CN215611142U - Integrated full-automatic feed production system - Google Patents

Abstract

The utility model relates to an integrated full-automatic feed production system, which comprises a solid raw material adding device, an auxiliary material adding device, a raw oil adding device and a liquid raw material adding device, wherein the solid raw material adding device and the auxiliary material adding device are both connected with a first mixing mechanism, the first mixing mechanism and the raw oil adding device are both connected with a second mixing mechanism, the liquid raw material adding device is communicated with a third mixing mechanism through a liquid conveying pipe, the third mixing mechanism comprises a first rotating assembly and a second rotating assembly, the upper end of the first rotating assembly is provided with a first turntable, the liquid conveying pipe can convey additives in the liquid raw material adding device to the first turntable, the bottom of the second rotating assembly is provided with a second turntable, and a first feeding pipe is arranged on one side of the second rotating assembly and can convey the feed in the second mixing mechanism to the second rotating disc. This full-automatic feed production system of integration can add multiple raw materials by automatic timing ration, and the raw materials mixing is more even.

Description

Integrated full-automatic feed production system

Technical Field

The utility model relates to the technical field of feed production, in particular to an integrated full-automatic feed production system.

Background

With the rapid development of the breeding industry, the breeding scale is continuously increased, and the requirement of pigs on nutrition is higher and higher. In modern breeding, the feed is the only nutrient source for pigs. In order to meet the nutritional requirements of pigs, various nutrient substances are often required to be added in the feed production process, however, different nutrient substances have different physical and chemical characteristics, and in order to fully exert the efficacy of the feed, a plurality of nutrient substances, even dozens of nutrient substances, are required to be added in the feed processing, the feed processing becomes more complicated due to the increase of the types of the nutrient substances, a plurality of procedures and personnel investment are required to be increased, the production cost is increased, and the palatability of the pigs can be influenced due to the fact that the various nutrient substances are not fully mixed and reacted.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model aims to: the utility model provides a full-automatic feed production system of integration, it can add multiple raw materials automatically, and the raw materials mixing is more even.

To achieve the purpose, the embodiment of the utility model adopts the following technical scheme:

the integrated full-automatic feed production system comprises a solid raw material adding device, an auxiliary material adding device, a raw oil adding device and a liquid raw material adding device;

the solid raw material adding device and the auxiliary material adding device are both connected with a first mixing mechanism, the first mixing mechanism and the raw material oil adding device are both connected with a second mixing mechanism, and the second mixing mechanism and the liquid raw material adding device are respectively communicated with a third mixing mechanism;

third mixing mechanism includes first rotating assembly and second rotating assembly, first rotating assembly's upper end is provided with first carousel, first rotating assembly drives first carousel rotates along the first direction, liquid raw materials in the liquid raw materials interpolation device passes through the liquid conveyer pipe and carries on the first carousel, the second rotating assembly is located third mixing mechanism's top, second rotating assembly bottom is provided with the second carousel, second rotating assembly drives the second carousel rotates along the second direction, the first direction with the second opposite direction, one side of second rotating assembly is provided with first inlet pipe, first inlet pipe can with fodder in the second mixing mechanism is carried on the second carousel.

As a preferred scheme of an integrated full-automatic feed production system, the first rotary table is of a solid cone structure, the first rotary table comprises a first plane, a peripheral side surface and a second plane, the outer diameter of the first plane is larger than that of the second plane, the peripheral side surface is connected with the first plane and the second plane, the second plane is connected with the first rotating assembly, through holes which penetrate through the second plane and can disperse the liquid raw materials are arranged on the peripheral side surface at intervals, and the through holes are adjacent to the second plane.

As an integrated full-automatic feed production system, the first rotating assembly comprises a first rotating motor, the first rotating motor is arranged at the bottom of the third mixing mechanism, the output end of the first rotating motor is provided with a first rotating shaft, the first rotating shaft sleeve is provided with a sleeve, the first rotating shaft penetrates through the sleeve, the end part outside the sleeve is connected with the first rotary disc, the sleeve is communicated with the liquid conveying pipe, the liquid raw material can be conveyed to the peripheral side surface of the first rotary disc through the sleeve, and the peripheral side surface is dispersed to enable the liquid raw material to be sprayed upwards in a rotating mode.

