CN220308110U - Quantitative feed conveying system - Google Patents

Abstract

The utility model discloses a quantitative feed conveying system, which comprises: the auger type conveying pipeline comprises a conveying pipeline and an auger arranged in the conveying pipeline; a feeding port is formed in one end of the conveying pipe, and at least one switchable discharging port is formed in the pipe wall of the conveying pipe; the feed box assembly comprises a storage box, a weighing device, a temporary storage box and a feed pushing mechanism; the upper part of the storage box is provided with a feeding port, and the lower part of the storage box is provided with an outlet; the feed pushing mechanism has an inlet and a discharge port, and is configured to push feed entering through the inlet to the discharge port for output; the inlet is connected with the outlet, the temporary storage box is positioned below the discharge hole, and the storage box is arranged on the weighing device; wherein, the pan feeding mouth intercommunication the case of keeping in. The feeding accuracy of the quantitative feed conveying system is improved.

Description

Quantitative feed conveying system

Technical Field

The utility model relates to the technical field of machinery, in particular to a quantitative feed conveying system.

Background

Compared with the common commercial laying hen (commercial chicken), the breeding requirements of the breeding hens are higher, the amount of the feed required to be fed into each section of trough is the same, and each chicken is guaranteed to eat the same daily. For this purpose, a quantitative output feed box is required to be configured in a targeted manner to meet the quantitative feeding requirement. At present, quantitative feeding equipment used in China is realized by a straight auger type conveying pipeline. The straight auger type conveying pipeline is connected to the material box, and quantitative feeding is achieved by weighing materials in the material box. However, in the in-service use process, because the straight-line auger type conveying pipe is connected to the discharge port on the feed box, in the conveying process, the weighing feed box is affected by the straight-line auger type conveying pipe, the inaccuracy of the weight of the output feed easily occurs, and the accuracy of the feed is poor. In view of this, how to design a technology for improving feeding accuracy is a technical problem to be solved by the present utility model.

Disclosure of Invention

The utility model provides a quantitative feed conveying system, which can improve the feeding accuracy of the quantitative feed conveying system.

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

the utility model provides a quantitative feed conveying system, which comprises:

the auger type conveying pipeline comprises a conveying pipeline and an auger arranged in the conveying pipeline; a feeding port is formed in one end of the conveying pipe, and at least one switchable discharging port is formed in the pipe wall of the conveying pipe;

the feed box assembly comprises a storage box, a weighing device, a temporary storage box and a feed pushing mechanism; the upper part of the storage box is provided with a feeding port, and the lower part of the storage box is provided with an outlet; the feed pushing mechanism has an inlet and a discharge port, and is configured to push feed entering through the inlet to the discharge port for output; the inlet is connected with the outlet, the temporary storage box is positioned below the discharge hole, and the storage box is arranged on the weighing device;

wherein, the pan feeding mouth intercommunication the case of keeping in.

In an embodiment of the present application, the material conveying pipe has an end portion of the material inlet inserted into the temporary storage box, and the material inlet is located inside the temporary storage box.

In an embodiment of the present application, an opening is provided at the bottom of the temporary storage box, and the feeding port is connected with the opening.

In an embodiment of the present application, a longitudinal section of the temporary storage box is of a V-shaped structure.

In an embodiment of the present application, the portion of the conveying pipe connected with the temporary storage box extends along the length direction of the temporary storage box and is arranged on the temporary storage box.

In an embodiment of the present application, the quantitative feed conveying system includes two auger type conveying pipelines, each auger type conveying pipeline's conveying pipeline passes through the pan feeding mouth intercommunication the temporary storage case.

In an embodiment of the present application, two auger-type material conveying pipelines are arranged in a back-to-back extending manner.

In an embodiment of the present application, the bottom of the storage tank is a funnel-shaped structure, and the outlet is arranged at the bottom of the funnel-shaped structure.

In an embodiment of the application, be provided with the discharging pipe on the discharge gate, be provided with the opening on the temporary storage case, the discharging pipe is unsettled to be arranged in the opening.

In an embodiment of the present application, the feed pushing mechanism includes a mounting pipe, a helical blade and a first motor, the inlet and the discharge port are disposed on the mounting pipe, the helical blade is disposed in the mounting pipe, and the first motor is configured to drive the helical blade to rotate in the mounting pipe;

or, fodder pushing mechanism includes annular channel, chain and second motor, be provided with on the annular channel the import with the discharge gate, be provided with a plurality of sprockets in the annular channel, be provided with a plurality of separation blades on the chain, the chain sets up in the annular channel and winds on the sprocket, the second motor is configured to drive at least one the sprocket rotates.

