CN110637748A

CN110637748A - Full-automatic feeding device for livestock breeding

Info

Publication number: CN110637748A
Application number: CN201911060073.9A
Authority: CN
Inventors: 赵旭梅; 张晓峰; 张晓宙; 梁鑫平; 梁梓栋
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-11-01
Filing date: 2019-11-01
Publication date: 2020-01-03

Abstract

The invention discloses a full-automatic feeding device for livestock breeding, which comprises a belt conveyor, a blanking hopper arranged above the upstream of the belt conveyor and a plurality of groups of feeding assemblies distributed along the conveying direction of the belt conveyor, baffles are arranged at the two side edges of the top of the belt conveyor along the conveying direction, each group of feeding assemblies comprises a material guide plate, a material guide plate driving mechanism, an inclined chute and a material groove, the baffle plate is provided with a plurality of discharge holes corresponding to the feeding components, the downstream end of the material guide plate is rotatably arranged on the belt conveyor, the material guide plate driving mechanism is used for driving the material guide plates to rotate so as to open or close the corresponding material outlet, the inclined chute is obliquely arranged on one side, located at the discharge port, of the belt conveyor, the upper end of the inclined chute is connected to the corresponding discharge port, and the trough is arranged below the lower end of the inclined chute. The invention realizes the full-automatic feeding of a plurality of material tanks, improves the feeding efficiency and reduces the labor intensity.

Description

Full-automatic feeding device for livestock breeding

Technical Field

The invention relates to the technical field of livestock breeding, in particular to a full-automatic feeding device for livestock breeding.

Background

Livestock has been stored for thousands of years, with the development of society, livestock gradually develops from home distributed storage to centralized storage in a farm, and automatic and intelligent breeding is vigorously developed at present in order to reduce the labor cost of the storage in the farm.

In the prior art, although many farms have all realized semi-automatic feed, when the livestock-raising feed, the breed staff still need add fodder or forage to each silo one by one through manual work or throw material equipment, and the efficiency of feed is lower, and intensity of labour increases. In addition, the domestic animal eats surplus material and eats needs in time to clear up, otherwise the bacterium is easily multiplied in the silo, influences the health of domestic animal, and most farms all eat through the remaining material of manual cleaning silo at present, wastes time and difficultly again.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides a full-automatic feeding device for livestock breeding, so that full-automatic feeding of a plurality of material troughs is realized, the feeding efficiency is improved, and the labor intensity is reduced.

The invention provides a full-automatic feeding device for livestock breeding, which comprises a belt conveyor, wherein baffle plates are arranged at two side edges of the top of the belt conveyor in the conveying direction; the discharging hopper is arranged above the upper stream of the belt conveyor and is used for discharging food to the belt conveyor; the feeding assemblies comprise guide plates, guide plate driving mechanisms, inclined chutes and troughs, the baffle plates correspond to the feeding assemblies and are provided with a plurality of discharge ports, the downstream ends of the guide plates are rotatably mounted on the belt conveyor, the guide plate driving mechanisms are used for driving the guide plates to rotate so as to open or close the corresponding discharge ports, the inclined chutes are obliquely arranged on one side of the discharge ports of the belt conveyor, the upper ends of the inclined chutes are connected to the corresponding discharge ports, and the troughs are arranged below the lower ends of the inclined chutes.

Further, the feed opening is located to the bottom of hopper down, the feed opening is for following the bar mouth that band conveyer width direction extends.

Furthermore, a pair of discharging rollers is arranged at the discharging opening, and a plurality of convex columns extending along the radial direction are distributed on the periphery of each discharging roller.

Further, the device also comprises a conveying and cleaning mechanism arranged in the inclined chute, a lifting mechanism used for driving the trough to lift and a receiving bucket; the cleaning and conveying mechanism comprises a driving roller arranged in an upper inclined chute, a driven roller arranged in a lower inclined chute and a conveying belt sleeved between the driving roller and the driven roller, wherein brush hair is planted on the outer side of the conveying belt, and the brush hair on the lower side of the conveying belt is attached to a bottom plate of the trough; the groove of the trough is in an arc shape matched with the contour of the bristles at the lower end of the conveyor belt; a material leakage port is formed in the bottom plate of the inclined sliding groove in the middle, a movable scraper plate is arranged at the material leakage port, the upper end of the movable scraper plate is rotatably connected with the inclined sliding groove, and the lower end of the movable scraper plate is lapped on the bottom plate of the inclined sliding groove; the receiving barrel is arranged below the material leakage port.

