is arranged at the discharge end of the bracket, the iron removing mechanism comprises a left mounting plate and a right mounting plate which are arranged on the bracket, and the left mounting plate and the right mounting plate are rotatably provided with a magnet iron removing roller and the mounting position is adjustable.

6. The mixed feed line for livestock ration according to claim 5, wherein the iron removing roller comprises a left rotary table, a right rotary table and a connecting plate, a plurality of horizontal beams with magnets are connected between the left rotary table and the right rotary table, rotating shafts are arranged on the left rotary table and the right rotary table, the rotating shafts are arranged on the connecting plate through bearings, the connecting plate is arranged on a left mounting plate and a right mounting plate, and the mounting positions of the connecting plate are adjustable.

7. The mixed livestock ration delivery line of claim 2, wherein the rack comprises a front support leg and a rear support leg, the front support leg comprising one or more telescoping rods.

8. The mixed feed line for livestock ration according to claim 1, wherein the top scraper conveyor is capable of running bidirectionally, and two feed stirring vehicles are arranged at two ends of the top scraper conveyor.

9. The mixed conveyor line for livestock ration according to claim 1, wherein the underframe comprises a plurality of groups of supporting weighing assemblies, the supporting weighing assemblies are connected into a whole through connecting beams, each supporting weighing assembly comprises supporting legs, weighing sensors are arranged at the upper ends of the supporting legs, a sensor connecting seat is arranged at one end of each weighing sensor, and the coarse fodder box is fixed on each sensor connecting seat.