CN112550875B - Bulk storage system for feed raw materials - Google Patents

Abstract

The invention discloses a bulk storage system for feed raw materials, which comprises: ton package material is received and is stored up system and powder and receive and store up the system, and ton package material is received and is stored up the system and include: an automatic bag cutting device; a first closed conveying device; the material storage device can be communicated with a discharge hole of the first closed conveying device; and the second closed conveying device can be communicated with a discharge hole of the material storage device, and is used for conveying materials to a workshop bin. The powder storage system includes: an air pipe, a powder storage device and a third closed conveying device. The inlet of the air pipe can be hermetically communicated with the air tank truck. The third closed conveying device can be communicated with a discharge port of the powder storage device and conveys the powder to a workshop bin. The invention carries out intelligent closed conveying on the raw materials. Personnel and raw materials do not directly contact in the whole process, so that the biosafety risk is reduced, and meanwhile, the labor cost and the personal safety risk are reduced.

Description

Feed ingredient is in bulk and is received storage system

Technical Field

The invention relates to the field of feed production, in particular to a bulk storage system for feed raw materials.

Background

Conventional feed raw material supply, materials purchased from the market are mainly transported to a feed factory in a bagged mode through a raw material truck, and are manually unloaded, stacked and transported to a raw material workshop through a forklift. During the use, transport the workshop feed bin with the raw materials through operation such as artifical fork truck transports, cuts the package and throws material. Every link of above-mentioned process all needs artifical transport, transports etc. and safe risk is high, and the cost of labor is high, and whole process all has the risk of being polluted by the people simultaneously, vehicle transportation pollution and aerosol pollution on the way, in case polluted, the disease can directly spread every animal through the fodder.

Therefore, how to avoid the feed from being polluted and reduce the labor cost is a critical problem to be solved urgently by the technical personnel in the field.

Disclosure of Invention

The invention aims to avoid the pollution of the feed and reduce the labor cost. In order to realize the purpose, the invention provides the following technical scheme:

a feed ingredient bulk storage system comprises: ton package material is received and is stored up system, ton package material is received and is stored up system and includes:

an automatic bag cutting device;

the first closed conveying device is communicated with the automatic bag cutting device;

the material storage device can be communicated with a discharge hole of the first closed conveying device;

and the second closed conveying device can be communicated with a discharge hole of the material storage device, and is used for conveying materials to a workshop bin.

Preferably, still include the powder storage system, the powder storage system includes:

the inlet of the air pipe can be hermetically communicated with the gas tank truck;

the powder storage device can be communicated with the discharge hole of the air pipe;

and the third closed conveying device can be communicated with a discharge hole of the powder storage device, and is used for conveying the powder to the workshop bin.

Preferably, the material storage device comprises a plurality of material storage tanks, the first closed conveying device comprises a first pipe chain conveying device, the first pipe chain conveying device comprises a plurality of material feeding branch pipes, and each material feeding branch pipe corresponds to one material storage tank.

Preferably, the material feeding device further comprises a plurality of electromagnetic valves, and each electromagnetic valve is used for switching on or off one material feeding branch pipe.

Preferably, a feeding auger is arranged in a ton bag opening of the automatic bag cutting device and used for conveying powder to the first pipe chain conveying device.

Preferably, the material collecting and storing tanks are arranged in two rows, the number of the first pipe chain conveying devices is two, and the two groups of the first pipe chain conveying devices are respectively used for conveying materials to the two rows of the material collecting and storing tanks;

the feeding packing augers are two and are respectively used for conveying materials to the two groups of first pipe chain conveying devices.

Preferably, first pipe chain conveyor includes material pay-off house steward, material pay-off house steward is located one row that corresponds the top of storage tank is received to the material, the vertical setting of material pay-off branch pipe, the solenoid valve is the three-way valve, and is a plurality of the three-way valve all sets up on the material pay-off house steward, each material pay-off branch pipe is through one the export of three-way valve with material pay-off house steward intercommunication.

