CN219949468U

CN219949468U - Outdoor loop feeding system

Info

Publication number: CN219949468U
Application number: CN202320833458.XU
Authority: CN
Inventors: 贺恒志
Original assignee: Shandong Jinchao Machinery Co ltd
Current assignee: Shandong Jinchao Machinery Co ltd
Priority date: 2023-04-14
Filing date: 2023-04-14
Publication date: 2023-11-03
Anticipated expiration: 2033-04-14

Abstract

The utility model discloses an outdoor loop feeding system, which comprises: the device comprises a controller, a material tower, a circulating feeding assembly and at least one weighing assembly; a discharge hole is formed in the bottom of the material tower; the circulating feeding assembly comprises a circulating feeding pipeline, a feeding chain and a driving part, wherein at least one switchable electric control valve is arranged on the circulating feeding pipeline, a buffer box is further arranged on the circulating feeding pipeline, an opening is formed in the top of the buffer box, a plurality of pushing sheets are arranged on the feeding chain, the feeding chain is slidably arranged in the circulating feeding pipeline and penetrates through the buffer box, and the driving part is configured to drive the feeding chain to circularly slide in the circulating feeding pipeline; the weighing assembly comprises a weighing box and a weighing device, a feeding hole is formed in the weighing box, and the weighing box is arranged on the weighing device. The whole cost of the outdoor loop feeding system is reduced, equipment investment is reduced, and an operator can conveniently maintain the outdoor loop feeding system.

Description

Outdoor loop feeding system

Technical Field

The utility model relates to the technical field of machinery, in particular to an outdoor loop feeding system.

Background

The feeding mode before domestic farms is that workers manually transport bagged feeds into each cultivation house, then the feeds are poured into a storage hopper in the house, and then mechanical feeding is carried out. Along with the continuous development of automatic feeding technology, the technology of adopting the mode of automatic feeding to carry the fodder to each chicken coop through main material tower automation is promoted and used. For example, chinese patent publication No. CN 216018519U discloses a precise weighing mechanism and a precise feeding system for feed for a breeding hen house, a feeding tower outputs feed to the precise weighing mechanism through a feeding component, and the feeding component stops running after the feed in the precise weighing mechanism reaches a set weight. However, in the actual use process, since a plurality of chicken houses are usually arranged in a raising farm, each chicken house needs to be fed with feed respectively, and the feed amount required by different chicken houses is different according to the growth condition of the chickens in different chicken houses. For this purpose, separate feeding assemblies for each chicken house are required to be provided for feeding the feed. The feeding assembly adopted in the conventional technology is usually realized by a straight auger type conveying pipeline, so that the equipment investment cost is high; and, because the straight auger type conveying pipeline is generally overhead, later maintenance difficulty is great. In view of this, how to design a feeding technology that reduces equipment investment and is convenient to maintain is a technical problem to be solved by the present utility model.

Disclosure of Invention

The utility model provides an outdoor loop feeding system, which reduces the overall cost of the outdoor loop feeding system so as to reduce equipment investment and bring convenience for operators to maintain.

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

the utility model provides an outdoor loop feeding system, which comprises: the device comprises a controller, a material tower, a circulating feeding assembly and at least one weighing assembly;

a discharge hole is formed in the bottom of the material tower;

the circulating feeding assembly comprises a circulating feeding pipeline, a feeding chain and a driving part, wherein at least one switchable electric control valve is arranged on the circulating feeding pipeline, a buffer box is further arranged on the circulating feeding pipeline, an opening is formed in the top of the buffer box, a plurality of pushing sheets are arranged on the feeding chain, the feeding chain is slidably arranged in the circulating feeding pipeline and penetrates through the buffer box, and the driving part is configured to drive the feeding chain to circularly slide in the circulating feeding pipeline;

the weighing assembly comprises a weighing box and a weighing device, a feeding port is arranged on the weighing box, and the weighing box is arranged on the weighing device;

the discharging hole is located above the opening and is configured to convey feed to the cache box, the electric control valve is located above the feeding hole and is configured to convey feed to the weighing box, and the weighing device, the electric control valve and the driving part are respectively and electrically connected with the controller.

In one embodiment of the utility model, a portion of the circulating feed conduit is disposed overhead above the weigh bin.

In one embodiment of the utility model, part of the circulating feed pipeline is arranged in a landing way and is provided with the driving part.

In one embodiment of the utility model, the weighing assembly is configured within a housing of a cultivation house;

the electric control valve is provided with a connecting pipeline, and the lower end part of the connecting pipeline extends into the weighing box.

In one embodiment of the utility model, a feed pushing mechanism is further arranged at the bottom of the material tower, the feed pushing mechanism is provided with an inlet and an outlet, and the feed pushing mechanism is configured to push feed entering from the inlet to the outlet for output; the inlet of the feed pushing mechanism is communicated with the material tower, and the outlet of the feed pushing mechanism is the material outlet.

In one embodiment of the utility model, the feed pushing mechanism is a tubular auger conveyor.