As an optimal scheme of an integrated full-automatic feed production system, the solid raw material adding device comprises a solid raw material storage bin, a filtering mechanism, a crushing mechanism and a fourth mixing mechanism, the solid raw material storage bin is provided with a plurality of solid raw material storage bins, each solid raw material storage bin is connected with the filtering mechanism, the filtering mechanism is connected with the crushing mechanism, all the crushing mechanism is connected with the fourth mixing mechanism, each crushing mechanism is connected with a weighing device is arranged between the fourth mixing mechanism, the fourth mixing mechanism is connected with the first mixing mechanism, and a timer is arranged between the fourth mixing mechanism and the first mixing mechanism.

As an integration full-automatic feed production system is a preferred scheme, the auxiliary material adds the device and stores storehouse and fifth mixing mechanism including the auxiliary material, the storehouse is stored to the auxiliary material is provided with a plurality ofly, every the auxiliary material store the storehouse all with fifth mixing mechanism connects, the auxiliary material store the storehouse with be provided with the weighing device between the fifth mixing mechanism, fifth mixing mechanism with first mixing mechanism connects.

As an optimized scheme of an integrated full-automatic feed production system, the raw oil adding device comprises a plurality of raw oil storage bins, an emulsification and homogenization mechanism and a sixth mixing mechanism, the raw oil storage bins are connected with the sixth mixing mechanism, a meter is arranged between the raw oil storage bins and the sixth mixing mechanism, the sixth mixing mechanism is connected with the emulsification and homogenization mechanism, the emulsification and homogenization mechanism is used for emulsifying and homogenizing mixed oil in the sixth mixing mechanism, and the emulsification and homogenization mechanism is communicated with the second mixing mechanism through an oil conveying pipe.

As a preferable proposal of the integrated full-automatic feed production system, the second mixing mechanism comprises an atomizing nozzle and a third rotating component, the third rotating component is arranged at the top of the second mixing mechanism, a third rotating disc is arranged at the bottom of the third rotating component, the third rotating component drives the third rotating disc to rotate, a second feeding pipe is arranged on one side of the third rotating assembly, the second feeding pipe can convey the solid raw materials mixed by the first mixing mechanism to the third rotating disc, the atomizing spray head is arranged on the inner side wall of the second mixing mechanism, and is positioned below the third rotary table, the atomizing nozzle is communicated with the oil delivery pipe, the oil delivery pipe is provided with a first pressure pump, the first pressure pump can atomize and spray the emulsified and homogenized mixed oil into the second mixing mechanism.

As an optimal selection scheme of an integrated full-automatic feed production system, the two atomization nozzles are arranged and located on two opposite side surfaces of the second mixing mechanism, the two atomization nozzles are respectively connected with a three-way joint through the oil conveying pipe, and the three-way joint is connected with the emulsification homogenizing mechanism through a pipeline.

As an optimal scheme of an integrated full-automatic feed production system, the liquid raw material adding device comprises a liquid raw material storage bin and a seventh mixing mechanism, the liquid raw material storage bin is provided with a plurality of liquid raw materials, each liquid raw material storage bin is connected with the seventh mixing mechanism, and a meter is arranged between the liquid raw material storage bin and the seventh mixing mechanism.

As an optimal scheme of an integration full-automatic feed production system, still include quenching and tempering mechanism, pelletization mechanism and cooling body, the second mixing mechanism with quenching and tempering mechanism connects, quenching and tempering mechanism with pelletization mechanism connects, pelletization mechanism with cooling body connects, cooling body passes through first inlet pipe with third mixing mechanism intercommunication, be provided with the timer on the first inlet pipe.

The embodiment of the utility model has the beneficial effects that: add the device and add the device all with first mixing mechanism through setting up solid starting material, first mixing mechanism and raw oil add the device all are connected with second mixing mechanism, liquid starting material adds the device and passes through liquid delivery pipe and third mixing mechanism intercommunication, realize the automatic interpolation of multiple raw materials, through being provided with first carousel and second carousel in the third mixing mechanism, first carousel and second carousel rotate along opposite direction, the second carousel is thrown the fodder downwards, first carousel is upwards shed liquid starting material, liquid starting material and fodder bump when the contact, make the fodder better to the absorptive effect of liquid, it is more even to mix.