Compared with the prior art, the technical scheme of the utility model has the following technical effects: through setting up fodder push mechanism in the bottom of storage case to dispose the relatively independent case of keeping in below feed push mechanism's discharge gate, auger formula conveying pipeline outwards carries the fodder in the case of keeping in and carries out the throwing something and feeding of fodder through the bin outlet, and at auger formula conveying pipeline conveying fodder's in-process, because fodder push mechanism and the case of keeping in mutually independent, auger formula conveying pipeline conveying material in-process can not cause the influence to the storage case at top to the effort that the case produced of keeping in, and then can be through the weight of the more accurate measurement storage case of weighing machine, ensure more accurate output quantitative fodder, realize improving the feed accuracy.

Drawings

FIG. 1 is a schematic diagram of a quantitative feed delivery system according to the present utility model;

FIG. 2 is an enlarged schematic view of a portion of the area A of FIG. 1;

FIG. 3 is a schematic view of the bin assembly of FIG. 1;

FIG. 4 is a partially enlarged schematic illustration of region B of FIG. 3;

FIG. 5 is a second schematic diagram of the quantitative feed delivery system of the present utility model.

Reference numerals:

1. a bin assembly; 11. a storage bin; 12. a weighing device; 13. a feed pushing mechanism; 14. a temporary storage box; 15. a mounting frame; 16. a vertical frame; 131. a discharge pipe; 2. auger type material conveying pipeline; 21. a material conveying pipe; 22. and an electric control material valve.

Detailed Description

As shown in fig. 1-4, the present utility model provides a quantitative feed delivery system comprising:

an auger-type delivery conduit 2, said auger-type delivery conduit 2 comprising a delivery conduit 21 and an auger disposed in said delivery conduit 21; a feeding port is arranged at one end of the conveying pipe 21, and at least one switchable discharging port is arranged on the pipe wall of the conveying pipe 21;

the feed box assembly 1, wherein the feed box assembly 1 comprises a storage box 11, a weighing device 12, a temporary storage box 14 and a feed pushing mechanism 13; a feed port (not marked) is arranged at the upper part of the storage box 11, and an outlet (not marked) is arranged at the lower part of the storage box 11; the feed pushing mechanism 13 has an inlet (not marked) and a discharge outlet (not marked), the feed pushing mechanism 13 being configured to push feed entering through the inlet to the discharge outlet; the inlet is connected with the outlet, the temporary storage box 14 is positioned below the discharge hole, and the storage box 11 is arranged on the weighing device 12;

wherein, the feed inlet is communicated with the temporary storage box 14.

Specifically, the quantitative feed conveying system provided by the application stores feed through the feed box and realizes quantitative output of the feed. And the quantitatively output feed is conveyed through the auger type conveying pipeline 2 and finally is fed through the correspondingly opened discharge port.

Since the auger type feeding pipe 2 simultaneously feeds the feed to the discharge port at the corresponding position in the process of feeding the feed to the outside of the storage tank 11. In order to avoid that the auger type feed conveying pipeline 2 conveys the feed to the weighing of the storage box 11 weighed by the weighing device 12, the feed output from the storage box 11 is stored in the temporary storage box 14, and the temporary storage box 14 supplies the auger type feed conveying pipeline 2 with the feed.

The specific process is as follows: in the process of quantitatively outputting the feed in the feed storage tank 11 outwards, the weight of the feed storage tank 11 is weighed by arranging the weighing device 12, and when the feed storage tank 11 quantitatively outputs the feed outwards, the weight change of the feed storage tank 11 can be accurately measured by the weighing device 12, so that the output quantity of the feed is calculated. The fodder push mechanism 13 that storage case 11 bottom configuration can outwards export the fodder in the storage case 11 to, fodder push mechanism 13 is in the output process, and the whole weight of storage case 11 can be measured in real time to the weighing machine 12 to calculate the output of fodder. The feed pushing mechanism 13 is arranged on the feed storage box 11 to convey the feed in the feed storage box 11 outwards, and the temporary storage box 14 can receive the feed below the discharge hole. And because fodder push mechanism 13 and temporary storage box 14 are independent relatively, auger type conveying pipeline 2 is at the in-process of carrying the fodder, auger type conveying pipeline 2 can produce the power to temporary storage box 14, and temporary storage box 14 can not give storage box 11 with the power, and then avoids auger type conveying pipeline 2 operation to cause the influence to the weighing of storage box 11.

