CN219151553U - Automatic feeding device for high-purity aluminum powder production - Google Patents

Abstract

An automatic feeding device for high-purity aluminum powder production comprises a first bottom plate, wherein a smelting furnace is arranged on the first bottom plate, a feeding hopper is arranged at the top of the smelting furnace, and a charging frame and a lifting device are further arranged on the first bottom plate; the charging frame comprises a frame body, a second bottom plate capable of opening and closing is hinged to the bottom of the frame body, and a limiting device which enables the second bottom plate to be arranged at the bottom of the frame body is arranged on the outer side of the frame body; the lifting device comprises vertical supporting legs fixed on the first bottom plate, the top parts of the supporting legs are fixed with supporting beams, and the supporting beams are provided with electric hoists which can move left and right and are used for lifting the charging frame; the top of the feed hopper is detachably fixed with a transition chamber. The utility model is convenient for automatic feeding, saves labor and improves safety.

Description

Automatic feeding device for high-purity aluminum powder production

Technical Field

The utility model relates to the technical field of aluminum powder production, in particular to an automatic feeding device for high-purity aluminum powder production.

Background

The high-purity aluminum powder is a fine chemical product, the development is rapid, the high-purity aluminum powder is widely applied to the fields of aerospace, weapons, integrated circuit substrates and the like, the production raw material of the high-purity aluminum powder is high-purity aluminum ingots, the high-purity aluminum ingots are required to be added into a smelting furnace in the production process of the high-purity aluminum powder, the high-purity aluminum ingots are heated and melted Cheng Gaowen aluminum liquid in the smelting furnace, the high-temperature aluminum liquid enters a reactor again, and the high-purity aluminum powder is formed through the steps of atomization, cooling and the like, a commonly used smelting device is disclosed in the patent with the patent publication number of CN217330680U, the patent name of the smelting device for processing the aluminum ingots is disclosed in the patent, the technical scheme comprises the smelting furnace, a feeding hopper is arranged on one side of the top of the smelting furnace, a discharge port is formed below one side of the smelting furnace, a stirring assembly is arranged above the smelting furnace, a heater is arranged at the bottom of the smelting furnace, the aluminum ingots are convenient to be heated and melted into the high-temperature aluminum liquid, but the position of the feeding hopper is high, the aluminum ingots are heavy, the manual feeding is laborious, the smelting furnace temperature is high, and safety accidents easily occur, so that the automatic feeding device for producing the high-purity aluminum powder is required to be designed, the automatic feeding is convenient, and the safety is improved, and the safety is convenient.

Disclosure of Invention

The utility model aims at: the automatic feeding device for producing the high-purity aluminum powder is convenient for automatic feeding, saves labor and improves safety.

The technical scheme adopted by the utility model is as follows:

an automatic feeding device for high-purity aluminum powder production comprises a first bottom plate, wherein a smelting furnace is arranged on the first bottom plate, a feeding hopper is arranged at the top of the smelting furnace, and a charging frame and a lifting device are further arranged on the first bottom plate; the charging frame comprises a frame body, a second bottom plate capable of opening and closing is hinged to the bottom of the frame body, and a limiting device which enables the second bottom plate to be arranged at the bottom of the frame body is arranged on the outer side of the frame body; the lifting device comprises vertical supporting legs fixed on the first bottom plate, the top parts of the supporting legs are fixed with supporting beams, and the supporting beams are provided with electric hoists which can move left and right and are used for lifting the charging frame; the top of the feed hopper is detachably fixed with a transition chamber.

The symmetrical opening and closing devices are arranged in the transition chamber, the opening and closing devices comprise opening and closing plates hinged in the transition chamber, the top of each opening and closing plate is provided with an inclined spring, an assembly plate corresponding to the spring is fixed in the transition chamber, and the top of each spring is arranged on the assembly plate.

The inner sides of the two opening plates are attached.

The bottom circumference of transition room is equipped with the fixed plate, and the top circumference of feeder hopper is fixed with down the fixed plate, and fixed connection can be dismantled through the bolt to last fixed plate and lower fixed plate.

The outer side of the frame body is provided with a horizontal telescopic rod, the fixed end of the telescopic rod is fixed on the frame body, the free end of the telescopic rod is fixed with a vertical sliding rod, the bottom of the sliding rod is fixed with a limiting block, the limiting block and the sliding rod are vertically arranged, the two are integrally in an inverted T shape, the top of the second bottom plate is provided with a sliding groove corresponding to the sliding rod, and the bottom of the sliding groove is communicated with a limiting groove corresponding to the limiting block; the outer ends of the sliding groove and the limiting groove are open.

