CN216729563U - Aluminum block crushing device for aluminum paste production - Google Patents

Abstract

The utility model relates to the technical field of aluminum paste processing, and discloses an aluminum block crushing device for aluminum paste production, which comprises a crushing cavity, wherein the bottom of the crushing cavity is connected to a conveying cavity, a second discharge hole is arranged below the right end of the conveying cavity, and the bottom of the second discharge hole is connected to a hot melting tank; an iron powder circulating adsorption device is arranged at the left end of the conveying cavity; the utility model discloses the purpose is for smashing into tiny aluminium fragment with great aluminium piece, and tiny aluminium fragment is heated more easily and is melted in the hot melt groove, the melting time of aluminium piece that very big shortens has improved production efficiency; the conveying cavity aims at facilitating conveying the crushed fine aluminum fragments to a hot melting tank, rapidly melting the crushed fine aluminum fragments through the hot melting tank, and the iron powder circulating adsorption device aims at facilitating adsorbing iron powder in the crushed fine aluminum blocks and improving the purity of the aluminum blocks.

Description

Aluminum block crushing device for aluminum paste production

Technical Field

The utility model relates to an aluminum paste processing technology field specifically is an aluminum block reducing mechanism is used in aluminum paste production.

Background

The aluminum paste is an aluminum metal pigment, and the manufacturing method comprises the steps of mixing spherical aluminum powder, solvent oil and oleic acid with ball milling medium steel balls, carrying out ball milling for 6-30 h, then carrying out grading screening, and kneading to obtain a slurry metal pigment. The aluminum paste becomes a metal pigment which is most widely applied and researched due to the characteristics of the aluminum paste such as specific metallic luster effect, flip-flop effect, optical effect, suspension characteristic and the like.

The raw material aluminum block is needed to be used in the preparation process of the aluminum paste, and when the massive aluminum block is melted, more time and heat are needed to be consumed to finish the aluminum paste due to the large size, so that the time and energy waste are avoided, and the cost is increased.

Based on this, we propose an aluminium pig reducing mechanism for aluminum paste production, hope solve the shortcoming in the prior art.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

Not enough to prior art, the utility model provides an aluminium pig reducing mechanism is used in aluminium paste production.

(II) technical scheme

In order to achieve the above object, the present invention provides the following technical solutions:

an aluminum block crushing device for aluminum paste production comprises a crushing cavity, wherein the bottom of the crushing cavity is connected to a conveying cavity, a second discharge hole is formed below the right end of the conveying cavity, and the bottom of the second discharge hole is connected to a hot melting tank;

and the left end of the conveying cavity is provided with an iron powder circulating adsorption device.

As a further technical scheme: a crushing device is arranged in the crushing cavity;

a feed inlet is formed in the top of the right end of the crushing cavity, and a first discharge outlet is formed in the bottom of the crushing cavity;

the first discharge hole is located at the left end inside the conveying cavity.

As a further aspect, the crushing device includes a crushing roller that is driven by a first motor.

As a further technical scheme, a feeding auger is arranged in the conveying cavity, the right end of the feeding auger is connected to the right side wall in the conveying cavity, the left end of the feeding auger is connected to a stirring shaft, and the left end of the stirring shaft is connected to the left side wall in the conveying cavity;

the stirring shaft is positioned below the first discharge hole.

As a further technical scheme: the iron powder circulating adsorption device comprises a magnetic block, the left end of the magnetic block is connected to a first connecting plate, the first connecting plate penetrates through a limiting slide way, and the limiting slide way is arranged on the left side outside the conveying cavity;

the left end of the first connecting plate is hinged to a second connecting plate, the other end of the second connecting plate is hinged to a rocking plate, the bottom of the rocking plate is connected to a side plate through a first connecting shaft, the rocking plate is arranged on the side face of a turntable, an upright post is arranged at the eccentric position of the turntable and penetrates through the rocking plate, and the turntable penetrates through the side plate through a second connecting shaft and is connected to a second motor;

the side plates are fixed on the bottom plate.

As a further technical scheme: and a limiting groove is arranged in the rocking plate.

