CN209795876U - Can detach fodder filling device of fodder powder sediment - Google Patents

Abstract

The utility model provides a can detach fodder filling device of fodder powder sediment, is mainly applied to fodder processing technology field, contains separation system, dust disposal system, static emergence system, conveying system, separation system comprises separation bin, feed inlet, material separation piece, annular separation blade, discharge gate, valve, disintegrating slag discharge port, the separation bin top is provided with the feed inlet, the feed inlet is the horn mouth, the feed inlet below is provided with the material separation piece, the material separation piece is the disc, the below of material separation piece is provided with the annular separation blade, the central trompil of annular separation blade, highly from the inboard step-down in outside, the top is the cambered surface, the edge projection of material separation piece falls in the center department of annular separation blade top cambered surface. Use the utility model relates to a can detach fodder filling device of fodder powder sediment, separation storehouse, material separation piece, annular separation blade, fan, static room of taking place, compact structure, the energy consumption is low, low cost, and the powder sediment is got rid of efficiently.

Description

Can detach fodder filling device of fodder powder sediment

Technical Field

The utility model relates to a feed processing technology field, concretely relates to can detach fodder filling device of fodder powder sediment.

Background

The feed production process inevitably produces the powder sediment, if do not remove this part of powder sediment before the filling, not only can influence the quality of fodder, the user often throws away this part of fodder powder sediment, still can cause the waste of fodder, simultaneously, this part of powder sediment is in the storage process, the surface area is bigger, it is moist more easily, influence the holistic quality of fodder, therefore in the production process of fodder, need a device, get rid of the powder sediment in the fodder, promote the quality of fodder.

SUMMERY OF THE UTILITY MODEL

The utility model provides a can detach fodder filling device of fodder powder sediment to the blank in current market.

The technical scheme of the utility model is that: a fodder filling device capable of removing fodder powder slag comprises a separation system, a dust treatment system, an electrostatic generation system and a conveying system, wherein the separation system is composed of a separation bin, a feed inlet, material separation sheets, annular separation sheets, a discharge outlet, a valve and a crushed slag discharge outlet, the top of the separation bin is provided with the feed inlet, the feed inlet is a horn mouth, the material separation sheets are arranged below the feed inlet and are disc-shaped, the annular separation sheets are arranged below the material separation sheets, the center of each annular separation sheet is provided with a hole, the outer edge of each annular separation sheet is higher than the inner side, the edge projection of each material separation sheet falls at the center of the arc surface of each annular separation sheet, a plurality of groups of the material separation sheets and the annular separation sheets are arranged in the separation bin, the bottom of the separation bin is provided with the discharge outlet, the discharge outlet is extended for one section in the separation, the bottom of the separation bin is transversely provided with a crushed slag discharge port; the dust treatment system consists of a cyclone separator, a dust bag and a connecting pipe, wherein the top of the cyclone separator is connected with the dust bag, and the connecting pipe is connected with a separation bin and the cyclone separator; the static electricity generation system consists of a static electricity generation chamber and a fan, wherein one end of the static electricity generation chamber is connected with the fan, and the other end of the static electricity generation chamber is connected with the separation bin; the conveying system is composed of a conveying belt and packaging bags, the conveying belt is arranged below the discharge port, and the packaging bags are placed on the conveying belt. The principle of the utility model is as follows: the feed enters the separation bin from the feed inlet and falls onto the material separation sheet, so that the feed is uniformly dispersed from the annular material separation sheet and then falls onto the annular baffle, at the moment, the wind blown out from the fan passes through the electrostatic generation chamber, so that the wind carries electrostatic charges, when passing through the separation bin, feed particles with smaller adsorption particles enter the cyclone separator along with the connecting pipe, opposite electrodes are arranged in the cyclone separator, the feed particles adsorbed by the electrostatic charges are attracted to the electrodes, and after being collected, the feed particles are utilized, and larger particles brought in along with the wind are discharged from the bottom of the cyclone separator; other fodder granules will continue to move downwards at material separation piece, annular separation blade many times, when arriving at last group material separation piece, annular separation blade, when the fodder finally falls from annular separation blade, the fodder of bigger granule is because the quality is big, the air resistance that receives is less, can pop out far distance from annular separation blade, fall into the discharge gate, and the fodder piece that the quality is little can not pop out far distance from annular separation blade, finally fall into between discharge gate and the separation storehouse, and this part piece will be collected from disintegrating slag discharge port, from this, powder in the fodder, the piece will be separated from the fodder that waits to fill.