One end of the supporting beam, which deviates from the electric hoist, is fixed with a balancing weight, and the balancing weight and the electric hoist are respectively arranged on two sides of the supporting leg.

The utility model is convenient for automatic feeding, saves labor and improves safety, a smelting furnace is arranged on a first bottom plate and is used for heating and melting high-purity aluminum ingots into high-temperature aluminum liquid, a feeding hopper is arranged at the top of the smelting furnace and is used for feeding, a charging frame and a lifting device are also arranged on the first bottom plate and are used for containing the high-purity aluminum ingots, the lifting device is used for lifting the charging frame and the high-purity aluminum ingots in the charging frame, a second bottom plate which can be opened and closed is hinged at the bottom of the frame body and is convenient for loading and unloading, a limiting device which enables the second bottom plate to be arranged at the bottom of the frame body is arranged at the outer side of the frame body and is convenient for supporting the high-purity aluminum ingots by the second bottom plate, an electric hoist of the lifting device is used for lifting the charging frame, a transition chamber is detachably fixed at the top of the feeding hopper and plays a role of transition, when the charging frame is arranged on the first bottom plate, the charging frame is hooked by a lifting hook of an electric hoist, the charging frame is driven to be lifted and moved to the upper part of the transition chamber, the charging frame enters the transition chamber, and the second bottom plate is controlled by the limiting device to open the second bottom plate, and the high-purity aluminum ingots are sequentially fed into the smelting furnace.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic structural view of a transition chamber;

FIG. 3 is a schematic view (I) of a partial structure of the charging frame;

fig. 4 is a partial structural view of the charging frame (ii).

Detailed Description

As shown in fig. 1-4, an automatic feeding device for producing high-purity aluminum powder comprises a first bottom plate 1, wherein a smelting furnace 2 is arranged on the first bottom plate 1 and used for heating and smelting high-purity aluminum ingots into high-temperature aluminum liquid, a feeding hopper 3 is arranged at the top of the smelting furnace 2 and used for feeding, a charging frame 7 and a lifting device are also arranged on the first bottom plate 1, the charging frame 7 is used for containing the high-purity aluminum ingots, and the lifting device is used for lifting the charging frame 7 and the high-purity aluminum ingots in the charging frame 7; the charging frame 7 comprises a frame body 15, a second bottom plate 18 capable of opening and closing is hinged to the bottom of the frame body 15, so that charging and discharging are facilitated, and a limiting device which enables the second bottom plate 18 to be arranged at the bottom of the frame body 15 is arranged on the outer side of the frame body 15, so that the second bottom plate 18 is facilitated to support a high-purity aluminum ingot; the lifting device comprises vertical supporting legs 8 fixed on the first bottom plate 1, supporting beams 10 are fixed at the tops of the supporting legs 8, and electric hoists 11 capable of moving left and right and used for lifting the charging frame 7 are arranged on the supporting beams 10; the top of the feed hopper 3 is detachably fixed with a transition chamber 6, and the top of the transition chamber 6 is open to play a role in transition.

The symmetrical opening and closing device is arranged in the transition chamber 6 to reduce heat dissipation in the smelting furnace 2, the opening and closing device comprises an opening and closing plate 12 hinged in the transition chamber 6, an inclined spring 13 is arranged at the top of the opening and closing plate 12, an assembly plate 14 corresponding to the spring 13 is fixed in the transition chamber 6, the top of the spring 13 is arranged on the assembly plate 14 to facilitate assembly, when the charging frame 7 enters the transition chamber 6 and presses the opening and closing plate 12 downwards, the opening and closing plate 12 rotates downwards, the spring 13 is stretched, when the charging frame 7 enters the lower part of the transition chamber 6, the limiting device controls the second bottom plate 18 to open to start discharging, high-purity aluminum ingots in the charging frame 7 enter the smelting furnace 2 from the transition chamber 6 and the feeding hopper 3 in sequence, and when the discharging is finished, the lifting device drives the charging frame 7 to move out of the transition chamber 6, the spring 13 resets, and the opening and closing plate 12 rotates to an initial position.

The inner sides of the two opening plates 12 are attached to reduce heat dissipation.

The bottom circumference of transition room 6 is equipped with fixed plate 5, and the top circumference of feeder hopper 3 is fixed with down the fixed plate, and fixed connection can be dismantled through the bolt to fixed plate 5 and lower fixed plate, is convenient for install and dismantle.

