CN213001793U - Tower type fly ash chelating device - Google Patents

Abstract

The utility model relates to a flying ash chelation field especially relates to a tower flying ash chelate device, including the tower, be used for carrying out the mixing subassembly that stirs to the flying ash that carries out the chelation reaction, be used for to transmit the flying ash to the first transmission subassembly of high-rise department of tower by low department, be used for depositing the flying ash of ratio container of weighing to the flying ash, be used for depositing the liquid medicine of ratio container of weighing to the chelate solution, be used for transmitting the chelate solution to the second transmission subassembly of mixing subassembly department and be used for communicateing first transmission subassembly, flying ash container of weighing and the third transmission subassembly of mixing subassembly, flying ash container of weighing and liquid medicine container of weighing all set up on the tower, the flying ash container of weighing is located mixing subassembly top in vertical direction, the second transmission subassembly is weighed container and mixing subassembly with the liquid medicine and is connected, the third transmission subassembly and first transmission subassembly, The fly ash weighing container is connected with the mixing component. The application has the effect of reducing manpower consumption.

Description

Tower type fly ash chelating device

Technical Field

The application relates to the field of fly ash chelation treatment, in particular to a tower type fly ash chelation device.

Background

At present, fly ash generated by burning garbage needs to be subjected to chelation reaction before being buried, and the fly ash chelate can be buried after being formed.

The chelation reaction of the fly ash is realized by the mixing reaction of the chelating agent and the fly ash, the prior fly ash chelation reaction is usually carried out in a mixing roll, and the mixing roll is used for stirring the fly ash mixed with the chelating agent so as to realize the chelation reaction. At present, a mixing roll is often arranged on a built tower structure or a building with a multi-storey structure, an operator on the upper layer of the mixing roll firstly mixes fly ash and a chelating reagent, then the fly ash and the chelating reagent which are mixed are conveyed to the mixing roll through a pipeline to be stirred, and the mixing roll is stirred to realize the chelating reaction of the fly ash.

In the related art, the operator needs to transport the fly ash to the platform located above the mixing roll by lot through manpower or a freight elevator, and as the fly ash of one lot completely undergoes the chelating reaction to form the fly ash chelate, the operator needs to move new fly ash to the platform located above the mixing roll again through the manpower or the freight elevator.

SUMMERY OF THE UTILITY MODEL

In order to reduce the manpower and consume, the application provides a tower fly ash chelating device.

The application provides a tower fly ash chelate device adopts following technical scheme:

a tower-type fly ash chelating device comprises a tower platform, a mixing component for stirring fly ash subjected to chelating reaction, a first transmission component for transmitting the fly ash from a lower position to a higher position of the tower platform, a fly ash weighing container for storing and proportioning the fly ash, a liquid medicine weighing container for storing and proportioning chelating solution, a second transmission component for transmitting the chelating solution to the mixing component and a third transmission component for communicating the first transmission component, the fly ash weighing container and the mixing component, the mixing component, the fly ash weighing container and the liquid medicine weighing container are all arranged on the tower platform, the fly ash weighing container is positioned above the mixing component in the vertical direction, the second transmission assembly is connected with the liquid medicine weighing container and the mixing assembly, and the third transmission assembly is connected with the first transmission assembly, the fly ash weighing container and the mixing assembly.

By adopting the technical scheme, the fly ash is transmitted to the high-rise part of the tower platform under the transmission of the first transmission component, then the fly ash falls to the fly ash weighing container under the transmission of the third transmission component for weighing and proportioning, after the weight of the fly ash in the fly ash weighing container reaches the specified weight, the fly ash in the fly ash weighing container is moved to the mixing component under the transmission of the third transmission component and is mixed with the chelating reagent, and the chelating reaction is carried out.

Preferably, first transmission component includes conveyer belt and first link, first link inclines to set up in the vertical direction, first link is connected with the tower, the conveyer belt sets up on first link, the third transmission component setting is aimed at to the one end of conveyer belt towards the tower, the one end that the tower was kept away from to the conveyer belt is located mixing subassembly below in the vertical direction, the one end that the conveyer belt was towards the tower is located the fly ash on the vertical direction and weighs the container top.