Drawings

The utility model is explained in more detail below with reference to the figures and examples.

Fig. 1 is a schematic structural diagram of an integrated full-automatic feed production system according to an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of a first turntable according to an embodiment of the present invention.

In the figure:

1. a first mixing mechanism; 2. a second mixing mechanism; 3. a third mixing mechanism; 4. a solid raw material adding device; 41. a solid raw material storage bin; 42. a filtering mechanism; 43. a crushing mechanism; 44. a weighing device; 45. a fourth mixing mechanism; 5. an auxiliary material adding device; 51. an auxiliary material storage bin; 52. a fifth mixing mechanism; 6. a raw oil adding device; 61. a raw oil storage bin; 62. a sixth mixing mechanism; 63. an emulsifying and homogenizing mechanism; 7. a liquid raw material adding device; 71. a liquid raw material storage bin; 72. a meter; 73. a seventh mixing mechanism; 8. a third rotating assembly; 9. a third turntable; 10. an atomizing spray head; 11. an oil delivery pipe; 12. a timer; 13. a conditioning mechanism; 14. a granulation mechanism; 15. a cooling mechanism; 16. a first feed tube; 17. a first turntable; 171. a first plane; 172. a peripheral side surface; 173. a second plane; 174. a through hole; 18. a second rotating assembly; 19. a second turntable; 20. a first rotating assembly; 21. a sleeve; 22. a liquid delivery pipe; 23. a second feed tube; 24. a packaging mechanism; 25. a second pressure pump; 26. a first pressure pump.

Detailed Description

In order to make the technical problems solved, technical solutions adopted and technical effects achieved by the present invention clearer, the technical solutions of the embodiments of the present invention will be described in further detail below with reference to the accompanying drawings, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, unless expressly stated or limited otherwise, the terms "connected," "connected," and "fixed" are to be construed broadly, e.g., as meaning permanently connected, removably connected, or integral to one another; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the present invention, unless otherwise expressly stated or limited, "above" or "below" a first feature means that the first and second features are in direct contact, or that the first and second features are not in direct contact but are in contact with each other via another feature therebetween. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

As shown in fig. 1, the integrated full-automatic feed production system of the embodiment of the utility model can realize automatic addition of a plurality of raw materials with different properties, is simple to operate, can improve the production efficiency of feed, saves the production cost, and can avoid the loss of heat-sensitive raw materials in the high-temperature granulation process. Full-automatic feed production system of integration includes that solid starting material adds device 4, auxiliary material and adds device 5, raw oil adds device 6 and liquid feedstock adds device 7, and solid starting material adds device 4 and auxiliary material and adds device 5 and all is connected with first mixing mechanism 1, and first mixing mechanism 1 and raw oil add device 6 all are connected with second mixing mechanism 2, and second mixing mechanism 2 and liquid feedstock add device 7 respectively with third mixing mechanism 3 intercommunication.