Preferably, the second closed conveying device comprises a second pipe chain conveying device, a discharging auger is arranged below the material collecting and storing tank, and the discharging auger is used for conveying materials to the second pipe chain conveying device.

Preferably, the second pipe chain conveying device comprises a material discharging main pipe and a plurality of material discharging branch pipes, each material discharging branch pipe is used for being communicated with a discharging port of one material receiving and storing tank, and outlets of all the material discharging branch pipes are communicated with the material discharging main pipe.

Preferably, the air pipe comprises a plurality of powder feeding branch pipes, the powder storage device comprises a plurality of powder storage tanks, and each powder feeding branch pipe corresponds to one powder storage tank.

Preferably, the feeder further comprises a plurality of pneumatic valves, each of which is arranged on one of the feeder branch pipes.

Preferably, the powder storage tanks are arranged in rows, the air pipe comprises a powder feeding main pipe, the powder feeding main pipe is located above the powder storage tanks, all the powder feeding branch pipes are communicated with the powder feeding main pipe, and the powder feeding branch pipes are vertically arranged.

Preferably, the bottom of the powder storage tank is provided with a pneumatic gate, the third closed conveying device comprises a scraper conveying device, a conveying belt of the scraper conveying device is positioned below the powder storage tank, and the conveying belt can receive powder falling from the powder storage tank.

Preferably, still include dust collector, dust collector includes the dust removal pipe, the dust removal pipe can with the powder storage tank intercommunication.

According to the technical scheme, the conveying route of the ton package materials is as follows: the automatic bag cutting device, the first pipe chain conveying device, the material collecting and storing tank, the second pipe conveying device and the workshop bin. The conveying route of the powder is as follows: the device comprises an air pipe, a powder collecting and storing tank, a scraper conveying device and a workshop stock bin. The invention changes the traditional mode that the original bagged materials depend on manual unloading and stacking transportation, and stores all the raw materials in bulk after being fed into a factory, and intelligently conveys the raw materials in bulk. Personnel and raw materials do not directly contact in the whole process, so that the biosafety risk is reduced, and meanwhile, the labor cost and the personal safety risk are reduced.

Drawings

In order to more clearly illustrate the solution of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below, it is obvious that the drawings in the description below are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without inventive effort.

Fig. 1 is a top view of a ton charge storage system according to an embodiment of the present invention;

fig. 2 is a front view of a ton bag material collecting and storing system according to an embodiment of the present invention;

FIG. 3 is an enlarged view of a material discharge header provided in accordance with one embodiment of the present invention;

FIG. 4 is a front view of a powder storage system according to an embodiment of the present invention.

Wherein, 1 is an automatic bag cutting device, 2 is a first pipe chain conveying device, 3 is a material collecting and storing tank, 4 is an inlet of an air pipe, 5 is an air pipe, 6 is a powder collecting and storing tank, 7 is a powder feeding branch pipe, 8 is a dust removing device, 9 is a scraper conveying device, 10 is a material feeding main pipe, 11 is a material feeding branch pipe, 12 is a second pipe chain conveying device, and 13 is a three-way valve.

Detailed Description

The invention discloses a bulk storage system for feed raw materials, which can realize intelligent closed conveying of the raw materials, thereby avoiding feed pollution and reducing the labor cost.

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, the terms "upper", "lower", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of describing the present invention but do not require that the present invention must be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

The feed raw material bulk storage system comprises a ton-packed material storage system and a powder storage system. The feed material typically comprises ton of bales and meal. The raw materials packaged and transported by ton bags are called materials, and the raw materials hermetically transported by a gas tanker are called powder materials. This convention is for convenience of description only and is not limiting of the invention.

Ton package material is received and is stored up the system and includes: the automatic bag cutting device comprises an automatic bag cutting device 1, a first closed conveying device, a material storage device and a second closed conveying device. The automatic bag cutting device 1 is used for disassembling the ton bag. The semitrailer transports the ton ladles to the plant. And then the automatic unloading device unloads the ton lading from the semitrailer. Then the automatic bale cutting device 1 unpacks the ton bale material. The materials in the ton bag directly enter the mouth of the ton bag. The ton bag opening is communicated with the first closed conveying device. So that the material enters the first closed conveying device. First airtight conveyor can realize the airtight transport to the material to carry the material and store for material storage device. When a workshop bin needs materials, the materials in the material collecting device can enter the second closed conveying device. The second airtight conveying device can realize airtight conveying of the materials and convey the materials to a workshop bin.