In an embodiment of the present utility model, a longitudinal section of the buffer tank is of a V-shaped structure; one end face of the buffer storage box is provided with a circulating outlet, the other end face of the buffer storage box is provided with a circulating inlet, one pipe orifice of the circulating conveying pipeline is connected with the circulating outlet, the other pipe orifice of the circulating conveying pipeline is connected with the circulating inlet, and the feeding chain penetrates through the circulating outlet and the circulating inlet.

In one embodiment of the present utility model, the circulation outlet and the circulation inlet are located at the bottom of the V-shaped region formed by the V-shaped structure.

Compared with the prior art, the technical scheme of the utility model has the following technical effects: the feed in the bottom of the material tower is circularly moved in the circulating feed pipeline so as to circularly move the feed in the circulating feed pipeline, the feed can fall at an electric control valve in an opened state and be put into a weighing box at the bottom, the weighing box can be weighed by a weighing device, and after the weight of the feed reaches a set value, the electric control valve is controlled by a controller to be closed and the driving part is stopped to operate; the corresponding electric control valve is restarted to drive the driving part to run as required for other weighing boxes, so that the feed is conveyed into the corresponding weighing boxes through the circulating conveying pipeline, the feeding requirement of a plurality of weighing boxes is met by utilizing a single circulating feeding assembly, an independent conveying mechanism is not required to be configured for each weighing box, the overall cost of an outdoor loop feeding system is reduced, the equipment investment is reduced, and the maintenance is convenient for operators.

Drawings

FIG. 1 is a schematic diagram of an outdoor loop feed system according to the present utility model;

FIG. 2 is a second schematic diagram of an outdoor loop feeding system according to the present utility model;

fig. 3 is a schematic structural view of the circulation feeding assembly in fig. 1.

Reference numerals:

a material tower 1 and a feed pushing mechanism 11;

a circulation feeding assembly 2;

the device comprises a circulating material conveying pipeline 21, a driving part 22, an electric control valve 23, a buffer tank 24 and a connecting pipeline 25;

a weighing assembly 3;

weighing box 31, weighing machine 32.

Detailed Description

As shown in fig. 1-3, the present utility model provides an outdoor loop feeding system comprising: a controller (not shown), a material tower 1, a circulating feeding assembly 2 and at least one weighing assembly 3;

a discharge hole is formed in the bottom of the material tower 1;

the circulating feeding assembly 2 comprises a circulating feeding pipeline 21, a feeding chain and a driving part 22, wherein at least one switchable electric control valve 23 is arranged on the circulating feeding pipeline 21, a buffer box 24 is further arranged on the circulating feeding pipeline 21, an opening is formed in the top of the buffer box 24, a plurality of pushing sheets are arranged on the feeding chain, the feeding chain is slidably arranged in the circulating feeding pipeline 21 and penetrates through the buffer box 24, and the driving part 22 is configured to drive the feeding chain to circularly slide in the circulating feeding pipeline 21;

the weighing assembly 3 comprises a weighing box 31 and a weighing device 32, a feeding port is arranged on the weighing box 31, and the weighing box 31 is arranged on the weighing device 32;

wherein the discharge hole is located above the opening and configured to convey feed to the buffer tank 24, the electric control valve 23 is located above the feed inlet and configured to convey feed to the weighing tank 31, and the weighing device 32, the electric control valve 23 and the driving part 22 are respectively electrically connected with the controller.

Specifically, the fodder tower 1 holds fodder to supply fodder to the weighing boxes 31 in the respective housing houses 100. The material tower 1 is connected with weighing boxes 31 in the various cultivation house houses 100 through a circulating feeding assembly 2, so that feed is conveyed.

In the actual use process, when the weighing box 31 in one of the cultivation house 100 needs to be supplemented with feed, the electric control valve 23 matched with the weighing box 31 is opened, meanwhile, the controller controls the driving part 22 to be electrified and started, the feeding chain circularly slides in the circulating feeding pipeline 21 under the driving action of the driving part 22, and the feeding chain in the buffer box 24 continuously drives the feed to enter the circulating feeding pipeline 21. While the feed moves in the circulation feed line 21 following the feed chain to the electrically controlled valve 23 in the open state, via which open electrically controlled valve 23 the feed falls into the weighing tank 31 below.

As the weight box 31 continuously drops the feed, the weighing device 32 simultaneously detects the whole weight of the weight box 31 to calculate the weight of the feed, so that after the weighing device 32 detects that the feed supplemented in the weight box 31 reaches a set weight value, the weighing device 32 sends a signal to the controller to control the electric control valve 23 above the weight box 31 to be closed by the controller, and meanwhile, the controller pauses the operation of the driving part 22.

The specific entity of the controller may be a control device such as a PLC or a single chip microcomputer, which is commonly used in industry, and the specific control process is not limited herein.

In addition, for the driving part, in order to meet the driving requirement of the feeding chain, the feeding chain is wound on the sprocket and driven to rotate by the motor by comprising the motor and the sprocket. The specific structure can refer to the driving mode of the circulating chain in the conventional culture feeding equipment, such as the driving mode of the chain in the scraper chain feeding line transmission device disclosed in Chinese patent publication No. CN203313884U, and the limitation and the redundant description are omitted herein.