The third mixing mechanism 3 comprises a first rotating assembly 20 and a second rotating assembly 18, a first rotary disc 17 is arranged at the upper end of the first rotating assembly 20, the first rotating assembly 20 drives the first rotary disc 17 to rotate along a first direction, liquid raw materials in the liquid raw material adding device 7 are conveyed to the first rotary disc 17 through a liquid conveying pipe 22, the second rotating assembly 18 is located at the top of the third mixing mechanism 3, a second rotary disc 19 is arranged at the bottom of the second rotating assembly 18, the second rotating assembly 18 drives the second rotary disc 19 to rotate along a second direction, the first direction is opposite to the second direction, a first feeding pipe 16 is arranged on one side of the second rotating assembly 18, and the first feeding pipe 16 can convey feed in the second mixing mechanism 2 to the second feeding pipe 19. It can be understood that the solid raw material adding device 4 is communicated with the first mixing mechanism 1 through a pipeline, a timer 12 is arranged on the pipeline between the solid raw material adding device 4 and the first mixing mechanism 1, when the set solid raw material adding time is reached, the solid raw material is automatically discharged into the first mixing mechanism 1, the auxiliary material adding device 5 is connected with the first mixing mechanism 1, the timer 12 is connected between the auxiliary material adding device 5 and the first mixing mechanism 1, when the set auxiliary material adding time is reached, the auxiliary material is automatically discharged into the first mixing mechanism 1, the auxiliary material and the solid raw material are fully reacted in the first mixing mechanism 1, the mixed material mixed in the first mixing mechanism 1 is discharged into the second mixing mechanism 2 through a second feeding pipe 23, the raw material oil adding device 6 is communicated with the first mixing mechanism 1 through an oil conveying pipe 11, the timer 12 is arranged on the oil conveying pipe 11, when the set raw oil adding time is reached, the raw oil is automatically discharged into the second mixing mechanism 2, the raw oil and the mixed materials discharged from the first mixing mechanism 1 are concentrated in the second mixing mechanism 2 for mixing reaction, and the mixed materials are mixed and reacted in the second mixing mechanism 2 to form the feed. A first rotating component 20 and a second rotating component 18 are arranged in the third mixing mechanism 3, the first rotating component 20 is fixed at the bottom of the third mixing mechanism 3, a first rotating disc 17 is arranged at the upper end of the first rotating component 20, the first rotating component 20 can drive the first rotating disc 17 to rotate around the axis of the first rotating disc, a liquid conveying pipe 22 can convey the liquid raw material in the liquid raw material adding device 7 to the first rotating disc 17, the first rotating disc 17 drives the liquid raw material to rotate upwards along the axis of the liquid raw material to be thrown, the second rotating component 18 is fixed at the top of the third mixing mechanism 3, a second rotating disc 19 is arranged at the bottom of the second rotating component 18 to rotate along a first direction, the second rotating component 18 can drive the second rotating disc 19 to rotate along a second direction, the first direction is opposite to the second direction, a first feeding pipe 16 is arranged at one side of the second rotating component 18, the first feeding pipe 16 can convey the feed in the second mixing mechanism 2 to the second rotating disc 19, the second carousel 19 is thrown the fodder around its axle center downwardly rotating, and liquid raw materials and fodder form reverse motion, and the collision takes place when liquid raw materials and fodder contact for the fodder is better to liquid raw materials absorption effect, mixes more evenly.

In this embodiment, as shown in fig. 2, the first rotating disc 17 is a solid cone structure with a large top and a small bottom, the first rotating disc 17 includes a first plane 171, a peripheral side surface 172 and a second plane 173, the outer diameter of the first plane 171 is larger than the outer diameter of the second plane 173, the peripheral side surface 172 is connected to the first plane 171 and the second plane 173, the second plane 173 is connected to the first rotating assembly 20, the liquid material can be thrown around along the peripheral side surface 172, through holes 174 penetrating through the second plane 173 are spaced on the peripheral side surface 172, the through holes 174 are adjacent to the second plane 173, and the through holes 174 can disperse the liquid material more uniformly, so that the feed can absorb the liquid material more fully.

In this embodiment, the first rotating assembly 20 includes a first rotating electrical machine, the first rotating electrical machine is disposed at the bottom of the third mixing mechanism 3, the output end of the first rotating electrical machine is provided with a first rotating shaft, the upper end of the first rotating shaft is provided with a first rotating disk 17, the first rotating shaft is sleeved with a sleeve 21, the end portion of the first rotating shaft, which extends to the outside of the sleeve 21 through the sleeve 21, is connected with the first rotating disk 17, a liquid conveying pipe 22 enters the interior of the third mixing mechanism 3 from one side thereof and is communicated with the sleeve 21, the liquid feed pipe 22 is provided with a second pressure pump 25, the liquid material can be fed to the peripheral side surface 172 of the first rotating disk 17 through the sleeve 21 by the pressure provided by the second pressure pump 25, the peripheral side surface 172 disperses the liquid material to make the liquid material spray upward in a rotating manner, the liquid raw materials and the feed thrown by the second rotary disc 19 are absorbed and fused more quickly, and the efficiency of feed production is improved.