Further, the lifting mechanism comprises a vertical guide rail, a screw rod and a lifting sleeve, the trough is slidably mounted on the front face of the vertical guide rail, the upper end and the lower end of the screw rod are respectively mounted on the back face of the vertical guide rail through mounting seats, and the lifting sleeve is fixed on the side face of the trough and is sleeved on the screw rod in a threaded manner.

Further, the lower side of the material leakage opening is connected with a slide way, and the lower end of the slide way is connected into the material receiving barrel.

Furthermore, the upper part of the lower end of the inclined chute is also provided with a fixed scraper blade, and the fixed scraper blade is used for hanging and dropping the feed stuck on the bristles into the trough.

The invention has the beneficial effects that: during the feed, the unloading is lasted to lower hopper, the material of band conveyer conveying whereabouts is eaten, at this moment all stock guides all are in the open mode completely, when the material eats conveying to first stock guide, the material on the band conveyer is eaten and is derived from the discharge gate under the effect of stock guide, the spout cunning that slips into of rethread slope, accomplish the back when this silo unloading, this discharge gate is closed to rethread stock guide actuating mechanism drive stock guide, the material on the band conveyer is eaten and is continued to conveying next stock guide, carry out the unloading to next silo with same mode, analogize in proper order, can carry out the unloading to all silos. Therefore, by adopting the full-automatic feeding device, the full-automatic feeding of a plurality of material tanks is realized, the feeding efficiency is improved, and the labor intensity is reduced.

Drawings

In order to more clearly illustrate the detailed description of the invention or the technical solutions in the prior art, the drawings that are needed in the detailed description of the invention or the prior art will be briefly described below. Throughout the drawings, like elements or portions are generally identified by like reference numerals. In the drawings, elements or portions are not necessarily drawn to scale.

FIG. 1 is a front view of an embodiment of the present invention;

FIG. 2 is a top view of FIG. 1;

FIG. 3 is a schematic structural diagram of a trough during blanking according to an embodiment of the invention;

fig. 4 is a schematic structural diagram of a trough during cleaning according to an embodiment of the present invention.

In the drawings: 10 a belt conveyor; 11 denotes a baffle plate; 111 denotes a discharge port; 20 denotes a discharge hopper; 21 denotes a feed opening; 22 denotes a feed roller; 23 denotes a boss; 30 denotes a feeding assembly; 31 denotes a material guide plate; a guide plate driving mechanism 32; 33, a tilt chute; 34 denotes a trough; 40 denotes a conveyance cleaning mechanism; 41 denotes a drive roller; 42 denotes a driven roller; 43 denotes a conveyor belt; 44 represents bristles; 45 denotes a drain port; 46 denotes a movable squeegee; 50 denotes a lifting mechanism; 51 denotes a vertical guide rail; 52 denotes a lead screw; 53 denotes a lifting sleeve; 60 denotes a receiving bucket; 61 denotes a slide; and 70, a fixed squeegee.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and therefore are only examples, and the protection scope of the present invention is not limited thereby.

It is to be noted that, unless otherwise specified, technical or scientific terms used herein shall have the ordinary meaning as understood by those skilled in the art to which the invention pertains.

As shown in fig. 1-4, the embodiment of the present invention provides a fully automatic feeding device for livestock breeding, which comprises a belt conveyor 10, a lower hopper 20 disposed upstream and above the belt conveyor 10, and several groups of feeding assemblies 30 distributed along the belt conveyor 10 along the conveying direction.

As shown in fig. 1 and 2, baffles 11 are provided at both sides of the top of the belt conveyor 10 along the conveying direction, and the discharge hopper 20 is used for discharging food to the belt conveyor 10, wherein the food can be pellet feed or forage. In order to ensure that the lower hopper 20 can uniformly discharge materials, the bottom of the lower hopper 20 is provided with a discharge opening 21, and the discharge opening 21 is a strip-shaped opening extending along the width direction of the belt conveyor 10. When throwing and feeding forage, forage stops up feed opening 21 easily, and this embodiment is equipped with a pair of unloading roller 22 in feed opening 21 department, and the periphery of unloading roller 22 distributes and has a plurality of projections 23 along radial extension, and during the unloading, unloading roller 22 relative rotation stirs the unloading through unloading roller 22, can ensure that the unloading is even, prevents that forage from stopping up feed opening 21.