The ton bag material collecting and storing system can automatically complete bag cutting, can realize closed conveying of materials, and can convey the materials into the material collecting and storing device in a closed mode for storage. When the workshop bin needs materials, the second closed conveying device conveys the materials to the workshop bin. The ton package material collecting and storing system can realize intelligent and closed conveying of materials, so that labor cost is reduced, and pollution to the materials is avoided.

The powder is transported to a factory in a sealed way by a gas tank truck. The powder is received and is stored up the system and includes: an air pipe 5, a powder storage device and a third closed conveying device. The air compressor is arranged in the air tank truck. The air pipe 5 can be hermetically communicated with the gas tank truck, and powder in the gas tank truck can enter the air pipe 5 under the action of the air compressor. The powder storage device can be communicated with the discharge port of the air pipe 5, so that the air pipe 5 can convey the powder to the powder storage device. The third closed conveying device is communicated with a discharge hole of the powder storage device. Therefore, when the workshop storage bin needs powder, the powder in the powder collecting device can enter the third closed conveying device, and the third closed conveying device can convey the powder to the workshop storage bin.

The powder storage system can drive powder under the action of the air compressor. The powder enters the powder collecting device along the air pipe 5 for storage. When the workshop feed bin needs the powder, the third airtight conveying device can convey the powder to the workshop feed bin. The powder storage system can realize intelligent and closed conveying of the powder, not only reduces the labor cost, but also avoids the pollution of the powder.

The ton package material storage system is described in detail as follows: the material storage device in the ton package material storage system comprises a plurality of material storage tanks 3. Each material receiving tank 3 is used for receiving and storing different materials. For example, one of the first material receiving and storing tank is used for receiving and storing lysine materials, the other material receiving and storing tank 3 is used for receiving and storing glucose materials, and the other material receiving and storing tank 3 is used for receiving and storing citric acid materials.

The first closed conveying device comprises a first pipe chain conveying device 2, the first pipe chain conveying device 2 comprises a plurality of material feeding branch pipes 11, and each material feeding branch pipe corresponds to one material receiving and storing tank 3. In addition, a plurality of electromagnetic valves are provided, each for turning on or off one of the material feeding branch pipes 11. If the lysine materials are to be stored, the corresponding electromagnetic valve is opened, and the lysine materials are driven by the first pipe chain device to enter the corresponding material storage tank 3. Furthermore, the electromagnetic valve is controlled by the controller, so that the intelligent storage of the materials can be realized.

Ton package material is through unpacking the back, and its inside material can fall into ton package mouth. The invention arranges a feeding auger in the ton bag opening. The feeding auger is used for conveying materials to the first pipe chain conveying device 2. The auger is a screw conveyor, and the feeding auger is a screw conveyor for conveying materials.

If the number of the material receiving tanks 3 for storing the material is large, the present invention arranges the material receiving tanks 3 in two rows in order to make the overall structure more compact. The first pipe chain conveyors 2 are correspondingly two sets. The two groups of first pipe chain conveying devices 2 are respectively used for conveying materials to the two rows of material receiving and storing tanks 3. The number of the feeding augers is correspondingly two, and the two feeding augers are respectively used for conveying materials to the two groups of first pipe chain conveying devices 2.

It should be noted that the output end of the feeding auger can be communicated with the two first pipe chain conveying devices 2, the inlet ends of the two first pipe chain conveying devices 2 are provided with valves, and the controller controls the opening and closing of the valves according to a program, so as to determine to which first pipe chain conveying device 2 the feeding auger conveys the material.

