CN214486433U - Production equipment for improving quality of vitamin premixed feed - Google Patents

Abstract

The utility model provides a production facility of vitamin premix feed quality improves, including inner tube and urceolus that the suit is in the same place, the cavity that inner tube and urceolus enclose becomes the material and falls the chamber, the bottom of urceolus is provided with the raw materials and advances the pipe, the top of urceolus is higher than the top of inner tube, the bottom of urceolus is provided with row's material pipe, arrange and be provided with the blow-off valve on the material pipe, install the screw axis in the inner tube, be provided with the flight on the screw axis, the upper end and the motor of screw axis are connected, the outside of urceolus is provided with the liquid additive who stretches into the space between inner tube top and the urceolus top and advances the pipe, the outside of urceolus is provided with the solid additive who stretches into the material and falls the chamber and advances the pipe, the liquid additive advances the pipe and passes through measuring pump connection liquid additive storage bucket, the solid additive advances the pipe and passes through pneumatic conveyor and connects the solid additive storage bucket. The equipment enables the raw materials to be sequentially mixed and attached with the liquid additive and the solid additive in the process of improving and scattering, the raw materials are uniformly and fully mixed, and the quality of the vitamin premix feed is improved.

Description

Production equipment for improving quality of vitamin premixed feed

Technical Field

The utility model relates to a production facility for vitamin mixes biological feed aims at realizing the high-efficient continuous production of vitamin mixes biological feed, belongs to biological feed production technical field.

Background

In order to improve the intestinal flora of animals, improve the immunity of the animal body and improve the digestion and utilization rate of feed, the vitamin mixed feed is usually added with additives such as fish meal, amino acid, whey powder, grease, meat and bone meal, probiotics and the like in basic raw materials such as crops, bean pulp, rapeseed meal and the like. The mixing degree of various raw materials is an important link for ensuring the quality of the vitamin premixed feed.

In the prior art, a stirring device is usually adopted for mixing various raw materials, the existing stirring device can only realize stirring in a horizontal position, cannot realize stirring of an upper layer and a lower layer, and cannot stir the raw materials uniformly in all positions.

The key problem is that various feed additives comprise solid additives and liquid additives, the solid additives are generally in a powder shape, small particles and light weight, the additives are difficult to attach to basic raw materials only by simple stirring in the process of mixing the additives with the basic raw materials, the basic raw materials and the additives cannot be effectively combined, and the ideal vitamin premix feed quality cannot be achieved.

SUMMERY OF THE UTILITY MODEL

The utility model discloses to the problem that the feed production technique exists in advance of current vitamin, provide a production facility that production efficiency is high, mix effectual, can improve the quality vitamin feed quality in advance.

The utility model discloses a production facility of vitamin feed quality in advance adopts following technical scheme:

this equipment, including inner tube and urceolus that the suit is in the same place, the cavity that inner tube and urceolus enclose becomes the material and falls the chamber, and the bottom of urceolus is provided with the raw materials and advances the pipe, and the top of urceolus is higher than the top of inner tube, and the bottom of urceolus is provided with arranges the material pipe, arranges and is provided with the relief valve on the material pipe, installs the screw axis in the inner tube, is provided with the flight on the screw axis, and the outside of urceolus is provided with the liquid additive who stretches into the space between inner tube top and the urceolus top and advances the pipe and stretch into the solid additive that the material falls the chamber and advance the pipe. The liquid additive inlet pipe is connected with a liquid additive charging bucket through a metering pump. The solid additive inlet pipe is connected with the solid additive barrel through a pneumatic conveying device.

The bottom end of the outer barrel inclines towards the center of the inner barrel.

An exhaust port is arranged on the top cover of the outer barrel, and an exhaust valve is arranged at the exhaust port.

The top of inner tube is provided with the bulk cargo cover, and the bulk cargo cover is towards urceolus inner wall downward sloping, sets up the clearance between bulk cargo cover and the urceolus inner wall to make the material fall.

The liquid additive inlet pipe is provided with a spray head above the inner cylinder.

The solid additive inlet pipe is positioned below the bulk material cover arranged at the top end of the inner cylinder.

The pneumatic conveying device can be a vacuum pump, an induced draft fan and the like.

The top end of the outer barrel is provided with an exhaust port, and the exhaust port is provided with an exhaust valve so as to exhaust redundant gas.