In one embodiment of the utility model, a portion of the circulating feed line 21 is disposed overhead above the weigh bin 31.

Specifically, for the circulation conveying pipeline 21, the circulation conveying pipeline 21 is used for conveying feed through a feeding chain, and the pipe distribution mode of the circulation conveying pipeline 21 can be arranged above the corresponding weighing boxes 31 in an overhead manner, so that the electric control valve 23 is installed above the corresponding weighing boxes 31, and then falls into the weighing boxes 31 below from the opened electric control valve 23 by means of the gravity of the feed.

In another embodiment, for facilitating the later maintenance of the operator, the circulation feed pipe 21 is arranged with a part of the circulation feed pipe 21 for mounting the driving part 22 being landed.

Specifically, when the driving part 22 needs to be maintained, a maintainer can maintain the motor or other transmission structures in the driving part 22 on the ground without climbing up for maintenance, thereby reducing the maintenance difficulty and improving the safety.

In one embodiment of the utility model, the weighing assembly 3 is disposed within the housing 100; the electric control valve 23 is provided with a connecting pipeline 25, and the lower end part of the connecting pipeline 25 extends into the weighing box 31.

In particular, since the weighing module 3 is typically installed in the housing 100, the electrically controlled valve 23 on the overhead circulation feed line 21 can accurately feed the falling feed into the weighing tank 31 via the connecting line 25.

In an embodiment of the present utility model, the bottom of the material tower 1 is further provided with a feed pushing mechanism 11, the feed pushing mechanism 11 has an inlet and an outlet, and the feed pushing mechanism 11 is configured to push the feed entering from the inlet to the outlet for output; the inlet of the feed pushing mechanism 11 is communicated with the feed tower 1, and the outlet of the feed pushing mechanism 11 is the discharge hole.

Specifically, in order to quantitatively output the feed in the feed tower 1 according to the feed demand, the situation that the feed tower 1 directly outputs the feed by means of gravity to cause excessive movement resistance of a feed chain is reduced. When it is desired to feed the weighing compartment 31, the controller will control the drive member 22, the electrically controlled valve 23 and the feed pushing mechanism 11 to be in operation. Wherein the feed pushing mechanism 11 may be a tubular auger conveyor.

In one embodiment of the present utility model, the longitudinal section of the buffer tank 24 is a V-shaped structure; one end face of the buffer tank 24 is provided with a circulating outlet, the other end face of the buffer tank 24 is provided with a circulating inlet, one pipe orifice of the circulating material conveying pipeline 21 is connected with the circulating outlet, the other pipe orifice of the circulating material conveying pipeline 21 is connected with the circulating inlet, and the feeding chain penetrates through the circulating outlet and the circulating inlet.

Specifically, the V-shaped buffer tank 24 is beneficial to collect the feed at the bottom, so that the feed chain can be utilized to more thoroughly and effectively convey the feed out. The circulation outlet and the circulation inlet may be located at the bottom of the V-shaped region formed by the V-shaped structure, so that the feed chain may be disposed at the bottom of the buffer tank 24.

The foregoing is merely illustrative of the present utility model, and the present utility model is not limited thereto, and any changes or substitutions easily contemplated by those skilled in the art within the scope of the present utility model should be included in the scope of the present utility model. Therefore, the protection scope of the utility model is subject to the protection scope of the claims.

Claims

1. An outdoor loop feed system, comprising: the device comprises a controller, a material tower, a circulating feeding assembly and at least one weighing assembly;

a discharge hole is formed in the bottom of the material tower;

2. The outdoor loop feed system of claim 1 wherein a portion of the circulating feed conduit is disposed overhead above the weigh tank.

3. The outdoor loop feed system of claim 1 wherein a portion of the circulating feed conduit is floor disposed and mounted with the drive member.

4. The outdoor loop feed system of claim 1, wherein the weighing assembly is configured within a farmhouse house;

5. The outdoor loop feed system of claim 1, wherein the bottom of the tower is further provided with a feed pushing mechanism having an inlet and an outlet, the feed pushing mechanism configured to push feed entering the inlet to the outlet output; the inlet of the feed pushing mechanism is communicated with the material tower, and the outlet of the feed pushing mechanism is the material outlet.

6. The outdoor loop feed system of claim 5, wherein the feed pushing mechanism is a tubular auger conveyor.

7. The outdoor loop feed system of claim 1, wherein the longitudinal section of the buffer tank is V-shaped; one end face of the buffer storage box is provided with a circulating outlet, the other end face of the buffer storage box is provided with a circulating inlet, one pipe orifice of the circulating conveying pipeline is connected with the circulating outlet, the other pipe orifice of the circulating conveying pipeline is connected with the circulating inlet, and the feeding chain penetrates through the circulating outlet and the circulating inlet.

8. The outdoor loop feed system of claim 7 wherein the circulation outlet and the circulation inlet are located at the bottom of the V-shaped area formed by the V-shaped structure.