CN209957862U - Rub grey machine with hands - Google Patents

Abstract

The utility model discloses an ash rubbing machine, which comprises a case, an ash rubbing device, a dumping device and an aluminum liquid recovery container, wherein the ash rubbing device and the dumping device are arranged in the case; the ash rubbing device comprises a reaction kettle for accommodating the aluminum slag and a stirring device for stirring the aluminum slag; a bearing platform for placing the reaction kettle and a transfer device for moving the reaction kettle are arranged on the case, and the aluminum liquid recovery container is arranged below the bearing platform; the pouring device comprises a joint mechanism for receiving the reaction kettle and an insert for inserting the bottom of the reaction kettle, wherein the joint mechanism is used for overturning the joint mechanism, the joint mechanism comprises a grid plate and an insert, and the insert is correspondingly arranged below the grid plate. Adopt the utility model discloses, aluminium sediment can be respectively recovery processing aluminium liquid and aluminium sediment ash after refining, need not the aluminium sediment ash of artifical transport high temperature, production efficiency is high, and dust pollution is little.

Description

Rub grey machine with hands

Technical Field

The utility model relates to an aluminium sediment recovery technical field especially relates to a rub grey machine with hands.

Background

In the manufacturing process of aluminum products, a large amount of aluminum slag containing metallic aluminum and aluminum oxide is produced, so the aluminum slag generally needs to be recycled for the second time to extract recyclable metallic aluminum, and the production cost is reduced.

The high-temperature aluminum slag ash can be left after the existing aluminum slag ash is smelted and extracted, and the aluminum slag ash needs to be transported to the next procedure for treatment by a manual reaction kettle. Consequently when carrying the aluminium slag ash of high temperature and bumping or toppling over, the reation kettle of high temperature can burn or scald the porter, carries reation kettle simultaneously and need expend manpower and production time, influences production efficiency.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a rub grey machine with hands is provided, but aluminium sediment recovery processing aluminium liquid and aluminium sediment ash respectively after refining, the aluminium sediment ash of high temperature need not artifical transport, and production efficiency is high, and dust pollution is little.

In order to solve the technical problem, the utility model provides an ash rubbing machine, which comprises a machine case, an ash rubbing device, a dumping device and an aluminum liquid recovery container, wherein the ash rubbing device, the dumping device and the aluminum liquid recovery container are arranged in the machine case; the ash rubbing device comprises a reaction kettle for containing the aluminum slag and a stirring device for stirring the aluminum slag; a bearing table for placing the reaction kettle and a transfer device for moving the reaction kettle are arranged in the case, and the aluminum liquid recovery container is arranged below the bearing table; the pouring device comprises a joint mechanism for receiving the reaction kettle and a turnover mechanism for turning over the joint mechanism, the joint mechanism comprises a grid plate and an insert for inserting into the bottom of the reaction kettle, and the insert is correspondingly arranged below the grid plate.

As an improvement of the scheme, the bottom of the reaction kettle is provided with a joint plate, and the joint plate is provided with an insertion hole matched with the insertion piece.

As an improvement of the above scheme, sliding grooves are arranged on two sides of the bearing table and extend to two sides of the engagement mechanism.

As an improvement of the above solution, the transfer device includes a transfer plate for carrying the joint plate and a transport chain disposed below the dumping device, and the transfer plate is mounted on the chute;

one end of the conveying chain is connected with the transfer board to drive the transfer board to move along the sliding groove.

As an improvement of the scheme, the case is provided with an ash receiving hopper communicated with the outside;

the grid plate is provided with a dust falling plate which is spliced with the dust receiving hopper, and side plates are arranged on two sides of the dust falling plate.

As an improvement of the scheme, the turnover mechanism comprises a rotating shaft and a first driving device for driving the rotating shaft to rotate, and the insert, the ash pouring plate and the grid plate are connected to the rotating shaft.

As an improvement of the scheme, the stirring device comprises a stirring shaft, a second driving device used for driving the stirring shaft to rotate, a first stirring piece arranged at the bottom of the stirring shaft, a second stirring piece arranged in the middle of the stirring shaft and a third stirring piece arranged at the top of the stirring shaft.