The required raw materials are conveyed into the inner cylinder through the raw material inlet pipe, are driven by the spiral piece to be lifted upwards, are scattered in a space between the inner cylinder and the outer cylinder and enter the material falling cavity; the liquid additive is sprayed down through the liquid additive inlet pipe and is mixed with the raw material which is lifted to the space between the inner cylinder and the outer cylinder and dispersed, and the liquid additive is uniformly adhered to the raw material; the solid additive is blown into the material dropping cavity in a pneumatic conveying mode, mixed with the scattered and wet raw material adhered with the liquid additive, and attached to the wet raw material. Thus, the raw materials, the solid additive and the liquid additive are organically combined together, and the mixing quality is greatly improved. And finally, discharging the waste water through a discharging pipe.

The utility model discloses a set up inner tube and urceolus, make the raw materials in the in-process of promoting to break up successively with liquid additive and solid additive mix and adhere to, the misce bene is abundant, has improved the quality of vitamin premix fodder.

Drawings

FIG. 1 is a schematic view of the structure principle of the production equipment for improving the quality of vitamin premix feed of the present invention.

Wherein: 1. the device comprises a motor, 2, an outer cylinder, 3, a spiral shaft, 4, a second liquid additive inlet pipe, 5, a bulk material cover, 6, a second solid additive inlet pipe, 7, a spiral sheet, 8, an inner cylinder, 9, a raw material inlet pipe and 10, a feeding valve; 11. the device comprises a discharge pipe, 12 a discharge valve, 13 a solid additive material barrel, 14 a first solid additive inlet pipe, 16 a metering pump, 17 a vacuum pump, 18 a spray head, 19 a first liquid additive inlet pipe, 20 an exhaust port, 21 an exhaust valve.

Detailed Description

As shown in figure 1, the utility model discloses a production facility of vitamin premix feed quality improves, including inner tube 8, the periphery of inner tube 8 is provided with urceolus 2, and the cavity that inner tube 8 and urceolus 2 enclose becomes the material and falls the chamber, and the bottom of urceolus 2 inclines to inner tube 8 center, and the bottom of urceolus 2 is provided with to advance the pipe 9 to the raw materials of inner tube 8 feeding, and the raw materials advances to be provided with feed valve 10 on the pipe 9, and the raw materials advances to manage 9 can be connected with the measurement conveyer to make the main materials carry into inner tube 8 according to required proportion. The top end of the outer cylinder 2 is higher than the top end of the inner cylinder 8, and the space formed by the height difference enables the materials in the inner cylinder 8 to be discharged into the falling cavity. The bottom end of the outer cylinder 2 is provided with a discharge pipe 11, and the discharge pipe 11 is provided with a discharge valve 12. A vertical screw shaft 3 is arranged in the inner cylinder 8, a screw sheet 7 is arranged on the screw shaft 3, the upper end of the screw shaft 3 is connected with a motor 1, and the motor 1 is arranged on a top cover of the outer cylinder 2. The top cover of the outer cylinder 2 is also provided with an exhaust port 20, and an exhaust valve 21 is arranged at the exhaust port 20.

The top end of the inner barrel 8 is provided with a bulk cargo cover 5, the bulk cargo cover 5 inclines downwards towards the inner wall of the outer barrel 2, and a gap is arranged between the bulk cargo cover 5 and the inner wall of the outer barrel 2 so as to enable the materials to fall down.

The outer side of the outer cylinder 2 is provided with a first liquid additive inlet pipe 19 extending into the space between the top end of the inner cylinder 8 and the top end of the outer cylinder 2, and the first liquid additive inlet pipe 19 is provided with a spray head 18 above the inner cylinder 8. A first liquid additive inlet pipe 19 is connected to the liquid additive tank 15 by a metering pump 16. If a second liquid additive is present, a second liquid additive inlet line 4 is added.

The outer side of the outer barrel 2 is provided with a first solid additive inlet pipe 14 extending into the material falling cavity, and the first solid additive inlet pipe 14 is positioned below the bulk material cover 5. The first solid additive inlet pipe 14 is connected with the solid additive barrel 13 through a vacuum pump (induced draft fan) 17. If a second solid additive is present, a second solid additive inlet pipe 6 is added. Starting a vacuum pump 17 or a draught fan and the like, blowing the solid additive into the material falling cavity in a pneumatic conveying mode, and mixing the solid additive with the falling material.

The operation of the above-described apparatus is as follows.

