CN212814205U - Second grade compounding mechanism of feed processing equipment - Google Patents

Abstract

The utility model relates to a second grade compounding mechanism of feed processing equipment, including horizontal compounding pipeline, the lower pipe wall of compounding pipeline be the arc wall, the arc wall have the arc of underbeam, the both ends of arc wall are from the one end to the other end of compounding pipeline, the bottommost of arc wall sets up the discharge gate of compounding pipeline, the axial of the discharge gate of compounding pipeline is along the radial direction of compounding pipeline, the discharge gate of compounding pipeline is put through with the feed inlet of the hopper of the compounding granulator of feed processing equipment, the upper pipe wall setting of compounding pipeline is connected the feed inlet with a plurality of discharge gates one-to-one of mixing bag below the second feed bin, the both ends of compounding pipeline set up the negative pressure siphunculus of preventing, the outer end UNICOM dust prevention pipeline of negative pressure siphunculus is down, the mouth of dust prevention pipeline; the both sides symmetry that the last feed inlet is located the discharge gate of compounding pipeline sets up, and reduces gradually from compounding pipeline tip to the bore of the last feed inlet of the discharge gate direction of compounding pipeline.

Description

Second grade compounding mechanism of feed processing equipment

Technical Field

The utility model belongs to the feed processing field, concretely relates to second grade compounding mechanism of feed processing equipment.

Background

Traditional feed processing is that each processingequipment (like rubbing crusher, mixer, granulator) parts in the workshop, segmentation operation, and processing is not systematic, transports, integrates the adjustment and need spend plenty of time and cost of labor, especially single material, the multiple mode processing of compounding, and processing effect, efficiency all remain to be improved.

To aforementioned feed processing equipment after transforming, the direct unloading of unloading sack to compounding granulator hopper of traditional compounding bag is adopted to fodder compounding structure, has the unloading too anxious, the material volume is big and unstable problem, leads to compounding granulator feeding load too big even, leads to its jam, moves unstably too suddenly, the problem of shutting down even.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a second grade compounding mechanism of feed processing equipment, the structure is ingenious for the fodder compounding ejection of compact is gentle even and leak-proof material, cooperates with the hopper of the compounding granulator of feed processing equipment, makes the production efficiency of whole feed processing equipment improve, is suitable for the processing of compounding fodder.

In order to realize the above purpose, the utility model discloses a technical scheme be: a two-stage mixing mechanism of feed processing equipment comprises a mixing pipeline which is transversely arranged below a mixing bag below a second bin of the feed processing equipment, wherein the lower pipe wall of the mixing pipeline is an arc-shaped wall, the arc-shaped wall is provided with a downward convex arc, two ends of the arc-shaped wall are from one end to the other end of the mixing pipeline, the bottommost part of the arc-shaped wall is provided with a discharge port of the mixing pipeline, the axial direction of the discharge port of the mixing pipeline is along the radial direction of the mixing pipeline, the discharge port of the mixing pipeline is communicated with a feed port of a hopper of a mixing granulator of the feed processing equipment, an upper pipe wall of the mixing pipeline is provided with a plurality of discharge ports of the mixing bag below the second bin in a one-to-one correspondence mode, the two ends of the mixing pipeline are provided with negative pressure prevention through pipes, the outer ends of the; the both sides symmetry that the last feed inlet is located the discharge gate of compounding pipeline sets up, and reduces gradually from compounding pipeline tip to the bore of the last feed inlet of the discharge gate direction of compounding pipeline.

Further, an upper feeding port is arranged right above a discharging port of the mixing pipeline, and the caliber of the upper feeding port is smaller than the calibers of the upper feeding ports on the two sides of the mixing pipeline.

Further, the last pipe wall of compounding pipeline is located dodging of feed inlet and is positioned a plurality of negative pressure openings of preventing of position interval arrangement, prevent that the negative pressure opening is big, the lower hourglass hopper-shaped under mouthful, prevent the axial of negative pressure opening along the radial direction of compounding pipeline, prevent that the negative pressure opening sets up dustproof unit.

Still further, the dustproof unit is a dust hood arranged above the negative pressure prevention port.

Further, the mouth of pipe of dustproof pipeline sets up the diamond mesh.

