CN210929570U - Solid-state biological feed particle coating device - Google Patents

Abstract

The utility model provides a solid-state biological feed pellet coating device, include: sieve bed, supporting leg, liquid reserve tank; the sieve bed is U-shaped, and rectangular support legs are welded at the bottom of the sieve bed; the supporting legs are arranged at four positions in a rectangular array mode; a rectangular liquid storage tank is arranged right below the sieve bed, the liquid storage tank is accommodated on the inner sides of the four supporting legs in a clearance fit mode, and the liquid storage tank is opposite to sieve pores of the sieve bed; a lift pump is arranged at the rear side in the liquid storage tank; the utility model discloses a to the improvement of a solid-state biological feed pellet peridium device, it is rational in infrastructure to have, the peridium is comparatively even, and product quality is higher, the advantage of the maintenance and the maintenance of being convenient for to effectual solution the utility model provides a problem and not enough.

Description

Solid-state biological feed particle coating device

Technical Field

The utility model relates to a feed processing technology field, more specifically the theory that says so especially relates to a solid-state biological feed pellet peridium device.

Background

The spray coating is most widely applied in the feed additive coating technology, is an important link of solid biological feed processing, and is based on the principle that coating liquid is sprayed into mist-shaped liquid drops to cover the surfaces of feed particles and is quickly dried to form a coating layer.

The coating layer covering the surface of the feed particles is uneven after the existing coating device for processing the solid biological feed particles coats the feed particles, so that the coating quality of the product is influenced.

In view of the above, the present invention provides a solid biological feed pellet coating apparatus, which is developed to solve the problems and improve the practical value.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a solid-state biological feed pellet peridium device to the peridium device that is used for solid-state biological feed pellet to process of the current that proposes in solving above-mentioned background art is behind the peridium feed pellet, and the coating layer that covers on feed pellet surface is comparatively inhomogeneous, influences the problem and the not enough of the peridium quality of product.

In order to achieve the above object, the present invention provides a solid biological feed particle coating device, which is achieved by the following specific technical means:

a solid biological feed pellet coating apparatus comprising: the device comprises a sieve bed, supporting legs, a liquid storage tank, a vibrating motor, a powder outlet, a feeding port, a coating tank, an observation window, a flow adjusting plate, a top cover, an air inlet grille, an electric heating wire, an air box, a fan, a heat insulating plate, a spray header, a multi-way pipe, a lifting pump, a particle inlet, a particle outlet, adjusting holes and hand-screwed bolts; the sieve bed is U-shaped, and rectangular support legs are welded at the bottom of the sieve bed; the supporting legs are arranged at four positions in a rectangular array mode; a rectangular liquid storage tank is arranged right below the sieve bed, the liquid storage tank is accommodated on the inner sides of the four supporting legs in a clearance fit mode, and the liquid storage tank is opposite to sieve pores of the sieve bed; a lift pump is arranged at the rear side in the liquid storage tank; a trapezoidal funnel-shaped powder outlet is fixed at the rear side of the bottom of the sieve bed through bolts, and the outlet at the bottom of the powder outlet faces to the rear lower part of the sieve bed; a vibrating motor is fixed on the rear side of the sieve bed through a bolt; a trapezoidal funnel-shaped feeding port is fixed on the rear side of the top of the sieve bed through a bolt, and the feeding port corresponds to the powder outlet up and down; a rectangular shell-shaped coating box is arranged on the front side of the feeding port, the bottom of the coating box is fixed to the top of the sieve bed through bolts, and the rear side of the coating box is fixedly connected with the front side of the feeding port through bolts; a rectangular particle inlet is formed between the bottom of the rear side of the coating box and the top of the sieve bed, and a flow adjusting plate is arranged on the rear side of the particle inlet; the front side wall of the flow adjusting plate is movably connected with the rear side wall of the coating box, and the flow adjusting plate is accommodated on the inner side of the feeding port in a clearance fit mode; the left side and the right side of the flow adjusting plate are symmetrically provided with adjusting holes, and the flow adjusting plate is connected with the coating box through hand-screwed bolts; the front end of the threaded part of the hand-screwed bolt forwards passes through the adjusting hole and is screwed on the rear side wall of the coating box in a threaded engagement mode; a rectangular particle outlet is formed between the bottom of the front side of the coating box and the top of the sieve bed; the top of the coating box is provided with a rectangular top cover, the rear side of the top cover is hinged to the rear side of the top of the coating box through a hinge, and the front side of the top cover is connected with the front side of the top of the coating box through a metal buckle; the left side and the right side of the top cover are symmetrically provided with oblong observation windows, and the observation windows are fixed on the side wall of the top cover through bolts; a rectangular heat insulation plate is welded in the middle of the bottom of the top cover and is accommodated in the coating box in a clearance fit manner; the front side of the top cover is embedded with a rectangular grid-shaped air inlet grille, the air inlet grille is fixed with the top cover through bolts, and the air inlet grille is positioned on the front side of the heat insulation plate; a snake-shaped electric heating wire is arranged right below the air inlet grille and is fixed at the bottom of the top cover through bolts; an air box in a rectangular shell shape is arranged right above the air inlet grille and is fixed at the top of the top cover through bolts; a plurality of fans are embedded in the top of the air box, and the fans are fixedly connected with the air box through bolts; two rows of spray headers are arranged at the bottom of the rear side of the top cover, and each row of spray headers comprises a plurality of atomization spray headers; the spray header is positioned at the rear side of the heat insulation plate and is accommodated in the coating box in a clearance fit manner; the left sides of the two rows of spray headers are communicated through a multi-way pipe, and the multi-way pipe is embedded and fixed at the top of the top cover; the multi-way pipe is communicated with the water outlet of the lift pump through a hose.

