KR100916337B1 - Precipitating complex batch-typed injection device of powder chemicals - Google Patents

Abstract

A precipitating complex batch-typed injection device of powder chemicals is provided to put the chemicals to a part efficiently, and to maintain clean environment of a chemical input chamber while preventing secondary contamination due to dust. A precipitating complex batch-typed injection device of powder chemicals includes a dissolving bath, a chemical supply part, a disk conveyor, a dust collecting unit, an inflow pump(122), a metering pump(148) and a transfer educator(152). A mixer and a water level gauge are installed at the dissolving bath having an inflow port(112) and an exhaust port(114). The chemical supply part transfers the powder chemicals by a chemical supply source. The disk conveyor supplies the chemicals to the top of the dissolving bath. The dust collecting unit removes scattering dust generated in the chemicals. The inflow pump supplies a solvent to the inflow port. A feeding pipe(176) is installed at the top of the dissolving bath, and a mixing eductor(116) is installed at a side of the feeding pipe.

Description

Precipitating complex batch-typed injection device of powder chemicals

The present invention relates to a powder chemical injection device, and more particularly, to a wet type batch type chemical injection equipment for dissolving and injecting various powder chemicals such as activated carbon and calcined lime polymer in water purification facilities (low and wastewater treatment plants). (batch type) Equipped with dust collecting device and dissolution transfer device necessary for dissolution injection, it solves the problem that occurs when dissolving and transporting chemical dust and chemicals generated when storing chemicals in dissolution tank, and cleans the chemical input room environment And at the same time, the present invention relates to a dust-collecting batch type powder chemical input device that can be injected more efficiently.

 In the conventional batch dissolving injection device, a large amount of dust is injected into a batch of chemicals, and at the same time, a mass is not dissolved in the agglomerates of the chemicals and a mass is injected into the chemical pipe closing phenomenon.

In addition, a separate dust collector (bag filter) has been installed and operated to remove a large amount of chemical dust, but it is impossible to use due to clogging of the filter cloth. In addition, dust chemicals were blown on the inner wall of the melting tank and solidified, which required periodic cleaning of the melting tank.

Further, if the injection of calcium hydroxide, but drugs that are dissolved in the bulk Jiro miscible injection according to the injection rate at a high concentration (5-10%), calcium hydroxide (Ca (OH) ₂₎ CO (CO in air, such as the nature of the formula (1) drug ₂ ) was a precipitate caused by the generation of calcium carbonate (CaCO ₃ ) that does not dissolve in water was the cause of defects in the pipe and injection equipment.

Ca (OH) ₂ + CO ₂ → CaCO ₃ + H ₂ O

It is an object of the present invention to prevent scattering and clogging of drugs using pressurized water in a treatment plant with a batch type powder chemical injector equipped with a dust collector, and to automatically control injection according to the concentration of a dissolution tank by continuous supply of powdered chemicals. The disc conveyor transfer injection eliminates the need for chute in the melting tank and makes it possible to make the melting tank sealed.This prevents secondary dust contamination and increases the melting efficiency of the melting tank. The improved dissolution water transfer is to provide a dust-collecting batch type powder chemical injection device that can be prevented from being closed by stirring and conveying at the same time using the eductor.

The present invention for achieving the above object is a batch type dissolution tank is installed, the inlet port is formed in the upper portion, the discharge port is formed in the lower portion, the level gauge for measuring the liquid level inside; Drug supply unit for transporting the powdered medicine supplied by the drug supply source; A disk conveyor for supplying a medicine to the dissolution tank from the medicine supply part; A cleaning dust collector connected to the medicine supply unit by a hood to remove scattering dust generated from the medicine; An inlet pump connected to a solvent supply source to supply a solvent to the inlet port; A metering pump connected to the discharge port to discharge a predetermined amount of dissolved water; And a transfer eductor for mixing and transporting the solvent supplied by the transfer pump connected to the solvent supply source to the dissolved water discharged by the metering pump.

The stirrer may include a low stirring motor and an intermediate stirring motor installed on an upper portion of the batch dissolution tank; A stirring shaft connected to the low stir motor; A turbine impeller fixed to the lower end of the stirring shaft; And a hollow stirring shaft disposed inside the batch dissolving tank so as to penetrate, rotating by the median stirring motor, and having a stirring blade formed at a lower end thereof.

In addition, a swirl flow generator is provided at an end portion of the disc conveyor at the side of the batch dissolution tank.

In addition, the swirl flow generator has a conical shape in which the cross-sectional area is narrowed toward the bottom, one end of the swirl flow feeding tube is installed to be biased with respect to the central axis of the swirl flow generator, the other end of the swirl flow feeding tube is the arrangement It is fixed to the side wall of the mold dissolution tank than the one end, characterized in that the swirling flow generating pump is installed in the swirling flow feeding tube.