Specifically, the solid raw material adding device 4 is used for fully mixing a plurality of solid raw materials, the solid raw material adding device 4 comprises a solid raw material storage bin 41, a filtering mechanism 42, a crushing mechanism 43 and a fourth mixing mechanism 45, the solid raw material storage bin 41 is provided with a plurality of solid raw materials, different solid raw materials are stored in each solid raw material storage bin 41, each solid raw material storage bin 41 is connected with the filtering mechanism 42, the filtering mechanism 42 filters impurities mixed with the solid raw materials, the filtering mechanism 42 is connected with the crushing mechanism 43, the filtered solid raw materials are discharged into the crushing mechanism 43, the crushing mechanism 43 crushes the solid raw materials, the crushed solid raw materials become fine crushed materials which are easy to mix, all the crushing mechanisms 43 are connected with the fourth mixing mechanism 45, a weighing device 44 is arranged between each crushing mechanism 43 and the fourth mixing mechanism 45, an operator can set the weight of the required crushed materials in advance, when the crushed aggregates need to be added, the weigher 44 weighs the crushed aggregates as required and discharges into the fourth mixing mechanism 45, a plurality of weighed solid raw materials are fully mixed in the fourth mixing mechanism 45 to become solid mixed materials, the fourth mixing mechanism 45 is connected with the first mixing mechanism 1, the timer 12 is arranged between the fourth mixing mechanism 45 and the first mixing mechanism 1, the time can be set in advance by an operator, when the set mixed material time is reached, the solid mixed materials are discharged into the first mixing mechanism 1 from the fourth mixing mechanism 45, the solid mixed materials are mixed with other raw materials in the first mixing mechanism 1, and therefore the timed and quantitative automatic adding function of the plurality of solid raw materials is achieved.

Specifically, the auxiliary material adding device 5 is used for mixing multiple auxiliary material additives, wherein the auxiliary material adding device 5 stores the storehouse 51 and the fifth mixing mechanism 52 including the auxiliary material, the auxiliary material stores the storehouse 51 and is provided with a plurality ofly, every auxiliary material stores the storehouse 51 and all is connected with the fifth mixing mechanism 52, the auxiliary material stores and is provided with the weigher 44 between storehouse 51 and the fifth mixing mechanism 52, the fifth mixing mechanism 52 is connected with the first mixing mechanism 1. It can be understood that, every auxiliary material stores storehouse 51 and stores different auxiliary materials, be provided with weighing device 44 between auxiliary material stores storehouse 51 and the fifth mixing mechanism 52, the required weight of auxiliary material can be set for in advance to the operating personnel, when the auxiliary material is added to needs, weighing device 44 weighs the auxiliary material as required, the auxiliary material of weighing gets into fifth mixing mechanism 52, multiple auxiliary material fully mixes the reaction in fifth mixing mechanism 52, the auxiliary material after the mixture discharges into first mixing mechanism 1, the auxiliary material compounding reacts with solid compounding in mixing mechanism 1 mixedly, thereby realize the automatic function of adding of multiple auxiliary material regularly quantitative.

Specifically, the raw oil adding device 6 is used for mixing and reacting a plurality of raw oils to form a mixed oil, wherein the raw oil adding device 6 includes a raw oil storage bin 61, an emulsification and homogenization mechanism 63 and a sixth mixing mechanism 62, the raw oil storage bin 61 is provided with a plurality of raw oils, all the raw oil storage bins 61 are connected with the sixth mixing mechanism 62, a meter 72 is arranged between the raw oil storage bin 61 and the sixth mixing mechanism 62, the sixth mixing mechanism 62 is connected with the emulsification and homogenization mechanism 63, the emulsification and homogenization mechanism 63 is used for emulsifying and homogenizing the raw oil in the sixth mixing mechanism 62, and the emulsification and homogenization mechanism 63 is communicated with the second mixing mechanism 2 through an oil conveying pipe 11. It can be understood that a plurality of stock oil storage bins 61 are provided, each stock oil storage bin 61 stores different stock oils, a meter 72 is provided between the stock oil storage bin 61 and the sixth mixing mechanism 62, an operator can set the weight of the required stock oil in advance, when the stock oil needs to be added, the meter 72 weighs the stock oil as required, the weighed stock oil is discharged into the sixth mixing mechanism 62, a plurality of stock oils are fully mixed and reacted in the sixth mixing mechanism 62 to become mixed oil, a timer 12 and a valve are connected between the sixth mixing mechanism 62 and the emulsification homogenizing mechanism 63, the operator can set the time for the mixed oil to enter the emulsification homogenizing mechanism 63 in advance, when the set time is reached, the valve is opened, the mixed oil enters the emulsification homogenizing mechanism 63, the emulsification homogenizing mechanism 63 emulsifies the mixed oil, a timer 12 is connected between the emulsifying and homogenizing mechanism 63 and the second mixing mechanism 2, so that an operator can set the time for the mixed oil to enter the second mixing mechanism 2 in advance, and when the set time is reached, the mixed oil which is well emulsified and homogenized is discharged into the second mixing mechanism 2, thereby realizing the timed and quantitative addition of the raw oil.