Each group of feeding assemblies 30 comprises a material guide plate 31, a material guide plate driving mechanism 32, an inclined chute 33 and a material groove 34, a plurality of material outlets 111 are formed in the baffle plate 11 corresponding to the feeding assemblies 30, the downstream end of the material guide plate 31 is rotatably installed on the belt conveyor 10, the material guide plate driving mechanism 32 is used for driving the material guide plate 31 to rotate so as to open or close the corresponding material outlet 111, the material guide plate driving mechanism 32 can be a driving motor or a telescopic push rod, the inclined chute 33 is obliquely arranged on one side, located at the material outlet 111, of the belt conveyor 10, the upper end of the inclined chute 33 is connected to the corresponding material outlet 111, and the material groove 34 is arranged below the lower end of the inclined chute.

Referring to fig. 2, during feeding, the feeding hopper 20 continuously feeds, the belt conveyor 10 conveys the falling material, all the material guide plates 31 are in a fully open state (the upstream ends of the material guide plates 31 abut against the baffle 11 on the opposite side of the material outlet 111), when the material is conveyed to the first material guide plate 31, the material on the belt conveyor 10 is guided out from the material outlet 111 under the action of the material guide plates 31 and slides into the material groove 34 through the inclined chute 33, after the material is discharged from the material groove 34, the material guide plates 31 are driven by the material guide plate driving mechanism 32 to close the material outlet 111, the material on the belt conveyor 10 is continuously conveyed to the next material guide plate 31, the next material groove 34 is discharged in the same manner, and so on, all the material grooves 34 can be discharged. Therefore, by adopting the full-automatic feeding device, the full-automatic feeding of a plurality of material troughs 34 is realized, the feeding efficiency is improved, and the labor intensity is reduced.

As shown in fig. 3 and 4, the cleaning and conveying mechanism includes a driving roller 41 disposed in the upper inclined chute 33, a driven roller 42 disposed in the lower inclined chute 33, and a conveying belt 43 sleeved between the driving roller 41 and the driven roller 42, bristles 44 are planted on the outer side of the conveying belt 43, the bristles 44 on the lower side of the conveying belt 43 are attached to the bottom plate of the trough 34, the trough 34 is arc-shaped and matched with the contour of the bristles 44 at the lower end of the conveying belt 43, a material leakage opening 45 is formed in the bottom plate of the middle inclined chute 33, a movable scraper 46 is disposed at the material leakage opening 45, the upper end of the movable scraper 46 is rotatably connected with the inclined chute 33, the lower end of the movable scraper 46 is lapped on the bottom plate of the inclined chute 33, and a material receiving barrel 60 is disposed below the material leakage.

The lifting mechanism 50 of this embodiment specifically includes vertical guide 51, lead screw 52 and lifting sleeve 53, and the silo 34 slidable mounting is in the front of vertical guide 51, and the upper and lower end of lead screw 52 is installed in the back of vertical guide 51 through the mount pad respectively, and the lifting sleeve 53 is fixed in the side of silo 34 and the thread bush on lead screw 52, can drive the silo 34 through drive lead screw 52 rotates and go up and down.

When the trough 34 is fed, as shown in fig. 3, the conveyor belt 43 rotates clockwise, the bristles 44 press the movable scraper 46 downwards to enable the movable scraper 46 to close the material leakage opening 45, the material discharged from the material discharge opening 111 enters the inclined chute 33, and is conveyed to the trough 34 along the inclined chute 33 through the bristles 44 of the conveyor belt 43, the bristles 44 of the conveyor belt 43 are actively conveyed, the situation that the material cannot slide downwards and block the inclined chute 33 when being fed can be prevented, when the residual material in the trough 34 needs to be cleaned, as shown in fig. 4, the lifting mechanism 50 drives the trough 34 to lift the bristles 44 at the lower end of the conveyor belt 43 to be in contact with the trough of the trough 34, then the conveyor belt 43 is controlled to rotate anticlockwise, the bristles 44 drive the movable scraper 46 to rotate upwards, the bristles 44 clean the residual material and convey the residual material upwards along the inclined chute 33, when the residual material is conveyed to the movable scraper 46, the movable scraper 46 scrapes the residual material on the bristles 44 down, residual material food leaked from the material leakage opening 45 is collected in the material receiving barrel 60, so that automatic cleaning of the residual material food in the material groove 34 can be realized, the trouble of manual cleaning is omitted, and time and labor are saved.