Further, a stirring feeding tube having both ends is provided at a lower portion of the batch dissolving tank, and a stirring eductor is installed at one end of the stirring feeding tube into the inside of the batch dissolving tank, and the stirring feeding tube is agitated. It is characterized in that the pump is installed.

In addition, a flowmeter is installed between the metering pump and the transfer duct.

In addition, the drug supply unit, continuous injection cradle for receiving powdered medicine from the medicine supply source; A hopper installed at a lower portion of the continuous injection base; And a feeder screw installed at a lower portion of the hopper and rotating by a driving means, and having a feeding cylinder having one end connected to the disc conveyor.

In addition, the lower end of the chemical supply unit is characterized in that the meter is installed.

Through the present invention, the chemical dust and powder during the dissolution transfer of the chemicals generated when the chemicals are stored in the dissolution tank to compensate for the problem can be added more efficiently and at the same time clean the environment of the chemical input room.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described. In adding reference numerals to components of the following drawings, it is determined that the same components have the same reference numerals as much as possible even if displayed on different drawings, and it is determined that they may unnecessarily obscure the subject matter of the present invention. Detailed descriptions of well-known functions and configurations will be omitted.

1 is a schematic diagram of a dust-binding batch batch type powder chemical injection device according to an embodiment of the present invention.

The dust collecting compound batch type chemical injection device is largely, batch type dissolution tank 100 in which the dissolving action of the drug, the chemical supply unit for supplying the powdered drug, and the powder chemicals to the batch dissolution tank 100 from the chemical supply unit It includes a disk conveyor 126 for supplying, and a cleaning dust collector 146 for removing dust generated from the chemical supply unit.

The batch dissolution tank 100 is a tank having a space in which a solvent and a powdered chemical can be dissolved therein. The batch dissolution tank 100 is preferably manufactured in a closed type so that air inflow from the outside is prevented. Therefore, when the powdered drug is hydrated lime, it is possible to minimize the generation of calcium carbonate (CaCO ₃ ).

In addition, the batch type dissolution tank 100 is provided with a water level meter 102, it is possible to measure the liquid level inside, in the present invention, an ultrasonic water level meter was used as shown in FIG.

The batch dissolution tank 100 is provided with a stirrer to actively dissolve the inside.

The stirrer is a stirring shaft 108 that is connected to the low stirring motor 104 is installed on the top of the batch dissolving tank 100, the low stirring stirring motor 104 is rotated inside the batch dissolving tank (100) And a turbine impeller 110 integrally formed at an end of the stirring shaft 108.

In addition, the stirrer is installed in the top of the batch dissolution tank 100 in order to reinforce the dissolving capacity, and rotated in connection with the median stirring motor 103, the stirring shaft 108 Hollow stirring shaft 106 penetrates is installed, the stirring blade 107 is integrally formed at the lower end of the hollow stirring shaft 106.

The hollow stirring shaft 106 is stopped when the liquid level of the batch dissolution tank 100 is at a low liquid level, and the low liquid level is determined by comparing with a preset value.

Accordingly, the stirring blade 107 of the hollow stirring shaft 106 rotates the melted water so that dissolution action can be actively performed, and the turbine impeller 110 continuously rotates at a high speed while the dissolution tank 100 is disposed. Allow the liquid chemical slurry to be deposited at the bottom to rise.

An inlet port 112 through which a solvent is introduced is formed at an upper portion of the batch dissolution tank 100, and a discharge port 114 at which dissolved dissolved water is discharged is formed at a lower portion thereof.

The inlet port 112 is connected to the inlet pipe 172, the inlet pipe 172 is connected to a solvent supply source (not shown).

The inlet pipe 172 is provided with an inlet pump 122 for applying pressure to the solvent for the inlet.

In addition, the discharge port 114 is connected to the metering pump 148 through the discharge pipe 180.

The metering pump 148 controls the amount of dissolved water discharged, and for this purpose, a flow meter 150 is installed at the rear end of the metering pump 148.

The dissolved water passing through the flow meter 150 is introduced into the transfer eductor 152. The transfer eductor 152 is connected to a pressure feed pipe 174 in which a transfer pump 168 is installed to receive a solvent. Therefore, dissolution occurs once again through the transfer ductor 152, and the dissolved water is discharged through the transfer pipe 182.

The pressure pipe 174 is connected to a solvent source (not shown). At this time, the pressure feed pipe 174 and the inlet pipe 172 may be connected to each other, it may be connected to the solvent supply source through one main pipe (170).

In addition, the stirring eductor 116 is installed inside the batch dissolution tank 100.