The outer side of the frame body 15 is provided with a horizontal telescopic rod 16, the fixed end of the telescopic rod 16 is fixed on the frame body 15, the free end of the telescopic rod 16 is fixed with a vertical slide rod 17, the bottom of the slide rod 17 is fixed with a limiting block 21, the limiting block 21 and the slide rod 17 are vertically arranged, the two are of an inverted T shape as a whole, the telescopic rod 16 can drive the slide rod 17 and the limiting block 21 to move left and right, the top of the second bottom plate 18 is provided with a sliding groove 19 corresponding to the slide rod 17, and the bottom of the sliding groove 19 is communicated with a limiting groove 20 corresponding to the limiting block 21; the outer ends of the sliding groove 19 and the limiting groove 20 are all open, the telescopic rod 16 can be a conventional telescopic device such as an electric push rod and a hydraulic rod, when the second bottom plate 18 is required to be opened for discharging, the telescopic rod 16 drives the sliding rod 17 to slide outwards, the limiting block 21 moves outwards along the limiting groove 20 until the limiting block 21 is separated from the limiting groove 20, the sliding rod 17 is separated from the sliding groove 19, the second bottom plate 18 rotates downwards, and a high-purity aluminum ingot is moved out of the charging frame 7 to finish automatic discharging.

One end of the supporting beam 10 deviating from the electric hoist 11 is fixed with a balancing weight 9, and the balancing weight 9 and the electric hoist 11 are respectively arranged on two sides of the supporting leg 8, so that balance is kept conveniently.

The utility model is convenient for automatic feeding, saves labor and improves safety, when the charging frame 7 is arranged on the first bottom plate 1, the second bottom plate 18 is arranged at the bottom of the frame body 15, the limiting block 21 is arranged in the limiting groove 20, the sliding rod 17 is arranged in the sliding groove 19, high-purity aluminum ingots are filled in the charging frame 7, the charging frame 7 is hooked by the lifting hook of the electric hoist 11, the charging frame 7 is driven to rise and move to the upper part of the transition chamber 6, the charging frame 7 enters the transition chamber 6, the opening and closing device is opened, the limiting device controls the second bottom plate 18 to be opened, and the high-purity aluminum ingots sequentially enter the smelting furnace 2 from the transition chamber 6 and the feeding hopper 3.

The above embodiments are illustrative of the present utility model, and not limiting, and any simple modifications of the present utility model fall within the scope of the present utility model.

Claims (6)

1. The utility model provides an automatic feeding device of high-purity aluminium powder production, includes first bottom plate, is equipped with the smelting furnace on the first bottom plate, and the top of smelting furnace is equipped with feeder hopper, its characterized in that: the first bottom plate is also provided with a charging frame and a lifting device; the charging frame comprises a frame body, a second bottom plate capable of opening and closing is hinged to the bottom of the frame body, and a limiting device which enables the second bottom plate to be arranged at the bottom of the frame body is arranged on the outer side of the frame body; the lifting device comprises vertical supporting legs fixed on the first bottom plate, the top parts of the supporting legs are fixed with supporting beams, and the supporting beams are provided with electric hoists which can move left and right and are used for lifting the charging frame; the top of the feed hopper is detachably fixed with a transition chamber.

2. The automatic feeding device for producing high-purity aluminum powder according to claim 1, wherein: the symmetrical opening and closing devices are arranged in the transition chamber, the opening and closing devices comprise opening and closing plates hinged in the transition chamber, the top of each opening and closing plate is provided with an inclined spring, an assembly plate corresponding to the spring is fixed in the transition chamber, and the top of each spring is arranged on the assembly plate.

3. The automatic feeding device for producing high-purity aluminum powder according to claim 2, wherein: the inner sides of the two opening plates are attached.

4. The automatic feeding device for producing high-purity aluminum powder according to claim 2, wherein: the bottom circumference of transition room is equipped with the fixed plate, and the top circumference of feeder hopper is fixed with down the fixed plate, and fixed connection can be dismantled through the bolt to last fixed plate and lower fixed plate.

5. The automatic feeding device for producing high-purity aluminum powder according to claim 1, wherein: the outer side of the frame body is provided with a horizontal telescopic rod, the fixed end of the telescopic rod is fixed on the frame body, the free end of the telescopic rod is fixed with a vertical sliding rod, the bottom of the sliding rod is fixed with a limiting block, the limiting block and the sliding rod are vertically arranged, the two are integrally in an inverted T shape, the top of the second bottom plate is provided with a sliding groove corresponding to the sliding rod, and the bottom of the sliding groove is communicated with a limiting groove corresponding to the limiting block; the outer ends of the sliding groove and the limiting groove are open.

6. The automatic feeding device for producing high-purity aluminum powder according to claim 1, wherein: one end of the supporting beam, which deviates from the electric hoist, is fixed with a balancing weight, and the balancing weight and the electric hoist are respectively arranged on two sides of the supporting leg.

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