Thus, the feed output from the feed pushing mechanism 13 is the feed output set by the user, so that the output of the feed can be accurately measured, and the accurate quantitative feed delivery can be achieved. At the same time, the auger type feed delivery pipeline 2 can be prolonged in running time so as to ensure that feed in the temporary storage box 14 is delivered out, and also ensure that the feed in the feed delivery pipeline 21 can be completely delivered to a discharge port for delivery, so that the feed feeding precision is improved.

Wherein, be provided with discharging pipe 131 on the discharge gate, be provided with the opening on the temporary storage case 14, discharging pipe 131 unsettled arrangement is in the opening.

Specifically, the feed output from the feed pushing mechanism 13 is delivered to the temporary storage box 14 via the discharge pipe 131 to avoid scattering the feed to the outside. Moreover, the discharging pipe 131 is arranged in the opening of the temporary storage box 14 in a suspended manner, so that the requirement of reliable feeding of the feed is met, the feed is prevented from scattering outside, and the temporary storage box 14 and the feed pushing mechanism 13 can not generate force transmission so as to improve the accuracy of weighing.

In addition, in order to facilitate opening and closing of the discharge port, an electric control valve 22 or a manual valve may be provided on the discharge port.

In some embodiments of the present application, the end of the material conveying pipe 21 having the material inlet is inserted into the temporary storage box 14, and the material inlet is located inside the temporary storage box 14.

Specifically, the feed in the temporary storage box 14 enters the feed conveying pipe 21 through the feed inlet, and one end of the feed conveying pipe 21 is inserted into the temporary storage box 14, so that the feed inlet is positioned at the bottom of the temporary storage box 14, and thus, the feed in the temporary storage box 14 can enter the feed inlet at the bottom under the action of gravity so as to be conveyed through the auger.

In another embodiment, an opening is provided at the bottom of the temporary storage box 14, and the feeding port is connected to the opening.

Specifically, the feed delivery pipe 21 may be disposed outside the temporary storage box 14 and below the temporary storage box 14, where the feed inlet communicates with an opening at the bottom of the temporary storage box 14, and the feed in the temporary storage box 14 enters the feed inlet through the opening.

Wherein, the longitudinal section of the temporary storage box 14 is of a V-shaped structure.

Specifically, the V-shaped temporary storage box 14 can automatically guide the feed to flow into the bottom, so as to smoothly enter the conveying pipe for conveying.

In one embodiment of the present application, the portion of the conveying pipe 21 connected to the temporary storage box 14 extends along the length direction of the temporary storage box 14 and is disposed on the temporary storage box 14.

Specifically, in order to increase the feeding speed of the feeding pipe 21, the feeding port may extend along the length direction of the temporary storage box 14 to communicate with the interior of the temporary storage box 14.

In another embodiment of the present application, as shown in fig. 5, the quantitative feed delivery system includes two auger type delivery pipes 2, and the delivery pipe 21 of each auger type delivery pipe 2 is communicated with the temporary storage box 14 through the feed inlet.

Specifically, in order to improve the coverage of feed delivery, two auger delivery pipes 2 may be disposed on the temporary storage box 14, where the two auger delivery pipes 2 will deliver feed in different directions.

According to the distribution condition of the cultivation columns in the cultivation farm, two auger type conveying pipelines 2 can be arranged in a back-to-back extending mode so as to cover more cultivation columns in the length direction.

Still further, for the bin 1, it further includes a mounting frame 15, on which the oppositely disposed uprights 16 are provided, and the storage bin 11 is disposed between the two oppositely disposed uprights 16.

In particular, the storage tank 11 is arranged overhead by two upright stands 16. While for the scale 12, the scale 12 may be disposed at the bottom of the mounting frame 15 to carry the storage tank 11 through the mounting frame 15. Alternatively, the weighing cell 12 is disposed between the stand 16 and the storage tank 11.

In addition, the bottom of the storage tank 11 is of a funnel-shaped structure, and the outlet is arranged at the bottom of the funnel-shaped structure.