As the improvement of the scheme, the first stirring piece is of an L-shaped structure, the second stirring piece is of a cylindrical structure, the third stirring piece is of an arc-shaped structure, and the third stirring piece is attached to the inner side wall of the reaction kettle.

As an improvement of the scheme, the bottom of the reaction kettle is provided with a liquid leakage hole matched with the stirring shaft, the transfer plate is provided with a communicating hole communicated with the liquid leakage hole, the bearing platform is provided with a liquid outlet hole communicated with the communicating hole, and the aluminum liquid recovery container is correspondingly arranged below the liquid outlet hole.

As an improvement of the scheme, the lower end face of the bearing table is provided with a water spraying hole, a water inlet channel communicated with the water spraying hole and a water inlet used for supplying water are arranged in the bearing table, and the water inlet is communicated with the water inlet channel.

Implement the utility model discloses, following beneficial effect has:

the utility model discloses a rub grey machine with hands, include quick-witted case, locate machine incasement rub grey device with hands and empty device and aluminium liquid recovery container with the hands. So the utility model can stir the aluminum slag and dump the aluminum slag inside the case, and greatly reduce the flying of aluminum ash and other dust particles.

The ash rubbing device comprises a reaction kettle for accommodating the aluminum slag and a stirring device for stirring the aluminum slag; a bearing platform for placing the reaction kettle and a transfer device for moving the reaction kettle are arranged on the case, and the aluminum liquid recovery container is arranged below the bearing platform; the pouring device comprises a joint mechanism for receiving the reaction kettle and an insert for inserting the bottom of the reaction kettle, wherein the joint mechanism is used for overturning the joint mechanism, the joint mechanism comprises a grid plate and an insert, and the insert is correspondingly arranged below the grid plate.

After the reaction of the aluminum slag in the reaction kettle is finished, the aluminum liquid in the reaction kettle directly flows into the aluminum liquid recovery container, then the transfer device transfers the reaction kettle to the joint mechanism, so that the reaction kettle is arranged between the grid plate and the insert, and the turnover mechanism is started to dump the aluminum slag ash in the reaction kettle to a preset treatment device or other collection containers. Therefore, the utility model can recycle the aluminum liquid and the aluminum slag ash respectively after the aluminum slag is refined, and the aluminum slag ash with high temperature can be carried without manpower, thus having high production efficiency.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a schematic view of another angle structure of the present invention;

fig. 3 is a schematic sectional structure diagram of the reaction kettle and the bearing platform of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1 and 2, the ash rubbing machine provided by the present invention comprises a machine case 1, an ash rubbing device and a dumping device arranged in the machine case 1, and an aluminum liquid recovery container 9;

the ash twisting device comprises a reaction kettle 2 for accommodating aluminum slag and a stirring device 5 for stirring the aluminum slag; a bearing platform 11 for placing the reaction kettle 2 and a transfer device for moving the reaction kettle 2 are arranged on the case, and the aluminum liquid recovery container 9 is arranged below the bearing platform 11;

the pouring device comprises a joint mechanism for receiving the reaction kettle 2 and an overturning joint mechanism, the joint mechanism comprises a grid plate 41 and an insert 42 for inserting the bottom of the reaction kettle 2, and the insert 42 is correspondingly arranged below the grid plate 41.

Specifically, the stirring device 5 comprises a stirring shaft 52, a second driving device 51 for driving the stirring shaft 52 to rotate, a lifting device for lifting the stirring shaft 52, a first stirring piece 55 arranged at the bottom of the stirring shaft 52, a second stirring piece 54 arranged in the middle of the stirring shaft 52 and a third stirring piece 53 arranged at the top of the stirring shaft 52. At least 2 first stirring pieces 55, second stirring pieces 54 and third stirring pieces 53 are arranged and symmetrically connected to the stirring shaft 52. The lifting device comprises a bottom plate 6 for carrying the second driving device 51, a lifting chain 61 connected with the bottom plate 6 and a motor 62 for pulling the lifting chain 61. The transfer device comprises a transfer plate 31 and a transport chain 33 arranged below the dumping device.