The stirring eductor 116 is connected to one end of the stirring feeding tube 176, the other end of the stirring feeding tube 176 is connected to the lower wall of the batch dissolution tank 100. In addition, the stirring feed pipe 176 is provided with a stirring pump 118.

The stirring eductor 116 preferably uses a rotary stirring eductor in which dissolved water is ejected while rotating like a sprinkler.

Therefore, while the dissolved water circulates by the stirring eductor 116, it causes disturbances in the lower portion of the batch type dissolution tank 100, thereby preventing stagnation of chemicals. In addition, this may prevent the solids (foreign material) outflow in the batch dissolution tank 100.

The disk conveyor 126 for supplying powdered medicines to the batch type dissolution tank 100 configured as described above and the chemical supply unit will be described.

The medicine supply unit is a continuous injection cradle 142 for receiving the powdered medicine from the chemical supply source, the hopper 130 is installed on the lower portion of the continuous injection cradle 142, and the drive means is installed on the lower portion of the hopper 130 It includes a feeding cylinder 144 in which the feeder screw 132 is rotated by.

As shown in FIG. 2, one end of the feeding cylinder 144 is connected to one end of the disc conveyor 126 so that the powdered chemical that is pushed by the feeder screw 132 is transferred to the disc conveyor 126. Delivered.

The driving means, the driven pulley 136 integrally formed on the feeder screw 132, the drive pulley is connected by the driven pulley 136 and the belt 140 and rotated by the feeding motor 134 ( 138). It is also possible to use other well-known forms, such as chain transmission or gear transmission, as said drive means.

The drug supply source may be considered in various ways, in the embodiment of the present invention used a method of supplying the medicine bag 160, which is loaded with powdered medicine by the hoist 158 moving on the support frame 156 .

The lifting mechanism 160 moving up and down the medicine bag 160 by the hoist 158 and the horizontal movement of the hoist 158 may be operated by the controller 162.

In addition, the drug supply unit is connected to the cleaning dust collector 146, which is a known device, through the hood 128 to remove the scattering dust generated during the dropping process of the powdered medicine. In the embodiment of the present invention, the hood 128 is disposed between the hopper 130 and the continuous injection cradle 142.

The disk conveyor 126 is a known device capable of transporting powder, and the other end of the disk conveyor 126 to which powder medicine is installed is fixed toward the inside of the batch dissolution tank 100.

In addition, a swirl flow generator 120 is installed at the other end of the disk conveyor 126.

The swirl flow generator 120 is a conical nozzle whose cross section becomes narrower toward the bottom, and a spiral protrusion may be formed on the inner wall to help generate swirl flow.

In addition, one end of the swirling flow feeding tube 178 is disposed in the swirling flow generator 120 in the circumferential direction of the swirling flow generator 120 at a position biased from the central axis of the swirling flow generator 120.

The other end of the swirl flow feeding tube 178 is fixed to the wall of the batch dissolution tank 100 below one end of the swirl flow feeding tube. In addition, the swirl flow feeding pipe 178 is provided with a swirl flow generation pump 124 for feeding the dissolved water.

Therefore, when the melted water is supplied to the swirl flow generator 120 by the swirl flow feeding tube 178, the melt flows down along the swirl flow generator 120, so that swirl flow is generated.

In addition, the water gauge 102, the low stirring motor 103, the intermediate stirring motor 104, the stirring pump 118, the inflow pump 122, the swirl flow generating pump 124, the disk conveyor 126, the feeder motor 134, the cleaning dust collector 146, the metering pump 148, the flow meter 150, the controller 162, the meter 166, the transfer pump 168 ) May be electrically connected and controlled by the control panel 154.

Dust-collecting batch batch type powder chemical injection device according to an embodiment of the present invention is basically configured as described above. Hereinafter, the operation of the present invention will be described.

First, a solvent supplied from a solvent supply source (not shown) is pumped by the inflow pump 122 and supplied into the batch dissolution tank 100 through the inflow port 112.

The liquid level in the batch dissolution tank 100 may be measured by measuring the water level 102, by turning on or off the operation of the inflow pump 122 by the control panel 154.

And, according to the liquid level, the low stirring motor 104 and the intermediate stirring motor 103 is operated, the turbine impeller 110 and the stirring blade 107 is rotated. That is, only the turbine impeller 110 is rotated up to a predetermined level, and the stirring blade 107 is rotated when the turbine impeller 110 is exceeded.

Then, the powdered medicine is supplied to the continuous injection cradle 142 by the chemical supply source. The amount of medicine supplied by the medicine supply source is measured by the meter 166, and the control panel 154 controls the supply amount of the medicine supply source through the data measured by the meter 166.