It should be noted that emulsification homogenization is a technique commonly used in industrial production, and is a process of micronizing and homogenizing a dispersion in a suspension system, and the process simultaneously plays roles of reducing the size of the dispersion and improving the distribution uniformity of the dispersion, and the emulsification homogenization technique can improve the stability of oil and fat.

Specifically, the mixed materials in the first mixing mechanism 1 and the well emulsified and homogenized mixed grease are mixed and reacted in the second mixing mechanism 2 to be changed into feed, the second mixing mechanism 2 comprises an atomizing nozzle 10 and a third rotating component 8, the third rotating component 8 is arranged at the top of the second mixing mechanism 2, a third rotating disc 9 is arranged at the bottom of the third rotating component 8, the third rotating component 8 drives the third rotating disc 9 to rotate, a second feeding pipe 23 is arranged at one side of the third rotating assembly 8, the second feeding pipe 23 can convey the solid raw materials mixed by the first mixing mechanism 1 to the third rotating disc 9, the atomizing nozzle 10 is arranged on the side wall of the second mixing mechanism 2, and is located the below of third carousel 9, atomizer 10 and defeated oil pipe 11 intercommunication are provided with first force pump 26 on the defeated oil pipe 11, and first force pump 26 can be atomized with the mixed grease that the emulsification homogeneity is good and spout into in second mixing mechanism 2. It can be understood that, third rotating assembly 8 can drive third carousel 9 and rotate around its axle center, when third carousel 9 rotated, second inlet pipe 23 carried the compounding of first mixing mechanism 1 on third carousel 9, make the compounding throw downwards along the lateral wall of third carousel 9, and third carousel 9 drives the compounding and rotates, atomizer 10 slope sets up in the inside wall of second mixing mechanism 2, and be located the below of third carousel 9, atomizer 10 and defeated oil pipe 11 intercommunication, be connected with first force pump 26 on defeated oil pipe 11, first force pump 26 can spout the mixed oil atomizing of emulsifying homogeneity into second mixing mechanism 2, make the compounding that rotates and throw down react with the grease after the atomizing with higher speed.

Preferably, the inclination angle between the atomizer 10 and the second mixing mechanism 2 is between 120 degrees and 150 degrees.

As preferred scheme, atomizer 10 is provided with two, and is located the relative both sides face of second mixing mechanism 2, defeated oil pipe 11 is provided with two, two atomizer 10 all connects three way connection respectively through defeated oil pipe 11, and three way connection passes through the pipeline and is connected with emulsification homogeneity mechanism 63, sets up atomizer 10 in the relative both sides of second mixing mechanism 2 for the more even distribution of grease after the atomizing is in the both sides of third carousel 9, is favorable to increasing the mixing velocity of grease and compounding.

Preferably, the oil pipe 11 is provided with an oil valve, and the injection rate of the atomizer 10 is controlled by the oil valve.

Specifically, the liquid material adding device 7 can perform a sufficient mixing reaction on a plurality of liquid materials, wherein the liquid material adding device 7 includes a plurality of liquid material storage bins 71 and a seventh mixing mechanism 73, the liquid material storage bins 71 are provided, each liquid material storage bin 71 is connected with the seventh mixing mechanism 73, and a meter 72 is provided between the liquid material storage bin 71 and the seventh mixing mechanism 73. It can be understood that the liquid raw materials are stored in the liquid raw material storage bin 71, the metering device 72 is connected between the liquid raw material storage bin 71 and the seventh mixing mechanism 73, an operator can set the required weight of the liquid raw materials in advance, when the liquid raw materials need to be added, the metering device 72 weighs the liquid raw materials as required, the weighed liquid raw materials are discharged into the seventh mixing mechanism 73, a plurality of liquid raw materials are fully mixed and reacted in the seventh mixing mechanism 73, and the mixed liquid raw materials are conveyed into the third mixing mechanism 3 through the liquid conveying pipe 22, so that the automatic addition of the liquid raw materials in a timing and quantitative mode is realized.