The technical effects of the utility model reside in that: the utility model adopts a second-stage mixing mechanism which comprises a mixing pipeline which is arranged transversely below a mixing bag below a second bin of feed processing equipment, an upper feed inlet which is in one-to-one correspondence with the discharge port of the mixing bag below the second bin is arranged on the upper pipe wall of the mixing pipeline, a discharge port of the mixing pipeline is arranged on the lower pipe wall of the mixing pipeline, and the lower pipe wall is arranged to be of an arc structure with a low middle part and high two sides, so that the mixed material entering the mixing pipeline uniformly converges to the discharge port of the mixing pipeline due to the action of the arc structure, and the caliber of the upper feed inlet is gradually reduced from two sides to the middle part, thereby further ensuring that the fed material of the mixing pipeline is uniformly discharged from the discharge port of the mixing pipeline, as the discharged material of a plurality of mixing bags is large in quantity and high in concentration speed, negative pressure can occur in the mixing pipeline, so that the discharged material of the discharge port of, thereby influence production efficiency, the utility model discloses set up at the both ends of compounding pipeline and prevent the negative pressure siphunculus, prevent that the negative pressure siphunculus communicates with each other with the external aforesaid problem of avoiding the negative pressure to form through dustproof pipe, and this prevents that the negative pressure siphunculus setting is located the highest position of pipe wall down, the problem of leaking the material can not appear to set up the dustproof pipe that the mouth of pipe faces down in the outer end of preventing the negative pressure siphunculus, avoid external ash falling or machine oil, water to fall into or instil into in the compounding pipeline.

Drawings

Fig. 1 is a structural diagram of a feed processing device related to the utility model;

fig. 2 is a structural view of a first embodiment of the present invention;

FIG. 3 is a block diagram of a second embodiment of the present invention;

fig. 4 is a partially enlarged view of fig. 3.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to the attached drawing 1, the utility model relates to a feed processing device, which comprises a raw material cleaning and impurity removing mechanism 10, a raw material crushing mechanism 20, a bin part 30, a material mixing mechanism 40 and a granulating mechanism 50 which are sequentially arranged from top to bottom, wherein the material mixing mechanism 40 comprises a material mixing bag 41 arranged below each bin opening of the bin part 30, the raw material crushing mechanism 20 comprises a first raw material crusher 21 and a second raw material crusher 22 which are sequentially arranged, the bin part 30 comprises a first bin 31 and a second bin 32, a discharge opening of the first raw material crusher 21 is communicated with a feed opening of the first bin 31, a discharge opening of the second raw material crusher 22 is communicated with a feed opening of the second bin 32, the granulating mechanism 50 comprises a single material granulator 51 and a material mixing granulator 52, the discharge opening of the first bin 31 is communicated with the single material granulator 51, the material mixing mechanism 40 further comprises a material mixing pipeline 42 which is transversely arranged below the material mixing bag 41 below the second bin 32, the discharge port of the mixing bag 41 below the second bin 32 is communicated with the mixing pipeline 42, and the lower part of the mixing pipeline 42 is communicated with the hopper of the mixing granulator 52.

Foretell compounding pipeline 42 is promptly the utility model discloses a second grade compounding mechanism of feed processing equipment.

The utility model discloses a feed processing equipment has the crushing of single material, mixes, pelletizes, the multi-functional processing effect of crushing, mixing, pelletize of compounding, and the mixture of compounding adopts by the remixing and the collection of the material of big mixture of second feed bin 32 to its below mixture bag 41 again by compounding pipeline 42 to the remixing of the material of big mixture turn to compounding granulator 52 again, adopts such second grade compounding mechanism, has beneficial effect: firstly, it is avoided that the large mixture of the multiple materials is directly transferred to the hopper of the mixing granulator 52, and the hopper load is too large, which results in the reduction of the operation efficiency of the mixing granulator 52, (this point, the applicant further explains that, if the materials are directly and intensively discharged to the hopper of the mixing granulator 52 from the discharge ports of the mixing bags 41 below the bins of the second bin 32, there is a possibility of too large overload on the input of the mixing granulator 52, which further results in the reduction of the operation efficiency of the mixing granulator 52, and the mixing pipeline 42 arranged at the lower stage of the mixing bag 41 below the second bin 32 is equivalent to a buffer for the input transferred to the hopper of the mixing granulator 52, thereby ensuring that the input load entering the mixing granulator 52 is slowed and uniform); secondly, the materials are further mixed in the mixing bags 41 below the second bins 32, namely the materials discharged from the mixing bags 41 below the second bins 32 are mixed again, so that the mixing effect is better. The utility model discloses the structure is ingenious, and the suitability is strong, and processing effect is good, is suitable for the processing of list material, compounding.