Preferably, 3 groups of material separating sheets and annular blocking sheets are arranged in the separating bin. 3 group material separation piece, annular separation blade make fodder, powder sediment produce many times and separate for less granule gets into cyclone, and another part falls into between discharge gate and the separation bin, produces good separation function.

Preferably, the static electricity generation system is provided with 2 groups of static electricity generation chambers and fans. The 2 groups of static electricity generating chambers and the fan enable the separation bin to generate 2 times of powder-residue separation, and powder residues in the feed are removed to the maximum extent.

Preferably, the dust treatment system is provided with 2 connecting pipes for connecting the separation bin and the cyclone separator. 2 connecting pipes make the powder sediment of electrified static leave the storehouse fastest, accelerate the getting rid of powder sediment.

Preferably, the connecting pipe is vertically connected with the separation bin, and the connecting pipe is tangentially connected with the edge of the cyclone separator. The connecting pipe is in tangential connection with the edge of the cyclone separator, so that the wind with the powder slag can naturally rotate in the cyclone separator, and the separation of the powder slag is accelerated.

Preferably, the separation bin, the material separation sheet and the annular separation sheet are made of glass fiber reinforced plastic materials. The separating bin, the material separating sheet and the annular blocking sheet are made of glass fiber reinforced plastic materials, so that the separating bin, the material separating sheet and the annular blocking sheet have enough strength and have insulating property, and the charged powder slag can not be adsorbed on the separating bin, the material separating sheet and the annular blocking sheet.

The utility model discloses the technical problem that will solve is: the utility model provides a can detach fodder filling device of fodder powder sediment, the separating bin, the material separation piece, annular separation blade dispersion fodder, the wind that the fan blew out, when the room takes place through static, make and have static charge in the wind, when through the separating bin, adsorb the less fodder granule of granule, along with in the connecting pipe gets into cyclone, when the fodder falls from annular separation blade, the fodder of great granule is because the quality is big, the air resistance who receives is less, can pop out far distance from annular separation blade, fall into in the discharge gate, and the little fodder piece of quality can not pop out far distance from annular separation blade, finally fall into between discharge gate and the separating bin, this part piece will be followed disintegrating slag discharge port and located and collected, powder in the fodder, the piece will be separated out from the fodder of treating the filling.

The utility model has the advantages that: a fodder filling device capable of removing fodder powder slag comprises a separation bin, a material separation sheet, an annular separation blade, a fan and an electrostatic generation chamber, and is compact in structure, low in energy consumption, low in cost and high in powder slag removal efficiency.

drawings

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

FIG. 2 is a perspective half sectional view of the separation system;

FIG. 3 is a front view of the present invention;

fig. 4 is a top view of the present invention;

In the figure, 100-separation system, 101-separation bin, 102-feeding inlet, 103-material separation piece, 104-annular baffle, 105-discharging outlet, 106-valve, 200-dust processing system, 201-cyclone separator, 202-dust bag, 203-connecting pipe, 300-static electricity generating system, 301-static electricity generating chamber, 302-fan, 400-conveying system, 401-conveying belt and 402-packaging bag.