As a further optimization of the technical scheme, the utility model relates to a solid-state biological feed pellet is peridium device the sieve bed is the high slope form in low back before being, and the sieve mesh of sieve bed is circular form.

As a further optimization of the technical proposal, the utility model relates to a solid-state biological feed granule coating device the powder outlet is arranged below the rear side of the coating box.

As a further optimization of the technical scheme, the utility model relates to a solid-state biological feed pellet is wrapped the device the regulation hole is long circular, and the screw thread portion clearance fit of bolt is twisted with the hand to the regulation hole.

Because of above-mentioned technical scheme's application, compared with the prior art, the utility model have the following advantage:

1. the utility model discloses a set up the high slope form in low back before the sieve bed is, the graininess solid-state biological feed of being convenient for rolls the transport forward through its dead weight, and through the comparatively even cover of shower head with atomizing coating liquid on the fodder granule surface at forward rolling in-process, when the fodder granule after the quality coating that improves the product rolls to sieve bed front side, through the effect of fan and electric heating wire, the fodder granule in will rolling is dried, and roll drying makes difficult the emergence between the fodder granule cohere, the finished product quality of product has been improved.

2. The utility model discloses an articulate top cap at the top of peridium case to each part and peridium incasement portion of installation are maintained and are maintained to the convenient.

3. The utility model discloses a to the improvement of a solid-state biological feed pellet peridium device, it is rational in infrastructure to have, the peridium is comparatively even, and product quality is higher, the advantage of the maintenance and the maintenance of being convenient for, thereby effectual solution the utility model discloses the problem that proposes in background art one with not enough.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification. In the drawings:

fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic side sectional view of the present invention;

FIG. 3 is a schematic view of the axial measurement structure of the present invention;

fig. 4 is a schematic structural view of point a of the present invention;

fig. 5 is a schematic view of the top cover rotating opening structure of the present invention.

In the figure: sieve bed 1, supporting leg 2, liquid storage tank 3, vibrating motor 4, powder export 5, feed inlet 6, peridium case 7, observation window 8, flow control board 9, top cap 10, air inlet grille 11, electric heating wire 12, bellows 13, fan 14, heat insulating board 15, shower head 16, multi-ported pipe 17, elevator pump 301, granule import 701, granule export 702, regulation hole 901, hand screw bolt 902.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in 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.