In this embodiment, the integrated full-automatic feed production system further includes a conditioning mechanism 13, a granulating mechanism 14 and a cooling mechanism 15, the second mixing mechanism 2 is connected with the conditioning mechanism 13, the conditioning mechanism 13 is connected with the granulating mechanism 14, the granulating mechanism 14 is connected with the cooling mechanism 15, the cooling mechanism 15 is communicated with the third mixing mechanism 3 through a first feeding pipe 16, and a timer 12 is arranged on the first feeding pipe 16. It can be understood that the conditioning mechanism 13 is connected with the second mixing mechanism 2, a timer 12 is connected between the conditioning mechanism 13 and the second mixing mechanism 2, an operator can set the time for mixing the materials and mixing the materials into the feed in advance, when the set time is reached, the feed is discharged into the conditioning mechanism 13, the conditioning mechanism 13 can condition the feed, the conditioning can improve the processing quality of the feed and improve the palatability and the digestibility of the feed, the conditioning mechanism 13 is connected with the granulating mechanism 14, the timer 12 is connected between the conditioning mechanism 13 and the granulating mechanism 14, the operator can set the time for the feed to enter the granulating mechanism 14 in advance, when the set time is reached, the conditioned feed is discharged into the granulating mechanism 14, the granulating mechanism 14 cuts the feed into granules, the granulated feed is discharged into the cooling mechanism 15, and the cooling mechanism 15 cools the feed, the cooled feed is then discharged into the second mixing means 2, where the ingredients of the feed are easily lost or destroyed during the feed processing, and the loss or destruction of these ingredients is avoided by the cooled feed.

In this embodiment, the full-automatic feed production system of integration still includes baling mechanism 24, and baling mechanism 24 can be with the automatic packing of the discharged fodder of third mixing mechanism 3.

In the description herein, it is to be understood that the terms "upper", "lower", and the like are used in a descriptive sense or positional relationship based on the orientation or positional relationship shown in the drawings for convenience of description and simplicity of operation, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention.

In the description herein, references to the term "an embodiment" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment is included in at least one embodiment or example of the utility model. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be appropriately combined to form other embodiments as will be appreciated by those skilled in the art.

The technical principle of the present invention is described above in connection with specific embodiments. The description is made for the purpose of illustrating the principles of the utility model and should not be construed in any way as limiting the scope of the utility model. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without inventive effort, which would fall within the scope of the present invention.

Claims (10)

1. An integrated full-automatic feed production system is characterized by comprising a solid raw material adding device, an auxiliary material adding device, a raw oil adding device and a liquid raw material adding device;

the solid raw material adding device and the auxiliary material adding device are both connected with a first mixing mechanism, the first mixing mechanism and the raw material oil adding device are both connected with a second mixing mechanism, and the second mixing mechanism and the liquid raw material adding device are respectively communicated with a third mixing mechanism;

third mixing mechanism includes first rotating assembly and second rotating assembly, first rotating assembly's upper end is provided with first carousel, first rotating assembly drives first carousel rotates along the first direction, liquid raw materials in the liquid raw materials interpolation device passes through the liquid conveyer pipe and carries on the first carousel, the second rotating assembly is located third mixing mechanism's top, second rotating assembly bottom is provided with the second carousel, second rotating assembly drives the second carousel rotates along the second direction, the first direction with the second opposite direction, one side of second rotating assembly is provided with first inlet pipe, first inlet pipe can with fodder in the second mixing mechanism is carried on the second carousel.

2. The integrated full-automatic feed production system according to claim 1, wherein the first rotary disc is of a solid cone structure and comprises a first plane, a peripheral side surface and a second plane, the outer diameter of the first plane is larger than that of the second plane, the peripheral side surface is connected with the first plane and the second plane, the second plane is connected with the first rotating assembly, and through holes capable of dispersing the liquid raw materials are arranged on the peripheral side surface at intervals and penetrate through the second plane, and the through holes are adjacent to the second plane.