Detailed Description

The utility model discloses a concrete implementation way does: as shown in fig. 1, 2, 3 and 4, a feed filling device capable of removing feed powder slag comprises a separation system 100, a dust treatment system 200, an electrostatic generation system 300 and a conveying system 400, wherein the separation system 100 comprises a separation bin 101, a feed inlet 102, material separation sheets 103, annular baffle plates 104, a discharge outlet 105, a valve 106 and a crushed slag discharge outlet, the top of the separation bin 101 is provided with the feed inlet 102, the feed inlet 102 is a horn mouth, the material separation sheets 103 are arranged below the feed inlet 102, the material separation sheets 103 are disc-shaped, the annular baffle plates 104 are arranged below the material separation sheets 103, the annular baffle plates 104 are provided with holes in the centers, the outer edges of the holes are higher than the inner sides, the edge projections of the material separation sheets 103 fall on the centers of the arc surfaces of the annular baffle plates 104, and a plurality of groups of material separation sheets 103 are arranged in the separation bin 101, The bottom of the separation bin 101 is provided with a discharge port 105, the discharge port 105 extends for a section in the separation bin 101, the tail end of the discharge port 105 is provided with a valve 106, and the bottom of the separation bin 101 is transversely provided with a slag discharge port; the dust processing system 200 consists of a cyclone 201, a dust bag 202 and a connecting pipe 203, wherein the top of the cyclone 201 is connected with the dust bag 202, and the connecting pipe 203 is connected with the separation bin 101 and the cyclone 201; the static electricity generation system 300 comprises a static electricity generation chamber 301 and a fan 302, wherein one end of the static electricity generation chamber 301 is connected with the fan 302, and the other end of the static electricity generation chamber 301 is connected with the separation bin 101; the conveying system 400 is composed of a conveying belt 401 and a packaging bag 402, the conveying belt 401 is arranged below the discharge port 105, and the packaging bag 402 is placed on the conveying belt 401. The principle of the utility model is as follows: the feed enters the separation bin 101 from the feed inlet 102 and falls onto the material separation sheet 103, so that the feed is uniformly dispersed from the annular material separation sheet 103 and then falls onto the annular baffle 104, at the moment, the wind blown out from the fan 302 passes through the static electricity generation chamber 301, so that the wind carries static charges, when passing through the separation bin 101, feed particles with smaller adsorption particles enter the cyclone separator 201 along with the connecting pipe 203, opposite electrodes are arranged in the cyclone separator 201, the feed particles adsorbed by the static electricity are attracted to the electrodes, and after collection, the feed particles are utilized, and larger particles brought in along with the wind are discharged from the bottom of the cyclone separator 201; other feed particles continuously move downwards on the material separating sheets 103 and the annular blocking sheets 104 for multiple times, when the feed reaches the last group of material separating sheets 103 and the annular blocking sheets 104, and finally falls off from the annular blocking sheets 104, the feed with larger particles is subjected to smaller air resistance due to large mass, can pop out a longer distance from the annular blocking sheets 104 and fall into the discharge port 105, feed scraps with small mass cannot pop out the longer distance from the annular blocking sheets 104 and finally fall between the discharge port 105 and the separation bin 101, and the part of scraps are collected from the scrap discharge port, so that powder and scraps in the feed are separated from the feed to be filled.

Specifically, as shown in fig. 2 and 3, 3 sets of material separating sheets 103 and annular blocking sheets 104 are arranged in the separating bin 101. The 3 groups of material separating sheets 103 and the annular baffle sheet 104 enable the feed and the powder slag to be separated for multiple times, so that smaller particles enter the cyclone separator 201, and the other part of the smaller particles fall between the discharge hole 105 and the separating bin 101 to achieve a good separating function.

Specifically, as shown in fig. 1 and 2, the static electricity generation system 300 includes 2 sets of static electricity generation chambers 301 and fans 302. The 2 groups of static electricity generating chambers 301 and the fan 302 enable the separation bin 101 to generate 2 times of powder-residue separation, and powder residues in the feed are removed to the maximum extent.

Specifically, as shown in fig. 1 and 2, the dust processing system 200 is provided with 2 connecting pipes 203 connecting the separating bin 101 and the cyclone 201. The 2 connecting pipes 203 enable the powder slag with static electricity to leave the bin 101 most quickly, and removal of the powder slag is accelerated.