It is to be noted that, in the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Meanwhile, in the description of the present invention, unless otherwise explicitly specified or limited, the terms "connected" and "connected" should be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; the connection can be mechanical connection or electrical connection; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1 to 5, the present invention provides a specific technical embodiment of a solid biological feed pellet coating device:

a solid biological feed pellet coating apparatus comprising: the device comprises a sieve bed 1, support legs 2, a liquid storage tank 3, a vibration motor 4, a powder outlet 5, a feeding port 6, a coating tank 7, an observation window 8, a flow adjusting plate 9, a top cover 10, an air inlet grille 11, an electric heating wire 12, an air box 13, a fan 14, a heat insulating plate 15, a spray header 16, a multi-way pipe 17, a lifting pump 301, a particle inlet 701, a particle outlet 702, an adjusting hole 901 and a hand-screwed bolt 902; the sieve bed 1 is U-shaped, and rectangular supporting legs 2 are welded at the bottom of the sieve bed 1; the supporting legs 2 are arranged at four positions in a rectangular array mode; a rectangular liquid storage tank 3 is arranged right below the sieve bed 1, the liquid storage tank 3 is accommodated at the inner sides of the four support legs 2 in a clearance fit mode, and the liquid storage tank 3 is opposite to sieve pores of the sieve bed 1; a lift pump 301 is arranged at the rear side in the liquid storage tank 3; a trapezoidal funnel-shaped powder outlet 5 is fixed on the rear side of the bottom of the sieve bed 1 through a bolt, and the outlet at the bottom of the powder outlet 5 faces the rear lower part of the sieve bed 1; a vibrating motor 4 is fixed on the rear side of the sieve bed 1 through a bolt; a trapezoidal funnel-shaped feeding port 6 is fixed on the rear side of the top of the sieve bed 1 through a bolt, and the feeding port 6 corresponds to the powder outlet 5 up and down; a coating box 7 in a rectangular shell shape is arranged on the front side of the feeding port 6, the bottom of the coating box 7 is fixed on the top of the sieve bed 1 through bolts, and the rear side of the coating box 7 is fixedly connected with the front side of the feeding port 6 through bolts; a rectangular particle inlet 701 is arranged between the bottom of the rear side of the coating box 7 and the top of the sieve bed 1, and the rear side of the particle inlet 701 is provided with a flow regulating plate 9; the front side wall of the flow adjusting plate 9 is movably connected with the rear side wall of the coating box 7, and the flow adjusting plate 9 is accommodated inside the feeding port 6 in a clearance fit mode; the left side and the right side of the flow adjusting plate 9 are symmetrically provided with adjusting holes 901, and the flow adjusting plate 9 is connected with the coating box 7 through hand-screwed bolts 902; the front end of the threaded part of the hand-screwed bolt 902 passes through the adjusting hole 901 forwards and is screwed on the rear side wall of the coating box 7 in a threaded engagement mode; a rectangular particle outlet 702 is arranged between the bottom of the front side of the coating box 7 and the top of the sieve bed 1; the top of the packing box 7 is provided with a rectangular top cover 10, the rear side of the top cover 10 is hinged to the rear side of the top of the packing box 7 through a hinge, and the front side of the top cover 10 is connected with the front side of the top of the packing box 7 through a metal buckle; the left side and the right side of the top cover 10 are symmetrically provided with oblong observation windows 8, and the observation windows 8 are fixed on the side wall of the top cover 10 through bolts; a rectangular heat insulation plate 15 is welded in the middle of the bottom of the top cover 10, and the heat insulation plate 15 is accommodated in the coating box 7 in a clearance fit manner; the front side of the top cover 10 is embedded with a rectangular grid-shaped air inlet grille 11, the air inlet grille 11 is fixed with the top cover 10 through bolts, and the air inlet grille 11 is positioned on the front side of the heat insulation plate 15; a snake-shaped electric heating wire 12 is arranged right below the air inlet grille 11, and the electric heating wire 12 is fixed at the bottom of the top cover 10 through bolts; an air box 13 in a rectangular shell shape is arranged right above the air inlet grille 11, and the air box 13 is fixed at the top of the top cover 10 through bolts; a plurality of fans 14 are embedded in the top of the air box 13, and the fans 14 are fixedly connected with the air box 13 through bolts; two rows of spray headers 16 are arranged at the bottom of the rear side of the top cover 10, and each row of spray headers 16 comprises a plurality of atomization spray headers; the spray header 16 is positioned at the rear side of the heat insulation plate 15, and the spray header 16 is accommodated in the coating box 7 in a clearance fit manner; the left sides of the two rows of spray headers 16 are communicated through a multi-way pipe 17, and the multi-way pipe 17 is embedded and fixed at the top of the top cover 10; the multi-way pipe 17 is communicated with the water outlet of the lift pump 301 through a hose.