(III) advantageous effects

Compared with the prior art, the utility model provides an aluminium pig reducing mechanism is used in aluminium silver thick liquid production possesses following beneficial effect:

the utility model aims to crush a larger aluminum block into fine aluminum fragments which are easier to be heated and melted in the hot melting tank, thereby greatly shortening the melting time of the aluminum block and improving the production efficiency; the conveying cavity aims at facilitating conveying the crushed fine aluminum fragments to a hot melting tank, rapidly melting the crushed fine aluminum fragments through the hot melting tank, and the iron powder circulating adsorption device aims at facilitating adsorbing iron powder in the crushed fine aluminum blocks and improving the purity of the aluminum blocks.

Drawings

FIG. 1 is a view of the overall structure of the present invention;

FIG. 2 is a structural diagram of the iron powder circulating adsorption device of the present invention;

FIG. 3 is a structural view of the rocking plate of the present invention;

FIG. 4 is a structural view of the crushing chamber of the present invention;

fig. 5 is a structural diagram of the crushing device of the present invention.

In the figure: the device comprises a conveying cavity 1, a crushing cavity 2, a feeding hole 21, a crushing device 3, a first motor 31, a crushing roller 32, a first discharging hole 5, a stirring shaft 6, a limiting slideway 7, an iron powder circulating adsorption device 8, a rocking plate 81, a rotary disc 82, an upright post 83, a magnetic block 84, a first connecting plate 85, a second connecting plate 86, a second connecting shaft 87, a second motor 88, a side plate 89, a bottom plate 810, a first connecting shaft 811, a support leg 9, a third discharging hole 10, a valve 11, a hot melting groove 12, a second discharging hole 13 and a feeding auger 14.

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. 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.

Example 1

Referring to fig. 1-5, an aluminum block crushing device for aluminum paste production includes a crushing cavity 2, the crushing cavity 2 is used for crushing a larger aluminum block into fine aluminum fragments, and the fine aluminum fragments are more easily melted by heating in a hot melting tank, so that the melting time of the aluminum block is greatly shortened, and the production efficiency is improved; the bottom of the crushing cavity 2 is connected to the conveying cavity 1, the conveying cavity 1 is used for conveniently conveying crushed fine aluminum fragments into the hot melting tank 12, and the crushed fine aluminum fragments can be rapidly melted through the hot melting tank 12;

a second discharge port 13 is arranged below the right end of the conveying cavity 1, and the bottom of the second discharge port 13 is connected to the hot melting tank 12; the bottom of the hot melting tank 12 is fixed through a support leg 9, a third discharge hole 10 is formed in the bottom of the hot melting tank 12 for discharging, and a valve 11 is arranged for controlling opening and closing for controlling the third discharge hole 10;

the bottom of the conveying cavity 1 is fixed through mounting support legs 9;

the left end of the conveying cavity 1 is provided with an iron powder circulating adsorption device 8, and the iron powder circulating adsorption device 8 is used for adsorbing iron powder in crushed fine aluminum blocks to improve the purity of the aluminum blocks.

The crushing cavity 2 is internally provided with a crushing device 3, and the crushing device 3 can rapidly crush larger aluminum blocks into fine aluminum blocks;

a feeding hole 21 is formed in the top of the right end of the crushing cavity 2, a first discharging hole 5 is formed in the bottom of the crushing cavity 2, so that small fraction can enter the conveying cavity 1 after crushing, a filter screen 4 is arranged in the first discharging hole 5, the small fraction can be filtered and enter the conveying cavity 1 through the filter screen 4, and larger particles are continuously crushed until the small fraction is crushed into small particles again and then enter the conveying cavity 1 through the filter screen;

first discharge gate 5 is located the inside left end of transport chamber 1, and the tiny aluminium fragment after being convenient for first discharge gate 5 is direct discharges transport chamber 1 in with smashing.

The crushing device 3 comprises a crushing roller 32, the crushing roller 32 is driven by a first motor 31, and the crushing roller 32 is driven by the first motor 31 to rotate at a high speed, so that large aluminum fragments are crushed quickly.

A feeding auger 14 is arranged in the conveying cavity 1, crushed fine materials can be quickly conveyed into a second discharge hole 13 through the feeding auger 14, the right end of the feeding auger 14 is connected to the right side wall in the conveying cavity 1, the left end of the feeding auger 14 is connected to a stirring shaft 6, and the left end of the stirring shaft 6 is connected to the left side wall in the conveying cavity 1;

the stirring shaft 6 is positioned below the first discharge hole 5.