In order to enable the aluminum slag to be fully and uniformly reacted, the first stirring member 55 is of an L-shaped structure, and the second stirring member 54 is of a cylindrical structure, so that the aluminum slag in the reaction kettle 2 is fully stirred and mixed. Moreover, since the outer wall of the reaction vessel 2 is the place with the fastest heat dissipation and relatively low temperature, in order to prevent part of the aluminum liquid and the unreacted aluminum slag from being bonded and solidified on the inner wall of the reaction vessel 2, the third stirring member 53 is in an arc structure, and the third stirring member 53 is attached to the inner wall of the reaction vessel 2, so as to stir the aluminum slag bonded and solidified on the inner wall of the reaction vessel 2 into the center of the reaction vessel 2 for reaction, thereby improving the recovery rate of the aluminum liquid.

Referring to fig. 3, the bottom of the reaction kettle 2 is provided with a liquid leaking hole 23 matched with the stirring shaft 52, the transfer plate 31 is provided with a communicating hole 34 communicated with the liquid leaking hole 23, the bearing platform 11 is provided with a liquid outlet hole 13 communicated with the communicating hole 34, and the aluminum liquid recovery container is correspondingly arranged below the liquid outlet hole.

When the stirring device 5 is in a stirring state, the lower end of the stirring shaft 52 extends into the liquid leakage hole 23 to block the liquid leakage hole 23. After the aluminum slag is refined, the lifting device lifts the stirring shaft 52, and the refined aluminum liquid sequentially passes through the liquid leakage hole 23, the communicating hole and the liquid outlet hole 13 and falls into the aluminum liquid recovery container 9.

In order to reduce the temperature of the aluminum liquid recovery container 9, so that workers can subsequently convey the aluminum liquid recovery container 9. The lower end surface of the bearing table 11 is provided with a water spraying hole 14, a water inlet channel (not shown in the figure) communicated with the water spraying hole 14 and a water inlet (not shown in the figure) used for supplying water are arranged in the bearing table 11, the water inlet is communicated with the water inlet channel, and a water supply pipe 15 communicated with the water inlet is arranged in the case 1.

It should be noted that after each aluminum slag refining process, the aluminum liquid will be deposited below the aluminum slag ash and flow out from the liquid leakage holes 23. After the aluminum liquid is recovered, the aluminum slag ash remained in the reaction kettle 2 contains a small amount of recyclable aluminum and aluminum oxide. Therefore, the aluminum slag ash is convenient to be processed in the next procedure, and the aluminum slag ash is prevented from being repeatedly carried by manpower.

Sliding grooves 3 are formed in two sides of the bearing table 11, and the sliding grooves 3 extend to two sides of the engagement mechanism.

The moving plate 31 is mounted on the chute 3, and one end of the transportation chain 33 is connected to the moving plate 31, and the other end extends to the joint mechanism. Therefore, the transfer plate 31 can be pulled to the joining mechanism by controlling the revolution of the transport chain 33.

It should be noted that the transfer board 31 is provided with a connecting column 32 for connecting with the transportation chain 33, and the connecting column 32 is inserted into a connection of the transportation chain 33, so that the transfer board 31 moves along with the movement of the transportation chain 33.

The bottom of the reaction kettle 2 is provided with a joint plate 21, the reaction kettle 2 is fixedly connected with the joint plate 21, the joint plate 21 is provided with an insertion opening 22 matched with the insertion piece 42, the insertion piece 42 is preferably an L-shaped insertion strip, the insertion strip is arranged corresponding to the insertion opening 22, and the insertion piece 42 can be inserted into the insertion opening 22 to realize the connection with the reaction kettle 2. Therefore, when the aluminum slag ash in the reaction vessel 2 needs to be dumped after the reaction is finished, the conveying chain 33 can be driven to move the joint plate 21 on the transfer plate 31 to the joint structure, and in the process of moving, the insertion piece 42 is gradually inserted into the insertion opening 22, and finally the reaction vessel 2 moves to between the grid plate 41 and the insertion strip.

The turning mechanism comprises a rotating shaft 4 and a first driving means (not shown in the figures) for driving the rotating shaft in rotation, preferably a first motor. The case 1 is provided with an ash receiving hopper 8 communicated with the outside. The grid plate 41 is provided with an ash pouring plate 43 which is used for being spliced with the ash receiving hopper 8, and two sides of the ash pouring plate 43 are provided with side plates 44. The insert 42, the dust pouring plate 43 and the mesh plate 41 are attached to the rotating shaft 4. Therefore, when the reaction kettle 2 moves between the grid plate 41 and the cutting, the first driving device drives the rotating shaft 4 to rotate, so that the reaction kettle 2 is inclined towards the ash receiving hopper 8.