Through adopting above-mentioned technical scheme, the first link that the slope set up drives conveyer belt part slope setting, and then adjust the conveyer belt direction of transfer of first link to the slope direction that is close with first link slope direction, the conveyer belt can be continuously with flying dust transmission to third transmission assembly department, the flying dust can move in proper order to the flying dust container of weighing and in the mixing subassembly through third transmission assembly under the action of gravity, the operator only needs to carry out continuous material loading to the flying dust in the one end that the tower was kept away from to the conveyer belt and can realize the material loading to mixing subassembly, need not carry out the bearing ratio through manpower or goods elevator with flying dust in batches on the transport tower, manpower loss has been reduced, and convenient operation.

Preferably, first transmission assembly still includes the second link, the second link is connected with first link and the second link is located one side that the tower was kept away from to first link, the conveyer belt extends the setting on the second link, the conveyer belt is not less than the conveyer belt one end of keeping away from the tower on first link in the one end that the tower was kept away from to the conveyer belt on the second link.

Through adopting above-mentioned technical scheme, the extension that sets up to the conveyer belt of second link provides the setting space, but the conveyer belt level setting that is located on the second link or along the opposite direction slope setting of the slope direction with the first conveyer belt on first link, the fly ash that falls owing to the action of gravity is accepted to the conveyer belt that is located on the first link to the conveyer belt that is located on the second link, avoid the fly ash directly to fall subaerially from the conveyer belt that is located on the first link and cause ground pollution.

Preferably, a first cover shell used for covering the conveyor belt is arranged on the first connecting frame.

Through adopting above-mentioned technical scheme, the setting of first encloser can prevent that the flying dust from blowing off on the conveyer belt on the first link span because of wind-force after the retransmission, avoids the pollution of flying dust to air and ground.

Preferably, the liquid medicine weighing container is located the smelting subassembly top in vertical direction, the second transmission subassembly is including the liquid medicine pipeline that is used for carrying out the transmission to the chelate solution and the liquid medicine ooff valve that is used for blocking the chelate solution transmission, the liquid medicine pipeline and liquid medicine weighing container and mixing subassembly intercommunication, the liquid medicine ooff valve is installed on the liquid medicine pipeline.

By adopting the technical scheme, the liquid medicine switch valve is tightly closed in the initial state, the operator supplements the liquid medicine to the liquid medicine weighing container, when the weight of the chelate solution in the liquid medicine weighing container reaches the standard weight meeting the proportion with the fly ash, the operator stops adding the chelate solution to the liquid medicine weighing container, and the liquid medicine switch valve is opened so that the chelate solution falls into the mixing component to react with the fly ash, so that the operation is convenient.

Preferably, the third transmission assembly comprises a first fly ash pipeline for transmitting fly ash, a second fly ash pipeline and a first fly ash switch valve and a second fly ash switch valve for stopping the transmission of the fly ash, the first fly ash pipeline is communicated with the first transmission assembly and the fly ash weighing container, the second fly ash pipeline is communicated with the fly ash weighing container and the mixing component, the first fly ash switch valve is mounted on the first fly ash pipeline, and the second fly ash switch valve is mounted on the second fly ash pipeline.

By adopting the technical scheme, the third transmission assembly transmits the fly ash to the first fly ash pipeline, the first fly ash switch valve is opened and the second fly ash switch valve is closed under initial bagging, the fly ash is transmitted to the fly ash weighing container for bearing under the action of gravity, when the weight of the fly ash in the fly ash bearing container reaches the specified weight in proportion to the chelating solution, the first fly ash switch valve is closed and the second fly ash switch valve is opened, the fly ash in the fly ash weighing container moves to the smelting assembly for chelating reaction under the action of gravity, and the operation is convenient.

Preferably, an implementation liquid pipeline for transmitting implementation liquid and an industrial water pipeline for transmitting industrial water are connected to the liquid medicine weighing container, the implementation liquid pipeline is connected with the implementation liquid container, the implementation liquid container is located below the smelting assembly in the vertical direction, and an implementation liquid pump for driving the implementation liquid to flow into the liquid medicine weighing container is installed on the implementation liquid pipeline.

By adopting the technical scheme, the implementation liquid is a solute of the chelating solution, the industrial water is a solvent for blending the chelating solution, the implementation liquid container is positioned below the smelting component after the implementation liquid and the solvent are mixed in proportion, the chelating solution for implementing the chelating reaction on the fly ash can be blended, an operator does not need to move the implementation liquid to a high tower layer and then pour the implementation liquid into the implementation liquid container, and the operator can add the implementation liquid conveniently.

