CN212119225U - Metal pigment vibration unloading screening mechanism - Google Patents

Abstract

The utility model discloses a metallic pigment vibration unloading screening mechanism, including the bank of screens, the bank of screens includes storage bucket, shale shaker and unloading bucket from top to bottom in proper order, the top of bank of screens is provided with first pipeline, first pipeline downwardly extending is to in the storage bucket, the bottom of storage bucket runs through and is provided with first discharge gate, the shale shaker sets up the below at first discharge gate, the bottom of shale shaker is provided with the second pipeline, second pipeline downwardly extending just runs through the unloading bucket setting, the bottom of unloading bucket is provided with the second discharge gate. The aluminium silver thick liquid after the shale shaker will filter flows along the next process of second pipeline along fluid, and the aluminium silver thick liquid that does not pass through the screening discharges through the second discharge gate along flowing to the unloading bucket in, at this in-process, make full use of the advantage of gravity, has accomplished the screening of aluminium silver thick liquid, reduces the manual intervention unloading simultaneously and reduces artifical transport material.

Description

Metal pigment vibration unloading screening mechanism

Technical Field

The utility model relates to a metallic pigment's screening, in particular to metallic pigment vibration unloading screening mechanism.

Background

The aluminum paste belongs to one of metal pigments and can be divided into two categories of floating type silver paste and non-floating type silver paste, the floating type silver paste floats on the surface of a coating film due to low surface tension of the floating type silver paste, the floating type silver paste has extremely high light reflectivity and chromium plating effect, but aluminum sheets easily fall off from the surface of the coating film to cause difficulty in recoating, and the floating type silver paste is applied to occasions such as corrosion prevention, roofs, tanks and the like; the non-floating silver paste can be completely wetted by the coating, is uniformly distributed in the whole paint film, has the sinking tendency, is firm and stable in paint film, can be recoated with finish, and is widely applied to various occasions such as vehicles, furniture, electronic products, coiled materials and the like.

Among the prior art, chinese utility model patent that the grant bulletin number is "CN 207042639U" discloses a continuous production system of aluminum paste, and it carries out the ball-milling to aluminum paste through the ball mill, then carries out the partial shipment through the shale shaker, but the unloading operation of shale shaker is comparatively loaded down with trivial details, is difficult to with automatic production line phase-match, consequently needs a metallic pigment vibration unloading screening mechanism that reduces manual intervention and transport material.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a metallic pigment vibration unloading screening mechanism has the advantage that reduces the manual intervention unloading and reduce artifical transport material.

The above technical purpose of the present invention can be achieved by the following technical solutions: the utility model provides a metallic pigment vibration unloading screening mechanism, includes the bank of screens, the bank of screens includes loading bucket, shale shaker and unloading bucket from top to bottom in proper order, the top of bank of screens is provided with first pipeline, first pipeline downwardly extending is to the loading bucket in, the bottom of loading bucket is run through and is provided with first discharge gate, the shale shaker sets up the below at first discharge gate, the bottom of shale shaker is provided with the second pipeline, second pipeline downwardly extending just runs through the unloading bucket setting, the bottom of unloading bucket is provided with the second discharge gate.

Preferably, the cross sections of the feeding barrel, the vibrating screen and the discharging barrel are all annular.

Through adopting above-mentioned technical scheme, accommodation space is big, avoids aluminium silver thick liquid to take place to pile up wherein.

Preferably, the bottom of the feeding barrel inclines towards the first discharge hole.

Through adopting above-mentioned technical scheme, aluminum paste flows in to first discharge gate along with the side of slope under the effect of gravity, avoids taking place to pile up in last storage bucket.

Preferably, the bottom of the blanking barrel inclines towards the second discharge hole.

Through adopting above-mentioned technical scheme, aluminum paste flows in to the second discharge gate along with the side of slope under the effect of gravity, avoids taking place to pile up in the baiting bucket.

Preferably, the first discharge port and the second discharge port are both provided with a quarter ball valve.

By adopting the technical scheme, the switching-off function is achieved.

Preferably, the screen frame comprises at least three vertically arranged pipe bodies, and fixing pieces connected with the pipe bodies are arranged at the bottoms of the feeding barrel and the discharging barrel.

Through adopting above-mentioned technical scheme, simplify the structure, the joint strength has been strengthened to the stationary blade.

Preferably, the fixing piece is triangular.

Through adopting above-mentioned technical scheme, fixed effect is better, and structural strength is higher.

Preferably, a fixing rod is connected between the adjacent pipe bodies, and the bottom of the vibrating screen is fixedly connected with the fixing rod.

Through adopting above-mentioned technical scheme, the dead lever has played the effect of supporting the shale shaker.

Preferably, the second pipeline is located on the side of the second discharge hole.

Through adopting above-mentioned technical scheme, avoid second pipeline and second discharge gate to take place to interfere.

In conclusion, when blanking is needed, aluminum paste after ball milling flows into the charging barrel through the first pipeline, and the contact between the aluminum paste which just flows out and the outside can be effectively reduced because the opening of the first pipeline is positioned in the charging barrel; then in getting into the shale shaker through first discharge gate, the aluminium thick liquid after the shale shaker will filter flows along the next process of second pipeline along fluid, and the aluminium thick liquid that does not pass through the screening is along flowing to the feed bin in, discharges through the second discharge gate, and at this in-process, make full use of the advantage of gravity, accomplished the screening of aluminium thick liquid, reduce manual intervention unloading and reduce artifical transport material simultaneously.