Specifically, referring to fig. 2, the sieve bed 1 is inclined from the front to the back so that the feed particles are rolled forward, and the sieve holes of the sieve bed 1 are circular.

Specifically, referring to fig. 2, the powder outlet 5 is disposed below the rear side of the coating box 7 to prevent the coating solution sprayed from the shower head 16 from directly entering the powder outlet 5.

Specifically, referring to fig. 4, the adjusting hole 901 is oblong, and the adjusting hole 901 is in clearance fit with the threaded portion of the hand bolt 902, so that the flow adjusting plate 9 can slide up and down after the hand bolt 902 is loosened.

The method comprises the following specific implementation steps:

loosening the hand-screwed bolt 902, pulling the flow adjusting plate 9 up and down to adjust the height of the flow adjusting plate to adjust the size of the particle inlet 701, and screwing the hand-screwed bolt 902 after adjustment; pouring the coating liquid into the liquid storage tank 3, electrifying the lifting pump 301 to work, atomizing and spraying the coating liquid by the lifting pump 301 through the spray header 16, and enabling the sprayed coating liquid to fall back to the liquid storage tank 3 through the sieve pores of the sieve bed 1; the fan 14 and the electric heating wire 12 are electrified to work, and the fan 14 blows hot air downwards through the electric heating wire 12; the feed particles are fed into the feeding port 6, the feed powder mixed in the feed particles is screened through the sieve pores of the sieve bed 1 and then discharged from the powder outlet 5, the feed particles in the feeding port 6 gradually roll into the coating box 7 from the particle inlet 701, in order to improve the effect of screening the feed powder by the sieve bed 1, the vibrating motor 4 is electrified to work and screen in vibration, the feed particles are conveyed in a rolling mode forward through self weight, atomized coating liquid is uniformly covered on the surfaces of the feed particles through the spray header 16 in the forward rolling process, redundant coating liquid falls back to the liquid storage box 3 through the sieve pores of the sieve bed 1, when the coated feed particles roll to the front side of the sieve bed 1, the rolled feed particles are dried through the action of the fan 14 and the electric heating wire 12, and finally the feed particles are discharged from the particle outlet 702.

In summary, the following steps: according to the solid biological feed particle coating device, the sieve bed is arranged to be in an inclined shape with a low front part and a high back part, so that granular solid biological feed can be conveniently conveyed by rolling forwards through the dead weight of the granular solid biological feed, atomized coating liquid can be uniformly covered on the surface of the feed particle through the spray head in the forward rolling process, when the feed particle coated with the coating quality of a product is rolled to the front side of the sieve bed, the rolled feed particle is dried through the action of the fan and the electric heating wire, and the feed particle is not easily adhered by the rolling drying, so that the finished product quality of the product is improved; the top cover is hinged to the top of the coating box, so that maintenance and repair of all parts mounted on the top cover and the interior of the coating box are facilitated; the utility model discloses a to the improvement of a solid-state biological feed pellet peridium device, it is rational in infrastructure to have, the peridium is comparatively even, and product quality is higher, the advantage of the maintenance and the maintenance of being convenient for to effectual solution the utility model provides a problem and not enough.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (4)