Still further, there may be various configurations for the presentation entity of the feed pushing mechanism 13. For example: the feed pushing mechanism 13 may be an auger conveyor, which includes an installation pipe, a helical blade and a first motor, the installation pipe being provided with the inlet and the outlet, the helical blade being provided in the installation pipe, the first motor being configured to drive the helical blade to rotate in the installation pipe.

Or, the fodder pushing mechanism 13 includes an annular channel, a chain and a second motor, the annular channel is provided with the inlet and the discharge hole, the annular channel is provided with a plurality of sprockets, the chain is provided with a plurality of baffle plates, the chain is arranged in the annular channel and winds around the sprockets, and the second motor is configured to drive at least one sprocket to rotate. The structure of the feed pushing mechanism 13 by adopting the chain to cooperate with the blocking piece can refer to the driving mode of the feeding chain in the auger type feeding pipeline 2, and is not limited and described in detail herein.

Compared with the prior art, the technical scheme of the utility model has the following technical effects: through setting up fodder push mechanism in the bottom of storage case to dispose the relatively independent case of keeping in below feed push mechanism's discharge gate, auger formula conveying pipeline outwards carries the fodder in the case of keeping in and carries out the throwing something and feeding of fodder through the bin outlet, and at auger formula conveying pipeline conveying fodder's in-process, because fodder push mechanism and the case of keeping in mutually independent, auger formula conveying pipeline conveying material in-process can not cause the influence to the storage case at top to the effort that the case produced of keeping in, and then can be through the weight of the more accurate measurement storage case of weighing machine, ensure more accurate output quantitative fodder, realize improving the feed accuracy.

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 (10)

1. A metered dose feed delivery system comprising:

the auger type conveying pipeline comprises a conveying pipeline and an auger arranged in the conveying pipeline; a feeding port is formed in one end of the conveying pipe, and at least one switchable discharging port is formed in the pipe wall of the conveying pipe;

the feed box assembly comprises a storage box, a weighing device, a temporary storage box and a feed pushing mechanism; the upper part of the storage box is provided with a feeding port, and the lower part of the storage box is provided with an outlet; the feed pushing mechanism has an inlet and a discharge port, and is configured to push feed entering through the inlet to the discharge port for output; the inlet is connected with the outlet, the temporary storage box is positioned below the discharge hole, and the storage box is arranged on the weighing device;

wherein, the pan feeding mouth intercommunication the case of keeping in.

2. A metered dose feed delivery system as recited in claim 1, wherein the end of the feed delivery tube having the feed inlet is inserted into the temporary storage bin, the feed inlet being located inside the temporary storage bin.

3. A metered dose feed delivery system as recited in claim 1, wherein an opening is provided in the bottom of the temporary storage bin, and the feed inlet is connected to the opening.

4. A quantitative feed delivery system according to claim 1, wherein said temporary storage box has a V-shaped longitudinal section.

5. A metered dose feed delivery system as recited in claim 4, wherein the portion of the feed delivery conduit that is connected to the surge tank extends along the length of the surge tank and is disposed on the surge tank.

6. A metered feed delivery system as recited in claim 4, including two said auger-type delivery conduits, said delivery conduit of each said auger-type delivery conduit communicating with said temporary storage bin through said inlet.

7. A metered dose feed delivery system as recited in claim 6, wherein two of said auger-type delivery conduits are disposed in a back-extending relationship.

8. A metered dose feed delivery system as recited in claim 1, wherein the bottom of the storage tank is of a funnel-like configuration, and the outlet is disposed at the bottom of the funnel-like configuration.

9. A quantitative feed delivery system according to claim 1, wherein a discharge pipe is provided at the discharge port, an opening is provided at the temporary storage box, and the discharge pipe is suspended in the opening.

10. A metered dose feed delivery system as recited in claim 1, wherein the feed pushing mechanism comprises a mounting conduit with the inlet and the outlet disposed thereon, a helical blade disposed in the mounting conduit, and a first motor configured to drive the helical blade to rotate in the mounting conduit;

or, fodder pushing mechanism includes annular channel, chain and second motor, be provided with on the annular channel the import with the discharge gate, be provided with a plurality of sprockets in the annular channel, be provided with a plurality of separation blades on the chain, the chain sets up in the annular channel and winds on the sprocket, the second motor is configured to drive at least one the sprocket rotates.