The first pipe chain conveyor 2 is described next: the first pipe chain conveyor 2 comprises a material feeding main pipe 10 in addition to a plurality of material feeding branch pipes 11. The material feeding main pipe 10 is horizontally arranged and is positioned above a row of material collecting and storing tanks 3. The material feeding branch pipe 11 is vertically arranged. The electromagnetic valve for controlling the conduction or the cut-off of the material feeding branch pipe 11 is a three-way valve 13. The three-way valve 13 is arranged on the material feeding main pipe 10. The three-way valve 13 has one inlet and two outlets. The first of which opens into the downstream pipe of the main material feed conduit 10 and the second of which opens into a branch material feed conduit 11. Since the material feed branch pipe 11 is plural, the three-way valve 13 is correspondingly plural. If material is to enter the first holding tank, the first outlet of the first three-way valve 13 is closed and the second outlet is open. If the material is to enter the second holding tank, the first outlet of the first three-way valve 13 is connected and the second outlet is cut off, and the first outlet of the second three-way valve 13 is cut off and the second outlet is connected. Thus, the material can enter any one of the material receiving tanks 3.

Next, the second pipe chain conveying device 12 is described: the second capsule transfer device comprises a second pipe chain transfer device 12. A discharging auger is arranged below each material collecting and storing tank 3. The discharging auger is used for conveying the materials to the second pipe chain conveying device 12.

The second pipe chain conveying device 12 comprises a material discharging main pipe and a plurality of material discharging branch pipes. Each material discharging branch pipe is communicated with a discharging hole of one material receiving and storing tank 3. The outlets of the material discharging branch pipes are communicated with the material discharging main pipe. If the materials in a certain material receiving and storing tank 3 need to be conveyed to a workshop stock bin, the discharging auger of the material receiving and storing tank 3 starts to operate, enters a material discharging main pipe through a corresponding material discharging branch pipe and finally enters the workshop stock bin.

Next, the powder storage system is described: the air pipe 5 in the powder storage system can be hermetically communicated with the air tank truck. The gas pipe 5 comprises a plurality of powder feeding branch pipes 7. The powder storage device comprises a plurality of powder storage tanks 6. Each powder feeding branch pipe 7 corresponds to one powder collecting and storing tank 6. Each feeding branch pipe is also provided with a pneumatic valve for controlling the on and off of the powder feeding branch pipes 7. If a powder is to be supplied to a certain powder storage tank 6, the corresponding pneumatic valve is opened. Under the action of an air compressor of the air tank truck, powder can enter a powder collecting and storing tank 6 through a corresponding powder feeding branch pipe 7.

The powder collecting tanks 6 are arranged in rows. The air pipe 5 comprises a powder feeding main pipe which is positioned above the powder collecting and storing tank 6 and is horizontally arranged. The powder feeding branch pipe 7 is communicated with the powder feeding main pipe, and the powder feeding branch pipe 7 is arranged along the vertical direction.

The bottom of the powder collecting and storing tank 6 is provided with a pneumatic gate. The third closed conveying device comprises a scraper conveying device 9. The casing of the scraper conveying device 9 is closed, so that dust flying during powder conveying can be prevented from polluting the environment. The conveyer belt of the scraper conveyer 9 is positioned below the powder storage tank 6. If the pneumatic gate at the bottom of the powder collecting tank 6 is opened, the powder in the powder collecting tank 6 enters the scraper conveying device 9 and enters a workshop bin under the conveying of the scraper conveying device 9.

The powder storage system also comprises a dust removal device 8. The dust removal device 8 comprises a dust removal pipe, and the dust removal pipe can be communicated with the powder storage tank 6. Before powder is conveyed to a certain powder receiving and storing tank 6, the powder receiving and storing tank 6 needs to be dedusted, and then the corresponding dedusting pipe is opened.

To sum up, the conveying route of ton package material is: the automatic bag cutting device comprises an automatic bag cutting device 1, a first pipe chain conveying device 2, a material collecting and storing tank 3, a second pipe conveying device and a workshop bin. The conveying route of the powder is as follows: an air pipe 5, a powder collecting and storing tank 6, a scraper conveying device 9 and a workshop bin. The invention changes the traditional mode that the original bagged materials are unloaded manually and transported by stacking, and bulk storage and bulk intelligent conveying are carried out after all the materials are fed into a factory. Personnel and raw materials do not directly contact in the whole process, so that the biosafety risk is reduced, and meanwhile, the labor cost and the personal safety risk are reduced.