Preferably, the industrial water pipeline is connected with an industrial water container, the industrial water container is located below the smelting component in the vertical direction, and an industrial water pump for driving industrial water to flow into the liquid medicine weighing container is mounted on the industrial water pipeline.

By adopting the technical scheme, the industrial water container is positioned below the smelting component, an operator does not need to move the industrial water to a high tower and then pour the industrial water into the industrial water container, and the addition of the industrial water by the operator is facilitated.

Preferably, the second transmission assembly, the third transmission assembly, the fly ash weighing container and the liquid medicine weighing container are all provided with at least two.

By adopting the technical scheme, the second transmission assembly, the third transmission assembly, the fly ash weighing container and the liquid medicine weighing container which are not less than two are respectively arranged to form two sets of supply systems for supplying fly ash and chelating solution to the smelting assembly, a plurality of sets of supply systems can be started simultaneously during daily fly ash chelating processing, the fly ash and the medicament supplied by one set of supply system can be supplied to the smelting assembly every time to realize fly ash chelating reaction, and the other set of supply system can quickly provide new fly ash and medicament after one set of fly ash chelating reaction is finished, thereby avoiding unfinished supplement of the fly ash and chelating solution in one set of supply system after one set of fly ash is chelated, improving the smoothness of fly ash chelating processing and saving processing time; meanwhile, the arrangement of a plurality of sets of supply systems can be used for solving the problem of delayed fly ash chelation processing after one set of supply system fails, and an operator can start the other set of supply system after one set of supply system fails, so that the smoothness of fly ash chelation processing is further improved

In summary, the present application includes at least one of the following beneficial technical effects:

1. due to the arrangement of the first transmission assembly, an operator can directly place the fly ash at a position lower than the mixing assembly and the fly ash weighing container without carrying the fly ash to a tower platform through manpower or tools, so that the manpower consumption is reduced, and meanwhile, the fly ash is conveniently fed;

2. the conveying belt on the second connecting frame carries the fly ash falling off under the action of gravity on the conveying belt on the first connecting frame, so that the fly ash is prevented from directly falling onto the ground from the conveying belt on the first connecting frame to cause ground pollution;

3. the implementation liquid container and the industrial water container are both positioned below the smelting assembly, an operator does not need to move the implementation liquid and the industrial water to a tower high level and then respectively pour the implementation liquid and the industrial water into the implementation liquid container and the industrial water container, and the implementation liquid and the industrial water can be conveniently added by the operator.

Drawings

FIG. 1 is a schematic structural diagram of a tower-type fly ash sequestration plant of the present application.

Fig. 2 is a schematic structural diagram of a tower, a second transmission assembly, a third transmission assembly, a fly ash weighing container, a liquid medicine weighing container and a mixing mill according to the present application.

Description of reference numerals: 1. a tower; 2. a first platform; 3. a second platform; 4. a third platform; 5. a mixing roll; 6. a fly ash weighing container; 7. a liquid medicine weighing container; 8. a first connecting frame; 81. a first housing; 9. a second link frame; 91. a second housing; 10. a conveyor belt; 11. a first fly ash conduit; 111. a first fly ash switch valve; 12. a second fly ash conduit; 121. a second fly ash switch valve; 13. a hopper; 14. implementing a liquid pipeline; 141. implementing a liquid pump; 15. industrial water pipelines; 151. an industrial water pump; 16. a container for the working fluid; 17. an industrial water container; 18. a liquid medicine pipeline; 181. a liquid medicine switch valve.

Detailed Description

The present application is described in further detail below with reference to figures 1-2.

The embodiment of the application discloses a tower type fly ash chelating device. Referring to fig. 1 and 2, the tower type fly ash chelating device comprises a tower platform, wherein the tower platform comprises a tower frame 1, a first platform 2, a second platform 3 and a third platform 4, the tower frame 1 is vertically arranged on the ground, the first platform 2, the second platform 3 and the third platform 4 are arranged on the tower frame 1 at intervals from low to high, the first platform 2, the second platform 3 and the third platform 4 are all fixed with the tower frame 1, an interval exists between the first platform 2 and the ground, and an operator can move among the first platform 2, the second platform 3, the third platform 4 and the ground by lifting an elevator or a ladder.