Drawings

FIG. 1 is a schematic structural view of an embodiment;

FIG. 2 is a top view of the charging basket of the embodiment;

FIG. 3 is a top view of the blanking barrel of the embodiment;

in the figure, 51, a sieve frame; 511. a pipe body; 512. a fixing sheet; 513. fixing the rod; 52. a feeding barrel; 53. vibrating screen; 54. a blanking barrel; 55. a first conduit; 56. a first discharge port; 57. a second conduit; 58. a second discharge port; 59. a quarter ball valve.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications to the present embodiment without inventive contribution as required after reading the present specification, but all of them are protected by patent laws within the scope of the claims of the present invention.

Example (b):

as shown in fig. 1, a metallic pigment vibration unloading screening mechanism, including bank of screens 51, bank of screens 51 includes from top to bottom in proper order and goes up storage bucket 52, shale shaker 53 and unloading bucket 54, and the top of bank of screens 51 is provided with first pipeline 55, and first pipeline 55 downwardly extending to in the storage bucket 52, the bottom of going up storage bucket 52 is run through and is provided with first discharge gate 56, and shale shaker 53 sets up the below at first discharge gate 56, the bottom of shale shaker 53 is provided with second pipeline 57, and second pipeline 57 downwardly extending just runs through the setting of unloading bucket 54, and the bottom of unloading bucket 54 is provided with second discharge gate 58, and the unloading pipeline of ball mill is upwards accepted to first pipeline 55.

First pipeline 55 and second pipeline 57 all adopt the galvanized pipe way, all are provided with the pipe fitting on first discharge gate 56 and the second discharge gate 58 simultaneously, are provided with quartering ball valve 59 in the pipe fitting, as opening and shutting off.

As shown in fig. 1 and 2, the cross-sectional shapes of the feeding barrel 52, the vibrating screen 53 and the discharging barrel 54 are all annular, the bottom of the feeding barrel 52 is inclined towards the first discharging port 56, and the bottom of the discharging barrel 54 is inclined towards the second discharging port 58, that is, the bottom of the feeding barrel 52 and the bottom of the discharging barrel 54 are both in an inverted cone shape, so that the flow of aluminum silver paste is accelerated.

As shown in fig. 3, in order to avoid the interference between the second pipe 57 and the second discharge port 58, the second pipe 57 is located at the side of the second discharge port 58, and the second blanking barrel 54 is fixed to the second pipe 57 by welding. .

Wherein the screen frame 51 includes at least three vertical bodys 511 that are provided with, according to the size of material loading bucket 52, can select more bodys 511 as the support, and the bottom of material loading bucket 52 and unloading bucket 54 is provided with the stationary blade 512 of being connected with bodys 511, and stationary blade 512 adopts the welded mode to realize the fixed of both sides, in order to better seal, also can establish sealed bucket at the screen frame 51 overcoat.

As shown in fig. 1, in order to improve the fixing effect of the vibrating screen 53, a fixing rod 513 is connected between adjacent pipe bodies 511, the fixing rod 513 is made of galvanized flat iron, and the bottom of the vibrating screen 53 is welded and fixed to the fixing rod 513.

The working principle is as follows:

when blanking is needed, the aluminum paste after ball milling flows into the charging barrel 52 through the first pipeline 55, and the contact between the aluminum paste which just flows out and the outside can be effectively reduced because the opening of the first pipeline 55 is positioned in the charging barrel 52; then in getting into shale shaker 53 through first discharge gate 56, shale shaker 53 flows the aluminium silver thick liquid after the screening along second pipeline 57 to next process along fluid, and the aluminium silver thick liquid that does not pass through the screening is along with flowing to unloading bucket 54 in, discharges through second discharge gate 58, and at this in-process, make full use of the advantage of gravity, accomplished the screening of aluminium silver thick liquid.

Claims (9)

1. The utility model provides a metallic pigment vibration unloading screening mechanism, includes bank of screens (51), its characterized in that: the utility model discloses a screening sieve, including sieve frame (51) from top to bottom in proper order, including feed bucket (52), shale shaker (53) and feed bucket (54), the top of sieve frame (51) is provided with first pipeline (55), first pipeline (55) downwardly extending is to in feed bucket (52), the bottom of feed bucket (52) is run through and is provided with first discharge gate (56), shale shaker (53) set up the below at first discharge gate (56), the bottom of shale shaker (53) is provided with second pipeline (57), second pipeline (57) downwardly extending just runs through feed bucket (54) and sets up, the bottom of feed bucket (54) is provided with second discharge gate (58).

2. The metallic pigment vibrating blanking screening mechanism of claim 1, wherein: the cross sections of the feeding barrel (52), the vibrating screen (53) and the discharging barrel (54) are all annular.

3. The metallic pigment vibrating blanking screening mechanism of claim 1, wherein: the bottom of the feeding barrel (52) inclines towards the first discharge hole (56).

4. The metallic pigment vibrating blanking screening mechanism of claim 1, wherein: the bottom of the blanking barrel (54) inclines towards the direction of the second discharge hole (58).

5. The metallic pigment vibrating blanking screening mechanism of claim 1, wherein: and the first discharge hole (56) and the second discharge hole (58) are both provided with a quarter ball valve (59).

6. The metallic pigment vibrating blanking screening mechanism of claim 1, wherein: the screen frame (51) comprises at least three vertically arranged pipe bodies (511), and fixing pieces (512) connected with the pipe bodies (511) are arranged at the bottoms of the feeding barrel (52) and the discharging barrel (54).

7. The metallic pigment vibrating blanking screening mechanism of claim 6, wherein: the fixing sheet (512) is triangular.

8. The metallic pigment vibrating blanking screening mechanism of claim 6, wherein: and a fixing rod (513) is connected between the adjacent pipe bodies (511), and the bottom of the vibrating screen (53) is fixedly connected with the fixing rod (513).

9. The metallic pigment vibrating blanking screening mechanism of claim 1, wherein: the second pipeline (57) is positioned on the side surface of the second discharge hole (58).

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