Finally, it should be further noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

In the present specification, the embodiments are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A feed ingredient is storage system in bulk, its characterized in that includes: ton package material is received and is stored up system, ton package material is received and is stored up the system and includes:

an automatic bag cutting device;

the first closed conveying device is communicated with the automatic bag cutting device;

the material storage device can be communicated with a discharge hole of the first closed conveying device;

the second closed conveying device can be communicated with a discharge hole of the material storage device and is used for conveying materials to a workshop bin;

the material storage device comprises a plurality of material storage tanks, the first closed conveying device comprises a first pipe chain conveying device, the first pipe chain conveying device comprises a plurality of material feeding branch pipes, and each material feeding branch pipe corresponds to one material storage tank;

the material feeding device also comprises a plurality of electromagnetic valves, and each electromagnetic valve is used for switching on or switching off one material feeding branch pipe;

a feeding auger is arranged in a ton bag opening of the automatic bag cutting device and used for conveying powder to the first pipe chain conveying device;

the material collecting and storing tanks are arranged in two rows, the number of the first pipe chain conveying devices is two, and the two groups of the first pipe chain conveying devices are respectively used for conveying materials to the two rows of the material collecting and storing tanks;

the two feeding packing augers are respectively used for conveying materials to the two groups of first pipe chain conveying devices.

2. The feed ingredient bulk storage system of claim 1, further comprising a meal storage system, the meal storage system comprising:

the inlet of the air pipe can be hermetically communicated with the gas tank truck;

the powder storage device can be communicated with the discharge hole of the air pipe;

and the third closed conveying device can be communicated with a discharge hole of the powder storage device, and is used for conveying the powder to the workshop bin.

3. The raw feed material bulk storage system according to claim 1, wherein the first pipe chain conveyor comprises a main feed pipe, the main feed pipe is located above a corresponding row of the feed storage tanks, the branch feed pipes are vertically arranged, the solenoid valves are three-way valves, the three-way valves are all arranged on the main feed pipe, and each branch feed pipe is communicated with the main feed pipe through an outlet of one of the three-way valves.

4. The raw feed material bulk storage system according to claim 1, wherein the second closed conveying device comprises a second pipe chain conveying device, and a discharge auger is arranged below the material storage tank and used for conveying materials to the second pipe chain conveying device.

5. The feed ingredient bulk storage system according to claim 4, wherein the second pipe chain conveying device comprises a material discharging main pipe and a plurality of material discharging branch pipes, each material discharging branch pipe is used for being communicated with a discharging port of one material storage tank, and outlets of all the material discharging branch pipes are communicated with the material discharging main pipe.

6. The feed raw material bulk storage system according to claim 2, wherein the air pipe comprises a plurality of powder feeding branch pipes, the powder storage device comprises a plurality of powder storage tanks, and each powder feeding branch pipe corresponds to one powder storage tank.

7. The raw feed material bulk storage system according to claim 6, further comprising a plurality of pneumatic valves, each of the pneumatic valves being provided on one of the feed legs.

8. The raw material bulk storage system for fodder according to claim 6, wherein the powder storage tanks are arranged in rows, the air pipe comprises a powder feeding main pipe, the powder feeding main pipe is located above the powder storage tanks, all the powder feeding branch pipes are communicated with the powder feeding main pipe, and the powder feeding branch pipes are arranged vertically.

9. The bulk storage system for feed raw materials according to claim 6, wherein a pneumatic gate is arranged at the bottom of the powder storage tank, the third closed conveying device comprises a scraper conveying device, a conveyer belt of the scraper conveying device is positioned below the powder storage tank, and the conveyer belt can receive powder falling from the powder storage tank.

10. The feed ingredient bulk storage system of claim 2, further comprising a dust removal device comprising a dust removal pipe, the dust removal pipe being capable of communicating with the meal storage tank.

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