3. The integrated full-automatic feed production system according to claim 2, wherein the first rotating assembly comprises a first rotating motor, the first rotating motor is arranged at the bottom of the third mixing mechanism, the output end of the first rotating motor is provided with a first rotating shaft, a sleeve is sleeved outside the first rotating shaft, the end part of the first rotating shaft, which extends out of the sleeve through the sleeve, is connected with the first rotating disc, the sleeve is communicated with the liquid conveying pipe, the liquid raw material can be conveyed to the peripheral side surface of the first rotating disc through the sleeve, and the peripheral side surface disperses the liquid raw material to enable the liquid raw material to rotate and spray upwards.

4. The integrated full-automatic feed production system according to claim 1, wherein the solid raw material adding device comprises a plurality of solid raw material storage bins, a filtering mechanism, a crushing mechanism and a fourth mixing mechanism, each solid raw material storage bin is connected with the filtering mechanism, the filtering mechanism is connected with the crushing mechanism, all the crushing mechanisms are connected with the fourth mixing mechanism, a weighing device is arranged between each crushing mechanism and the fourth mixing mechanism, the fourth mixing mechanism is connected with the first mixing mechanism, and a timer is arranged between the fourth mixing mechanism and the first mixing mechanism.

5. The integrated full-automatic feed production system according to claim 1, wherein the auxiliary material adding device comprises a plurality of auxiliary material storage bins and a fifth mixing mechanism, each auxiliary material storage bin is connected with the fifth mixing mechanism, a weighing device is arranged between each auxiliary material storage bin and the fifth mixing mechanism, and the fifth mixing mechanism is connected with the first mixing mechanism.

6. The integrated full-automatic feed production system according to claim 1, wherein the raw oil adding device comprises a plurality of raw oil storage bins, an emulsification and homogenization mechanism and a sixth mixing mechanism, all of the raw oil storage bins are connected with the sixth mixing mechanism, a meter is arranged between the raw oil storage bins and the sixth mixing mechanism, the sixth mixing mechanism is connected with the emulsification and homogenization mechanism, the emulsification and homogenization mechanism is used for emulsifying and homogenizing mixed oil in the sixth mixing mechanism, and the emulsification and homogenization mechanism is communicated with the second mixing mechanism through an oil conveying pipe.

7. The integrated full-automatic feed production system according to claim 6, the second mixing mechanism comprises an atomizing spray head and a third rotating assembly, the third rotating assembly is arranged at the top of the second mixing mechanism, the bottom of the third rotating component is provided with a third rotating disk which drives the third rotating disk to rotate, a second feeding pipe is arranged on one side of the third rotating assembly, the second feeding pipe can convey the solid raw materials mixed by the first mixing mechanism to the third rotating disc, the atomizing spray head is arranged on the inner side wall of the second mixing mechanism, and is positioned below the third rotary table, the atomizing nozzle is communicated with the oil delivery pipe, the oil delivery pipe is provided with a first pressure pump, the first pressure pump can atomize and spray the emulsified and homogenized mixed grease oil into the second mixing mechanism.

8. The integrated full-automatic feed production system according to claim 7, wherein two atomizing nozzles are arranged on two opposite side surfaces of the second mixing mechanism, the two atomizing nozzles are respectively connected with a three-way joint through the oil delivery pipe, and the three-way joint is connected with the emulsifying and homogenizing mechanism through a pipeline.

9. The integrated full-automatic feed production system according to claim 1, wherein the liquid material adding device comprises a plurality of liquid material storage bins and a seventh mixing mechanism, each liquid material storage bin is connected with the seventh mixing mechanism, and a metering device is arranged between the liquid material storage bins and the seventh mixing mechanism.

10. The integrated full-automatic feed production system according to claim 1, further comprising a conditioning mechanism, a granulating mechanism and a cooling mechanism, wherein the second mixing mechanism is connected with the conditioning mechanism, the conditioning mechanism is connected with the granulating mechanism, the granulating mechanism is connected with the cooling mechanism, the cooling mechanism is communicated with the third mixing mechanism through the first feeding pipe, and a timer is arranged on the first feeding pipe.

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