Raw materials and additives (including solid additives and liquid additives) required for producing the biological feed are calculated according to proportion to obtain the weight, and the total weight is determined according to the processing volume of the inner barrel 8. The initial discharge valve 12 is closed. The motor 1 is started to operate the screw shaft 3 and the upper screw plate 7 thereof. The required raw materials are conveyed into the inner cylinder 8 through the raw material inlet pipe 9 by the metering conveyor, the raw materials are driven by the spiral sheet 7 to be lifted upwards, if several raw materials exist, the raw materials are respectively conveyed into the inner cylinder 8 through the respective raw material inlet pipe, and the mixing of the raw materials can be realized in the upward lifting process. The raw materials are scattered in the space between the inner barrel 8 and the outer barrel 2 after being lifted upwards, and enter the material falling cavity after being further scattered by the bulk material cover 5.

By starting the metering pump 16, the liquid additive in the liquid additive charging bucket 15 is sprayed down through the spray head 18, and is mixed with the raw material which is dispersed in the space between the inner barrel 8 and the outer barrel 2 after being lifted upwards, and the liquid additive is uniformly adhered on the raw material, so that the surface of the raw material becomes wet. The first liquid additive and the second liquid additive are injected through a first liquid additive inlet pipe 19 and a second liquid additive inlet pipe 4, respectively, and if there are more kinds of liquid additives, the corresponding liquid additive inlet pipes are provided.

Starting a vacuum pump 17 (or pneumatic conveying equipment such as an induced draft fan) to blow powdery, small-particle and light solid additives into the material falling cavity in a pneumatic conveying mode, mixing the powdery, small-particle and light solid additives with the scattered wet raw materials adhered with the liquid additives and adhering the wet raw materials to the wet raw materials, respectively blowing the first solid additives and the second solid additives through a first solid additive inlet pipe 14 and a second solid additive inlet pipe 6, and if more types of solid additives exist, arranging corresponding solid additive inlet pipes. Thus, the raw materials, the solid additive and the liquid additive are organically combined together, and the mixing quality is greatly improved. In some cases, the exhaust valve 21 may be opened to discharge the excess gas through the exhaust port 20.

The mixed feed that the cavity dropped is fallen to the material can promote once more and fall under the drive of flight 7 to further strengthen mixed effect. Finally, the discharge valve 12 is opened to discharge the high-quality vitamin premix feed from the discharge pipe 11.

Claims (9)

1. A production device for improving the quality of vitamin premix feed is characterized in that: the device comprises an inner barrel and an outer barrel which are sleeved together, wherein a cavity enclosed by the inner barrel and the outer barrel is a material falling cavity, a raw material inlet pipe is arranged at the bottom of the outer barrel, the top end of the outer barrel is higher than the top end of the inner barrel, a material discharging pipe is arranged at the bottom end of the outer barrel, a material discharging valve is arranged on the material discharging pipe, a spiral shaft is arranged in the inner barrel, a spiral sheet is arranged on the spiral shaft, and a liquid additive inlet pipe extending into a space between the top end of the inner barrel and the top end of the outer barrel and a solid additive inlet pipe extending into the material falling cavity are arranged on the outer side of the outer barrel.

2. The production facility of claim 1 for improving the quality of vitamin premix feed, wherein: the liquid additive inlet pipe is connected with a liquid additive charging bucket through a metering pump.

3. The production facility of claim 1 for improving the quality of vitamin premix feed, wherein: the solid additive inlet pipe is connected with the solid additive barrel through a pneumatic conveying device.

4. The production facility of claim 1 for improving the quality of vitamin premix feed, wherein: the bottom end of the outer barrel inclines towards the center of the inner barrel.

5. The production facility of claim 1 for improving the quality of vitamin premix feed, wherein: an exhaust port is arranged on the top cover of the outer barrel, and an exhaust valve is arranged at the exhaust port.

6. The production facility of claim 1 for improving the quality of vitamin premix feed, wherein: the top of inner tube is provided with the bulk cargo cover, and the bulk cargo cover is towards urceolus inner wall downward sloping, sets up the clearance between bulk cargo cover and the urceolus inner wall.

7. The production facility of claim 1 for improving the quality of vitamin premix feed, wherein: the liquid additive inlet pipe is provided with a spray head above the inner cylinder.

8. The production facility of claim 1 for improving the quality of vitamin premix feed, wherein: the solid additive inlet pipe is positioned below the bulk material cover arranged at the top end of the inner cylinder.

9. The production facility of claim 1 for improving the quality of vitamin premix feed, wherein: the top of urceolus sets up the gas vent, and gas vent department sets up discharge valve.

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