1. A solid biological feed pellet coating apparatus comprising: the device comprises a sieve bed (1), supporting legs (2), a liquid storage tank (3), a vibrating motor (4), a powder outlet (5), a feeding port (6), a coating box (7), an observation window (8), a flow adjusting plate (9), a top cover (10), an air inlet grille (11), an electric heating wire (12), an air box (13), a fan (14), a heat insulating plate (15), a spray header (16), a multi-way pipe (17), a lifting pump (301), a particle inlet (701), a particle outlet (702), an adjusting hole (901) and a hand-screwed bolt (902); the method is characterized in that: the sieve bed (1) is U-shaped, and rectangular support legs (2) are welded at the bottom of the sieve bed (1); the supporting legs (2) are arranged at four positions in a rectangular array mode; a rectangular liquid storage tank (3) is arranged right below the sieve bed (1), the liquid storage tank (3) is accommodated on the inner sides of the four support legs (2) in a clearance fit mode, and the liquid storage tank (3) is opposite to sieve holes of the sieve bed (1); a lifting pump (301) is arranged at the rear side in the liquid storage tank (3); a trapezoidal funnel-shaped powder outlet (5) is fixed on the rear side of the bottom of the sieve bed (1) through a bolt, and the outlet at the bottom of the powder outlet (5) faces the rear lower part of the sieve bed (1); a vibrating motor (4) is fixed on the rear side of the sieve bed (1) through a bolt; a trapezoidal funnel-shaped feeding port (6) is fixed on the rear side of the top of the sieve bed (1) through a bolt, and the feeding port (6) is vertically corresponding to the powder outlet (5); a rectangular shell-shaped coating box (7) is arranged on the front side of the feeding port (6), the bottom of the coating box (7) is fixed to the top of the sieve bed (1) through bolts, and the rear side of the coating box (7) is fixedly connected with the front side of the feeding port (6) through bolts; a rectangular particle inlet (701) is formed between the bottom of the rear side of the coating box (7) and the top of the sieve bed (1), and a flow adjusting plate (9) is arranged on the rear side of the particle inlet (701); the front side wall of the flow adjusting plate (9) is movably connected with the rear side wall of the coating box (7), and the flow adjusting plate (9) is accommodated at the inner side of the feeding port (6) in a clearance fit mode; the left side and the right side of the flow adjusting plate (9) are symmetrically provided with adjusting holes (901), and the flow adjusting plate (9) is connected with the coating box (7) through hand-screwed bolts (902); the front end of the threaded part of the hand-screwed bolt (902) forwards penetrates through the adjusting hole (901) and is screwed on the rear side wall of the coating box (7) in a threaded engagement mode; a rectangular particle outlet (702) is arranged between the bottom of the front side of the coating box (7) and the top of the sieve bed (1); the top of the coating box (7) is provided with a rectangular top cover (10), the rear side of the top cover (10) is hinged to the rear side of the top of the coating box (7) through a hinge, and the front side of the top cover (10) is connected with the front side of the top of the coating box (7) through a metal buckle; the left side and the right side of the top cover (10) are symmetrically provided with oblong observation windows (8), and the observation windows (8) are fixed on the side wall of the top cover (10) through bolts; a rectangular heat insulation plate (15) is welded in the middle of the bottom of the top cover (10), and the heat insulation plate (15) is accommodated in the coating box (7) in a clearance fit manner; the front side of the top cover (10) is embedded with a rectangular grid-shaped air inlet grille (11), the air inlet grille (11) is fixed with the top cover (10) through bolts, and the air inlet grille (11) is positioned on the front side of the heat insulation plate (15); a snake-shaped electric heating wire (12) is arranged right below the air inlet grille (11), and the electric heating wire (12) is fixed at the bottom of the top cover (10) through bolts; an air box (13) in a rectangular shell shape is arranged right above the air inlet grille (11), and the air box (13) is fixed on the top of the top cover (10) through bolts; a plurality of fans (14) are embedded in the top of the air box (13), and the fans (14) are fixedly connected with the air box (13) through bolts; two rows of spray headers (16) are arranged at the bottom of the rear side of the top cover (10), and each row of spray headers (16) comprises a plurality of atomization spray headers; the spray header (16) is positioned at the rear side of the heat insulation plate (15), and the spray header (16) is accommodated in the coating box (7) in a clearance fit manner; the left sides of the two rows of spray headers (16) are communicated through a multi-way pipe (17), and the multi-way pipe (17) is embedded and fixed at the top of the top cover (10); the multi-way pipe (17) is communicated with a water outlet of the lift pump (301) through a hose.

2. A solid state biological feed pellet coating apparatus as claimed in claim 1, wherein: the sieve bed (1) is in an inclined shape with a low front part and a high back part, and sieve pores of the sieve bed (1) are in a circular shape.

3. A solid state biological feed pellet coating apparatus as claimed in claim 1, wherein: the powder outlet (5) is arranged below the rear side of the coating box (7).

4. A solid state biological feed pellet coating apparatus as claimed in claim 1, wherein: the adjusting hole (901) is in an oblong shape, and the adjusting hole (901) is in clearance fit with a threaded portion of a hand-screwed bolt (902).

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