Referring to fig. 1, further, the second raw material pulverizer 22 is provided with a plurality of discharge ports, the second storage bin 32 is provided with a plurality of feed ports, the number of the feed ports of the second storage bin 32 is equal to or less than the number of the discharge ports of the second raw material pulverizer 22, and the feed port of each second storage bin 32 is connected with the discharge port of the second raw material pulverizer 22.

The corresponding device of compounding processing top-down multiunit is mutually supported, convenient and practical, and the cost is controllable, and it is effectual to process, and can match the discharge gate of single or two second raw materials rubbing crusher 22 according to the feed inlet of actual demand second feed bin 32.

Referring to fig. 2, a first embodiment of the present invention:

the lower pipe wall of the mixing pipeline 42 is an arc-shaped wall 42a, the arc-shaped wall 42a is provided with a downward convex arc shape, two ends of the arc-shaped wall 42a are from one end to the other end of the mixing pipeline 42, the bottommost part of the arc-shaped wall 42a is provided with a discharge hole of the mixing pipeline 42, the axial direction of the discharge hole of the mixing pipeline 42 is along the radial direction of the mixing pipeline 42, the discharge hole of the mixing pipeline (42) is communicated with a feed inlet of a hopper of a mixing granulator 52 of feed processing equipment, the upper pipe wall of the mixing pipeline 42 is provided with upper feed inlets 42b which are in one-to-one correspondence with a plurality of discharge holes of a mixing bag 41 below a second bin 32, two ends of the mixing pipeline 42 are provided with negative pressure prevention through pipes 42c, the outer ends of the negative pressure prevention through pipes; the upper feeding ports 42b are symmetrically arranged on two sides of the discharge port of the mixing pipeline 42, and the caliber of the upper feeding ports 42b from the end part of the mixing pipeline 42 to the discharge port of the mixing pipeline 42 is gradually reduced.

Referring to fig. 2, the second-stage mixing mechanism of the present embodiment of the present invention is a horizontal mixing pipeline 42, the upper wall of the mixing pipeline 42 is provided with an upper feeding port 42b corresponding to the discharge port of the mixing bag 41 below the second bin 32, the lower wall of the mixing pipeline 42 is provided with a discharge port of the mixing pipeline 42, and the lower wall is configured to have an arc structure with a lower middle part and two higher sides, so that the mixed material entering the mixing pipeline 42 uniformly converges to the discharge port of the mixing pipeline 42 due to the arc structure, and the caliber of the upper feeding port 42b gradually decreases from the two sides to the middle part, thereby further ensuring that the fed material of the mixing pipeline 42 is uniformly discharged from the discharge port of the mixing pipeline 42, because the discharge ports of the plurality of mixing bags 41 have large discharge amount and high concentration speed, negative pressure can occur in the mixing pipeline 42, which results in slow discharge of the discharge port of the mixing bag 41 and slow discharge amount of the mixing pipeline 42, thereby influence production efficiency, the utility model discloses set up at mixing pipeline 42's both ends and prevent negative pressure siphunculus 42c, prevent that negative pressure siphunculus 42c communicates with each other with the external world through dustproof pipe 42d and avoids the aforementioned problem that the negative pressure formed, and this prevents that negative pressure siphunculus 42c sets up the highest position that is located the lower pipe wall, the problem of leaking the material can not appear, and set up the dustproof pipe 42d that the mouth of pipe is down in the outer end of preventing negative pressure siphunculus 42c, avoid external ash or machine oil that falls, water falls into or instils into in mixing pipeline 42.

Still further preferably, an upper feeding port 42b is arranged right above the discharging port of the mixing pipe 42, and the caliber of the upper feeding port 42b is smaller than the calibers of the upper feeding ports 42b on both sides thereof.

Referring to fig. 2, of course, fig. 3 also shows a corresponding structure. Thus, the upper pipe wall of the whole mixing pipeline 42 is uniformly provided with the upper feed ports 42b, and the calibers of the upper feed ports 42b are gradually reduced from two sides to the middle, so that the flow of the feed end of the discharge port of the whole mixing pipeline 42, which is far away from the mixing pipeline 42, is large, and the path is long; the feed end near the discharge port of the mixing pipe 42 has a small flow and a short path, so that the formed discharge to the discharge port of the mixing pipe 42 is uniform and stable.