The iron powder circulating adsorption device 8 comprises a magnetic block 84, the magnetic block 84 is located at the bottom of the left end in the conveying cavity 1 and below the stirring shaft 6, the stirring shaft 6 is used for stirring crushed fine aluminum materials and can improve the contact between the crushed fine aluminum materials and the magnetic block, so that the adsorption and removal effects of the magnetic block 84 on iron powder are improved, a better purification effect is achieved, the left end of the magnetic block 84 is connected to a first connecting plate 85, the first connecting plate 85 penetrates through a limiting slide 7, the first connecting plate 85 can freely slide in the limiting slide 7, the magnetic block 84 can be driven to move back and forth in the conveying cavity 1, the adsorption effect is improved, and the limiting slide 7 is arranged on the left side outside the conveying cavity 1;

the left end of the first connecting plate 85 is hinged to a second connecting plate 86, the other end of the second connecting plate 86 is hinged to a rocking plate 81, the bottom of the rocking plate 81 is connected to a side plate 89 through a first connecting shaft 811, the rocking plate 81 is arranged on the side of a rotary disc 82, an upright post 83 is arranged at the eccentric position of the rotary disc 82, the upright post 83 penetrates through the rocking plate 81, and the rotary disc 82 penetrates through the side plate 89 through a second connecting shaft 87 to be connected to a second motor 88; the rotation of the second motor 88 drives the rotating disc 82 to rotate, so as to drive the upright post 83 to do circular motion, the upright post 83 drives the rocking plate 81 to swing left and right, and the second connecting plate 86 drives the first connecting plate 85 to do reciprocating linear motion;

the side plates 89 are fixed to the base plate 810.

A limiting groove is formed in the rocking plate 81, and the limiting groove 8 is used for limiting the upright post 83.

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 (6)

1. The aluminum block crushing device for aluminum paste production is characterized by comprising a crushing cavity (2), wherein the bottom of the crushing cavity (2) is connected to a conveying cavity (1), a second discharge hole (13) is formed below the right end of the conveying cavity (1), and the bottom of the second discharge hole (13) is connected to a hot melting tank (12);

and an iron powder circulating adsorption device (8) is arranged at the left end of the conveying cavity (1).

2. The aluminum block crushing device for aluminum paste production according to claim 1, characterized in that: a crushing device (3) is arranged in the crushing cavity (2);

a feed inlet (21) is formed in the top of the right end of the crushing cavity (2), and a first discharge outlet (5) is formed in the bottom of the crushing cavity (2);

the first discharge hole (5) is positioned at the left end inside the conveying cavity (1).

3. The aluminum block crushing device for aluminum paste production according to claim 2, wherein the crushing device (3) comprises a crushing roller (32), and the crushing roller (32) is driven by a first motor (31).

4. The aluminum block crushing device for aluminum paste production according to claim 1, wherein a feeding auger (14) is arranged in the conveying cavity (1), the right end of the feeding auger (14) is connected to the inner right side wall of the conveying cavity (1), the left end of the feeding auger (14) is connected to the stirring shaft (6), and the left end of the stirring shaft (6) is connected to the inner left side wall of the conveying cavity (1);

the stirring shaft (6) is positioned below the first discharge hole (5).

5. The aluminum block crushing device for aluminum paste production according to claim 1, characterized in that: the iron powder circulating adsorption device (8) comprises a magnetic block (84), the left end of the magnetic block (84) is connected to a first connecting plate (85), the first connecting plate (85) penetrates through a limiting slide way (7), and the limiting slide way (7) is arranged on the left side outside the conveying cavity (1);

the left end of the first connecting plate (85) is hinged to a second connecting plate (86), the other end of the second connecting plate (86) is hinged to a rocking plate (81), the bottom of the rocking plate (81) is connected to a side plate (89) through a first connecting shaft (811), the rocking plate (81) is arranged on the side face of a rotary disc (82), an upright post (83) is arranged at the eccentric position of the rotary disc (82), the upright post (83) penetrates through the rocking plate (81), and the rotary disc (82) penetrates through the side plate (89) through a second connecting shaft (87) and is connected to a second motor (88);

the side plates (89) are fixed on the bottom plate (810).

6. The aluminum block crushing device for aluminum paste production according to claim 5, characterized in that: and a limiting groove is arranged in the rocking plate (81).

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