Referring to fig. 1 and 2, the tower-type fly ash chelating device further includes a mixing component, a fly ash weighing container 6 and a liquid medicine weighing container 7, the mixing component includes a mixing roll 5, the mixing roll 5 is fixedly installed on the first platform 2, the fly ash and the chelating solution are stirred and react in the mixing roll 5, the fly ash chelate generated by the reaction is finally conveyed to a place where the fly ash chelate is bagged through a spiral extrusion device (not shown in the figure), the fly ash weighing container 6 and the liquid medicine weighing container 7 are both fixedly installed on the second platform 3, the fly ash weighing container 6 and the liquid medicine weighing container 7 are both barrel-shaped, pressure sensors (not shown in the figure) for weighing the fly ash and the chelating solution are respectively arranged in the fly ash weighing container 6 and the liquid medicine weighing container 7, the liquid medicine weighing containers 7 are horizontally arranged on the second platform 3 at intervals, the fly ash weighing containers 6 are horizontally arranged on the second platform 3 at intervals, two fly ash weighing containers 6 are arranged at one side of the second platform 3, and two liquid medicine weighing containers 7 are arranged at the other side of the second platform 3.

Referring to fig. 1 and 2, in order to realize the transmission of the fly ash, the tower type fly ash chelating device further includes a first transmission assembly, the first transmission assembly includes a first connection frame 8, a second connection frame 9 and a conveyor belt 10, the first connection frame 8 is disposed at one side of the tower frame 1 and the tower frame 1 is fixed, the first connection frame 8 is disposed obliquely, one section of the first connection frame 8 near the tower frame 1 is located above the third platform 4, the other end is located below the first platform 2 in the vertical direction, the first connection frame 8 is fixed on the ground according to the principle that one end of the tower frame 1 is fixed, the second connection frame 9 is horizontally disposed and fixed on the ground, the bottom end of the second connection frame 9 is integrally connected with the first connection frame 8, the other end extends in the direction far from the tower frame 1, the conveyor belt 10 is disposed on the first connection frame 8 and the second connection frame 9, the transmission direction of the conveyor belt 10 disposed on the first connection frame 8 is the same as the inclination, the horizontal transmission is realized to the flying dust to conveyer belt 10 that sets up on second link 9, and conveyer belt 10 realizes rotating through rotating the live-rollers (not shown in the figure) and the motor (not shown in the figure) that drives the live-rollers pivoted of connecting at first link 8, second link 9, is fixed with the first housing 81 that the cover was established on first link 8 and conveyer belt 10 on the first link 8, is provided with the cover on the second link 9 and establishes the second housing 91 that is close to second link 9 and conveyer belt 10 of first link 8 one side, and conveyer belt 10 is crawler-type conveyer belt in this embodiment.

Referring to fig. 1 and 2, in order to convey the fly ash conveyed by the first conveying assembly to the fly ash weighing container 6 and the mixing roll 5, the tower-type fly ash chelating device further comprises a third conveying assembly, the third conveying assembly comprises a first fly ash pipeline 11, a second fly ash pipeline 12, a first fly ash switch valve 111, a second fly ash switch valve 121 and a hopper 13, the hopper 13 is fixedly arranged on the third platform 4 through a support frame, the top end of the conveyor belt 10 is positioned right above the hopper 13, a first cover 81 horizontally extends to an opening above the blocking hopper 13 at the top end of the first connecting frame 8, the fly ash falls into the hopper 13 under the action of gravity after being conveyed to the top end of the conveyor belt 10, two ends of the first fly ash pipeline 11 are respectively fixed with the bottom end of the hopper 13 and the top of the weighing container 6, the first fly ash pipeline 11 is communicated with the hopper 13 and the fly ash weighing container 6, the first fly ash pipeline 11 vertically penetrates through the third platform 4 and branches below the third platform 4 to form fly ash containers respectively communicated with And the first fly ash switch valve 111 is fixedly arranged on a branch pipeline of the first fly ash pipeline 11 positioned below the first platform 2, one first fly ash switch valve 111 is respectively arranged on two branch pipelines of the first fly ash pipeline 11, one end of the second fly ash pipeline 12 is fixed with the bottom end of the side part of the fly ash weighing container 6, the other end of the second fly ash pipeline is fixed with the top of the mixing roll 5, the second fly ash pipeline 12 is communicated with the fly ash weighing container 6 and the mixing roll 5, the second fly ash pipeline 12 vertically penetrates through the second platform 3, and the second fly ash switch valve 121 is fixed on the second fly ash pipeline 12 and positioned above the second platform 3.