Specifically, as shown in fig. 1 and 3, the connecting pipe 203 is vertically connected to the separation bin 101, and the connecting pipe 203 is tangentially connected to the edge of the cyclone 201. The connecting pipe 203 is tangentially connected with the edge of the cyclone separator 201, so that the wind with the powder slag naturally rotates in the cyclone separator 201, and the separation of the powder slag is accelerated.

Specifically, as shown in fig. 1, 2 and 3, the separation bin 101, the material separation plate 103 and the annular baffle plate 104 are made of glass fiber reinforced plastic. The separation bin 101, the material separation sheet 103 and the annular separation sheet 104 are made of glass steel, so that the separation bin 101, the material separation sheet 103 and the annular separation sheet 104 have enough strength and have insulating property, and the powder slag with charges can not be adsorbed on the separation bin 101, the material separation sheet 103 and the annular separation sheet 104.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. A fodder filling device capable of removing fodder powder dregs comprises a separation system (100), a dust treatment system (200), a static electricity generation system (300) and a conveying system (400), and is characterized in that: the separation system (100) comprises a separation bin (101), a feed inlet (102), material separation sheets (103), annular separation sheets (104), a discharge outlet (105), a valve (106) and a disintegrating slag discharge outlet, wherein the feed inlet (102) is formed in the top of the separation bin (101), the feed inlet (102) is a horn mouth, the material separation sheets (103) are arranged below the feed inlet (102), the material separation sheets (103) are disc-shaped, the annular separation sheets (104) are arranged below the material separation sheets (103), the annular separation sheets (104) are provided with holes in the center, the outer edge height is higher than the inner side, the edge projection of the material separation sheets (103) falls on the center of the arc surface of the annular separation sheets (104), a plurality of groups of material separation sheets (103) and annular separation sheets (104) are arranged in the separation bin (101), the discharge outlet (105) is formed in the bottom of the separation bin (101), the discharge hole

(105) A section of the material outlet is extended in the separation bin (101), and the tail end of the material outlet (105) is provided with a valve

(106) The bottom of the separation bin (101) is transversely provided with a crushed slag discharge port; the dust treatment system (200) consists of a cyclone separator (201), a dust collection bag (202) and a connecting pipe (203), wherein the cyclone separator

(201) The top of the cyclone separator is connected with a dust bag (202), and the connecting pipe (203) is connected with the separation bin (101) and the cyclone separator (201); the static electricity generating system (300) consists of a static electricity generating chamber (301) and a fan (302), wherein one end of the static electricity generating chamber (301) is connected with the fan (302), and the other end of the static electricity generating chamber is connected with the separation bin (101); conveying system (400) comprises conveyer belt (401), wrapping bag (402), conveyer belt (401) set up in the below of discharge gate (105), place wrapping bag (402) on conveyer belt (401).

2. A feed filling apparatus for removing feed powder residue as claimed in claim 1, wherein the feed filling apparatus further comprises a feed powder removing device for removing feed powder residue from the feed powder residue

The method comprises the following steps: and 3 groups of material separating sheets (103) and annular blocking sheets (104) are arranged in the separating bin (101).

3. a feed filling apparatus for removing feed powder residue as claimed in claim 1, wherein: the static electricity generation system (300) is provided with 2 groups of static electricity generation chambers (301) and fans (302).

4. A feed filling apparatus for removing feed powder residue as claimed in claim 1, wherein the feed filling apparatus further comprises a feed powder removing device for removing feed powder residue from the feed powder residue

The method comprises the following steps: the dust treatment system (200) is provided with 2 connecting pipes (203) which are connected with the separation bin (101) and the cyclone separator (201).

5. A feed filling apparatus for removing feed powder residue according to claim 4, wherein: the connecting pipe (203) is vertically connected with the separating bin (101), and the connecting pipe (203) is tangentially connected with the edge of the cyclone separator (201).

6. A feed filling apparatus for removing feed powder residue as claimed in claim 1, wherein: the separation bin (101), the material separation sheet (103) and the annular blocking sheet (104) are made of glass fiber reinforced plastic materials.