Still further, a diamond mesh is arranged at the pipe orifice of the dustproof pipeline 42 d. The diamond mesh does not affect ventilation of the dust-proof pipe 42d, and can prevent foreign objects such as small animals from entering the dust-proof pipe 42 d. Of course, when the dust-proof duct 42d is actually designed, the design requirement for the smoothness of the inner wall of the dust-proof duct 42d is high.

Referring to fig. 3 and 4, a second embodiment of the present invention:

still further, the upper tube wall of compounding pipeline 42 has a plurality of negative pressure ports 42e of preventing to dodge position interval arrangement that is located last feed inlet 42b, prevent that negative pressure port 42e is big, the lower hourglass hopper-shaped under mouthful, prevent that negative pressure port 42 e's axial is along compounding pipeline 42's radial direction, prevent that negative pressure port 42e sets up dustproof unit.

Still further, the dustproof unit is a dust shield disposed above the negative pressure preventing port 42 e.

The dual negative pressure structure of preventing that sets up like this further guarantees the efficiency of the feeding of compounding pipeline 42, the ejection of compact, mainly to the unloading of the mixing bag 41 of the second feed bin 32 below of maximum, and then guarantees smooth, smooth-going high-efficient work of equipment. And will prevent negative pressure port 42e and be the upper shed big, the lower hourglass shape of leaking hopper-shaped under mouthful, change the air inlet of ventilating of pressure port on the upper tube wall of compounding pipeline 42, give vent to anger the direction to and control the atmospheric pressure volume, guarantee holistic negative pressure effect of preventing.

Referring to fig. 1, further, the first raw material pulverizer 21 is only provided with one discharge port, the first storage bin 31 is only provided with one feed port and one discharge port, and the one discharge port of the raw material pulverizer 21 is connected with the one feed port of the first storage bin 31.

The single material processing can be completed by a group of corresponding devices from top to bottom, and the device is simple, convenient and practical and has controllable cost.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention.

Claims (5)

1. The utility model provides a second grade compounding mechanism of feed processing equipment which characterized in that: comprises a mixing pipeline (42) which is arranged transversely below a mixing bag (41) below a second bin (32) of the feed processing equipment, the lower pipe wall of the mixing pipeline (42) is an arc-shaped wall (42a), the arc-shaped wall (42a) is provided with a downward convex arc, two ends of the arc-shaped wall (42a) are from one end to the other end of the mixing pipeline (42), the bottommost part of the arc-shaped wall (42a) is provided with a discharge hole of the mixing pipeline (42), the axial direction of the discharge hole of the mixing pipeline (42) is along the radial direction of the mixing pipeline (42), the discharge hole of the mixing pipeline (42) is communicated with the feed inlet of a hopper of a mixing granulator (52) of the feed processing equipment, the upper pipe wall of the mixing pipeline (42) is provided with a plurality of discharge holes of the mixing bag (41) below the second bin (32) in a one-to-one correspondence connection manner to-up the feed inlets (42b), and two ends of the mixing pipeline, the outer end of the negative pressure preventing through pipe (42c) is communicated with a dustproof pipeline (42d), and the pipe orifice of the dustproof pipeline (42d) is arranged downwards; the upper feed opening (42b) is located in the bilateral symmetry setting of the discharge gate of compounding pipeline (42), and reduces gradually from compounding pipeline (42) tip to the bore of the upper feed opening (42b) of the discharge gate direction of compounding pipeline (42).

2. The two-stage mixing mechanism of the feed processing equipment as recited in claim 1, wherein: an upper feeding port (42b) is arranged right above a discharging port of the mixing pipeline (42), and the caliber of the upper feeding port (42b) is smaller than the calibers of the upper feeding ports (42b) on the two sides of the mixing pipeline.

3. The two-stage mixing mechanism of the feed processing equipment as recited in claim 1, wherein: the position interval arrangement that dodges that the upper tube wall of compounding pipeline (42) is located feed inlet (42b) has a plurality of negative pressure ports (42e) of preventing, prevent that negative pressure port (42e) are big, the lower mouthful of hourglass hopper-shaped down of last mouth, prevent that the axial of negative pressure port (42e) sets up dustproof unit along the radial direction of compounding pipeline (42).

4. A two-stage mixing mechanism of feed processing equipment according to claim 3, characterized in that: the dustproof unit is a dust shield arranged above the negative pressure prevention through hole (42 e).

5. The two-stage mixing mechanism of the feed processing equipment as recited in claim 1, wherein: the mouth of the dustproof pipeline (42d) is provided with a diamond mesh.

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