Referring to fig. 1 and 2, in order to prepare the chelating solution, an implement liquid pipeline 14 and an industrial water pipeline 15 are fixed on the side of a chemical weighing container 7, an implement liquid container 16 and an industrial water container 17 are fixed on the ground right below a first platform 2, the implement liquid container 16 and the industrial water container 17 are both cylindrical, the bottom end of the implement liquid pipeline 14 is fixed on the bottom of one side of the implement liquid container 16, the top end of the implement liquid pipeline is fixed on the bottom of one side of the chemical weighing container 7, the bottom end of the industrial water pipeline 15 is fixed on the bottom of one side of the industrial water container 17, the top end of the industrial water pipeline is fixed on the top of one side of the chemical weighing container 7, two ends of the implement liquid pipeline 14 are respectively communicated with the implement liquid container 16 and the chemical weighing container 7, two ends of the industrial water pipeline 15 are respectively communicated with the industrial water container 17 and the chemical weighing container 7, two implement liquid pipelines, each industrial water pipeline 15 is communicated with one liquid medicine weighing container 7, each industrial water pipeline 15 is provided with an industrial water pump 151, the industrial water pump 151 is positioned above the second platform 3, each implementation liquid pipeline 14 is provided with an implementation liquid pump 141, and the implementation liquid pump 141 is positioned above the second platform 3.

Referring to fig. 1 and 2, in order to transfer the chelating solution from the liquid medicine weighing container 7 to the mixing roll 5, the tower type fly ash chelating device further includes a liquid medicine pipe 18 and a liquid medicine switch valve 181, the liquid medicine pipe 18 is fixed with the liquid medicine weighing container 7 and the mixing roll 5, the liquid medicine pipe 18 is communicated with the liquid medicine weighing container 7 and the mixing roll 5, the liquid medicine pipe 18 vertically penetrates the second platform 3, the liquid medicine switch valve 181 is fixed on the liquid medicine pipe 18, and the liquid medicine switch valve 181 is located above the second platform 3.

The implementation principle of the tower type fly ash chelating device in the embodiment of the application is as follows: an operator transports the fly ash to one end of the conveyor belt 10 far away from the tower 1 through a vehicle and pours the fly ash onto the conveyor belt 10, the conveyor belt 10 transports the fly ash to the top end of the conveyor belt 10, the fly ash transported to the top end of the conveyor belt 10 enters the hopper 13 under the action of gravity, only one fly ash weighing container 6 and one liquid medicine weighing container 7 are started at the moment, the first fly ash switch valve 111 of the first fly ash pipeline 11 connected with the fly ash weighing container 6 is opened, the second fly ash switch valve 121 is closed, and the fly ash enters the fly ash weighing container 6 through the hopper 13 and the first fly ash pipeline 11 for weighing and proportioning.

And (3) starting an implementation liquid pump 141 on an implementation liquid pipeline 14 connected with the started liquid medicine weighing container 7 while conveying the fly ash, starting an industrial water pump 151 on an industrial water pipeline 15 connected with the started liquid medicine weighing container 7, enabling the industrial water and the implementation liquid to flow into the started liquid medicine weighing container 7 for adjusting and weighing the chelating solution, and closing the liquid medicine switch valve 181.