It should be noted that, after the rotating shaft 4 rotates, the ash pouring plate 43 is spliced with the ash receiving bucket 8, the grid plate 41 is changed from the horizontal arrangement state to the vertical arrangement state, and the aluminum slag ash in the reaction kettle 2 is screened by the grid plate 41 and finally poured into the ash receiving bucket 8. And the reaction kettle 2 is arranged between the grid plate 41 and the insert 52, so that the reaction kettle 2 is prevented from being thrown out in the overturning process.

Furthermore, the case 1 is provided with an ash inlet pipe 13 corresponding to the reaction kettle 2, and aluminum slag to be refined can be directly poured into the reaction kettle 2 through the ash inlet pipe 13. The repeated manual removal of the reaction vessel 2 for adding the aluminum dross into the reaction vessel 2 is avoided. The production efficiency is improved, and meanwhile, the risk of accidents of workers can be reduced.

The foregoing is a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations are also considered as the protection scope of the present invention.

Claims (10)

1. The ash rubbing machine is characterized by comprising a case, an ash rubbing device, a dumping device and an aluminum liquid recovery container, wherein the ash rubbing device, the dumping device and the aluminum liquid recovery container are arranged in the case;

the ash rubbing device comprises a reaction kettle for containing the aluminum slag and a stirring device for stirring the aluminum slag; a bearing table for placing the reaction kettle and a transfer device for moving the reaction kettle are arranged in the case, and the aluminum liquid recovery container is arranged below the bearing table;

the pouring device comprises a joint mechanism for receiving the reaction kettle and a turnover mechanism for turning over the joint mechanism, the joint mechanism comprises a grid plate and an insert for inserting into the bottom of the reaction kettle, and the insert is correspondingly arranged below the grid plate.

2. The ash rubbing machine according to claim 1, wherein the bottom of the reaction kettle is provided with a joint plate, and the joint plate is provided with an insertion opening adapted to the insertion member.

3. The dust rubbing machine according to claim 2, wherein the carrying platform is provided with sliding grooves on both sides thereof, the sliding grooves extending to both sides of the engaging mechanism.

4. The ash rubbing machine according to claim 3, wherein the transfer device includes a transfer plate for carrying the engaging plate and a transport chain provided below the dumping device, the transfer plate being mounted on the chute;

one end of the conveying chain is connected with the transfer board to drive the transfer board to move along the sliding groove.

5. The dust rubbing machine according to claim 1, wherein the casing is provided with a dust receiving hopper communicated with the outside;

the grid plate is provided with a dust falling plate which is spliced with the dust receiving hopper, and side plates are arranged on two sides of the dust falling plate.

6. The dust rubbing machine according to claim 5, wherein the turning mechanism includes a rotating shaft and a first driving device for driving the rotating shaft to rotate, and the insert, the dust pouring plate and the mesh plate are connected to the rotating shaft.

7. The ash rubbing machine according to claim 4, wherein the stirring device includes a stirring shaft, a second driving device for driving the stirring shaft to rotate, a first stirring member disposed at a bottom of the stirring shaft, a second stirring member disposed at a middle portion of the stirring shaft, and a third stirring member disposed at a top of the stirring shaft.

8. The ash rubbing machine according to claim 7, wherein the first stirring member has an L-shaped configuration, the second stirring member has a cylindrical configuration, and the third stirring member has an arc-shaped configuration, and the third stirring member is attached to the inner wall of the reaction vessel.

9. The ash rubbing machine according to claim 7, wherein the bottom of the reaction kettle is provided with a weeping hole adapted to the stirring shaft, the transfer plate is provided with a communicating hole communicating with the weeping hole, the bearing platform is provided with a liquid outlet hole communicating with the communicating hole, and the aluminum liquid recovery container is correspondingly arranged below the liquid outlet hole.

10. The dust scrubber according to claim 1, wherein a water spraying hole is formed on a lower end surface of the carrier, a water inlet channel communicated with the water spraying hole and a water inlet for supplying water are formed inside the carrier, and the water inlet is communicated with the water inlet channel.

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