In addition, the lower side of the material leakage opening 45 is connected with a slide way 61, and the lower end of the slide way 61 is connected into the material receiving barrel 60, so that the leaked residual material can be prevented from scattering, and the environmental pollution is avoided. When the trough 34 is used for feeding, the feed may stick to the bristles 44, and therefore, in this embodiment, a fixed scraper 70 may be further disposed at the upper portion of the lower end of the inclined chute 33, and the fixed scraper 70 is used for hanging the feed sticking to the bristles 44 into the trough 34.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention, and they should be construed as being included in the following claims and description.

Claims

1. The utility model provides a full-automatic feeding device for livestock-raising which characterized in that includes:

the device comprises a belt conveyor, wherein baffles are arranged at two side edges of the top of the belt conveyor in the conveying direction;

the discharging hopper is arranged above the upper stream of the belt conveyor and is used for discharging food to the belt conveyor;

the feeding assemblies comprise guide plates, guide plate driving mechanisms, inclined chutes and troughs, the baffle plates correspond to the feeding assemblies and are provided with a plurality of discharge ports, the downstream ends of the guide plates are rotatably mounted on the belt conveyor, the guide plate driving mechanisms are used for driving the guide plates to rotate so as to open or close the corresponding discharge ports, the inclined chutes are obliquely arranged on one side of the discharge ports of the belt conveyor, the upper ends of the inclined chutes are connected to the corresponding discharge ports, and the troughs are arranged below the lower ends of the inclined chutes.

2. The full-automatic feeding device for livestock breeding of claim 1, wherein the bottom of the discharging hopper is arranged at a discharging opening, and the discharging opening is a strip-shaped opening extending along the width direction of the belt conveyor.

3. The full-automatic feeding device for livestock breeding of claim 2, wherein a pair of discharging rollers are arranged at the discharging opening, and a plurality of convex columns extending along the radial direction are distributed on the periphery of the discharging rollers.

4. The full-automatic feeding device for livestock breeding of claim 1, further comprising a conveying and cleaning mechanism arranged in the inclined chute, a lifting mechanism for driving the trough to lift, and a receiving barrel; the cleaning and conveying mechanism comprises a driving roller arranged in an upper inclined chute, a driven roller arranged in a lower inclined chute and a conveying belt sleeved between the driving roller and the driven roller, wherein brush hair is planted on the outer side of the conveying belt, and the brush hair on the lower side of the conveying belt is attached to a bottom plate of the trough; the groove of the trough is in an arc shape matched with the contour of the bristles at the lower end of the conveyor belt; a material leakage port is formed in the bottom plate of the inclined sliding groove in the middle, a movable scraper plate is arranged at the material leakage port, the upper end of the movable scraper plate is rotatably connected with the inclined sliding groove, and the lower end of the movable scraper plate is lapped on the bottom plate of the inclined sliding groove; the receiving barrel is arranged below the material leakage port.

5. The full-automatic feeding device for livestock breeding of claim 4, wherein the lifting mechanism comprises a vertical guide rail, a screw rod and a lifting sleeve, the trough is slidably mounted on the front surface of the vertical guide rail, the upper end and the lower end of the screw rod are respectively mounted on the back surface of the vertical guide rail through a mounting seat, and the lifting sleeve is fixed on the side surface of the trough and is sleeved on the screw rod in a threaded manner.

6. The full-automatic feeding device for livestock breeding of claim 4, wherein a slide is connected to the lower side of the discharge opening, and the lower end of the slide is connected to the receiving barrel.

7. The full-automatic feeding device for livestock breeding of claim 4, characterized in that the upper part of the lower end of the inclined chute is further provided with a fixed scraper blade, and the fixed scraper blade is used for hanging the feed stuck on the bristles into the trough.