When the weight of the fly ash in the fly ash weighing container 6 reaches the specified weight required by the proportioning requirement, the first fly ash switch valve 111 is closed, when the weight of the chelating solution in the liquid medicine weighing container 7 reaches the specified weight of the proportioning requirement, the liquid pump 141 and the industrial water pump 151 are stopped, the proportioning of the fly ash and the chelating solution is completed, the second fly ash switch valve 121 and the liquid medicine switch valve 181 are opened, the fly ash and the chelating solution enter the mixing roll 5 through the second fly ash pipeline 12 and the pharmaceutical industry pipeline respectively under the action of gravity to be mixed, the fly ash generates a chelating reaction, the mixing roll 5 is started to stir the fly ash, the fly ash chelate in the mixing roll 5 is moved to a position for bagging the fly ash chelate under the transmission of the screw extrusion device after the fly ash chelating reaction is completed, and the next fly ash chelating reaction is performed after the fly ash weighing container 6 and the liquid medicine weighing container 7 complete the weighing proportioning of the fly ash and the chelating solution again.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. A tower type fly ash chelating device is characterized in that: the device comprises a tower platform, a mixing component for stirring fly ash subjected to chelation reaction, a first transmission component for transmitting the fly ash to a high-rise part of the tower platform from a low position, a fly ash weighing container (6) for storing and proportioning the fly ash, a liquid medicine weighing container (7) for storing and proportioning chelating solution, a second transmission component for transmitting the chelating solution to the mixing component and a third transmission component for communicating the first transmission component, the fly ash weighing container (6) and the mixing component, wherein the mixing component, the fly ash weighing container (6) and the liquid medicine weighing container (7) are all arranged on the tower platform, the fly ash weighing container (6) is positioned above the mixing component in the vertical direction, the second transmission component is connected with the liquid medicine weighing container (7) and the mixing component, and the third transmission component is connected with the first transmission component, The fly ash weighing container (6) is connected with the mixing component;

the first transmission assembly comprises a conveyor belt (10) and a first connecting frame (8), the first connecting frame (8) is arranged in an inclined mode in the vertical direction, the first connecting frame (8) is connected with the tower, and the conveyor belt (10) is arranged on the first connecting frame (8).

2. The tower type fly ash chelating device of claim 1, wherein: one end of the conveyor belt (10) facing the tower is aligned with the third conveying assembly, one end of the conveyor belt (10) far away from the tower is located below the mixing component in the vertical direction, and one end of the conveyor belt (10) facing the tower is located above the fly ash weighing container (6) in the vertical direction.

3. The tower type fly ash chelating device of claim 2, wherein: first transmission assembly still includes second link (9), second link (9) are connected and second link (9) are located one side that the pylon was kept away from in first link (8) with first link (8), conveyer belt (10) extend and set up on second link (9), conveyer belt (10) are not less than conveyer belt (10) and keep away from the one end of pylon on first link (8) in the one end of keeping away from the pylon on second link (9).

4. The tower type fly ash chelating device of claim 2, wherein: the first connecting frame (8) is provided with a first cover shell (81) used for covering the conveying belt (10).

5. The tower type fly ash chelating device of claim 1, wherein: the liquid medicine weighing container (7) is located the smelting subassembly top in vertical direction, the second transmission subassembly is including being used for carrying out liquid medicine pipeline (18) that transmit and liquid medicine ooff valve (181) that are used for blocking the transmission of chelate solution to chelate solution, liquid medicine pipeline (18) and liquid medicine weighing container (7) and mixing subassembly intercommunication, liquid medicine ooff valve (181) are installed on liquid medicine pipeline (18).

6. The tower type fly ash chelating device of claim 1, wherein: the third transmission assembly comprises a first fly ash pipeline (11) and a second fly ash pipeline (12) which are used for transmitting fly ash, and a first fly ash switch valve (111) and a second fly ash switch valve (121) which are used for stopping the transmission of the fly ash, the first fly ash pipeline (11) is communicated with the first transmission assembly and the fly ash weighing container (6), the second fly ash pipeline (12) is communicated with the fly ash weighing container (6) and the mixing component, the first fly ash switch valve (111) is installed on the first fly ash pipeline (11), and the second fly ash switch valve (121) is installed on the second fly ash pipeline (12).

7. The tower type fly ash chelating device of claim 1, wherein: the liquid medicine weighing container (7) is connected with an implementation liquid pipeline (14) used for conveying implementation liquid and an industrial water pipeline (15) used for conveying industrial water, the implementation liquid pipeline (14) is connected with an implementation liquid container (16), the implementation liquid container (16) is located below the smelting component in the vertical direction, and an implementation liquid pump (141) used for driving the implementation liquid to flow into the liquid medicine weighing container (7) is installed on the implementation liquid pipeline (14).

8. The tower type fly ash chelating device of claim 7, wherein: the industrial water pipeline (15) is connected with an industrial water container (17), the industrial water container (17) is located below the smelting component in the vertical direction, and an industrial water pump (151) used for driving industrial water to flow into the liquid medicine weighing container (7) is installed on the industrial water pipeline (15).

9. The tower fly ash chelating device of any one of claims 1 to 8, wherein: the second transmission component, the third transmission component, the fly ash weighing container (6) and the liquid medicine weighing container (7) are all provided with at least two.

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