At this time, the generated dust is sucked and removed by the hood 128 is installed in the chemical supply unit the cleaning dust collector 146.

In addition, the chemicals transferred by the chemical supply part are introduced into the batch dissolution tank 100 through the disk conveyor 126.

At this time, since the powdered medicine is supplied in the state where the swirling flow is formed by the swirling flow generator 120 installed at the other end of the disk conveyor 126, the powdered chemical is primarily dissolved.

In addition, the first dissolved powder chemical is made secondary by the stirring blade 107 and the turbine impeller 110 inside the batch dissolution tank 100.

In addition, the stirring eductor 116 prevents the settling of the powdered drug in the batch dissolution tank 100.

The dissolved water dissolved in this way is discharged through the discharge pipe 180 through the discharge port 114. In this case, it is discharged by a predetermined flow rate by the metering pump 148, the amount of the discharge discharged is measured by the flow meter 150. Therefore, the control panel 154 feedback-controls the metering pump 148 by using the data measured by the flow meter 150.

In addition, the dissolved water discharged by the metering pump 148 is supplied to the transfer eductor 152, and dissolved in the tertiary by a solvent supplied through the pressure feeding pipe 174 to the transfer eductor 152. While being discharged through the transfer pipe 182.

As described above, it has been described with reference to the preferred embodiment of the present invention, but those skilled in the art various modifications and changes of the present invention without departing from the spirit and scope of the present invention described in the claims below I can understand that you can.

1 is a schematic diagram of a dust-binding batch batch type powder chemical injection device according to an embodiment of the present invention.

Figure 2 is a plan view of the powder chemical delivery device of the dust-binding batch batch type powder chemical injection device of FIG.

FIG. 3 is a schematic plan view of a swirl flow generator of the dust-collecting batch batch powder chemical input device of FIG. 1.

<Description of the symbols for the main parts of the drawings>

100: batch dissolution tank 102: water gauge

103: low stir motor 104: middle stir motor

106: hollow stirring shaft 107: stirring blade

108: stirring shaft 110: turbine impeller

112: inlet port 114: outlet port

116: stirring eductor 118: stirring pump

120: swirl flow generator 122: inlet pump

124: swirl flow generating pump 126: disk conveyor

128: hood 130: hopper

132: feeder screw 134: feeder motor

136: driven pulley 138: driving pulley

140: belt 142: continuous injection cradle

144: feeding cylinder 146: cleaning dust collector

148: metering pump 150: flow meter

152: transfer duct 154: control panel

156: support frame 158: hoist

160: lifting mechanism 162: controller

164: Medicine Bag 166: Meter

168: transfer pump 170: main pipe

172: inlet pipe 174: pressure feed pipe

176: stirring feeding tube 178: swirling feeding tube

180: discharge pipe 182: transfer pipe

Claims (7)

A batch type dissolution tank having a stirrer installed, an inflow port formed at an upper portion thereof, a discharge port formed at a lower portion thereof, and a water level meter configured to measure an internal liquid level; Drug supply unit for transporting the powdered medicine supplied by the drug supply source; A disk conveyor for supplying a medicine to the dissolution tank from the medicine supply part; A cleaning dust collector connected to the medicine supply unit by a hood to remove scattering dust generated from the medicine; An inlet pump connected to a solvent supply source to supply a solvent to the inlet port; A metering pump connected to the discharge port to discharge a predetermined amount of dissolved water; And And a transfer duct for mixing and dissolving the solvent supplied by the transfer pump connected to the solvent supply source with the dissolved water discharged by the metering pump. The lower part of the batch dissolution tank is provided with a stirring feeding tube is installed at both ends, At one end of the agitating feeding tube, a stirring eductor is installed into the batch dissolution tank, and the agitating feeding tube is equipped with a dust collecting batch type chemical powder injector, characterized in that a stirring pump is installed. According to claim 1, The stirrer, A low stirring motor and an intermediate stirring motor installed on an upper portion of the batch dissolution tank; A stirring shaft connected to the low stir motor; A turbine impeller fixed to the lower end of the stirring shaft; And The dust collecting compound powder injection device characterized in that it comprises a hollow stirring shaft which is arranged to penetrate the stirring shaft inside the batch dissolving tank, rotated by the median stirring motor, the stirring blade is formed at the lower end. 2. The swirl flow generator according to claim 1, wherein an end of the disk conveyor is disposed at an end of the batch dissolution tank side. The swirl flow generator has a conical shape that narrows in cross-sectional area toward the bottom, one end of the swirl flow feeding tube is installed to be biased with respect to the central axis of the swirl flow generator, the other end of the swirl flow feeding tube is the batch dissolution tank It is fixed to the side wall of the lower than the one end, the dust collection compound batch type powder chemical injection device, characterized in that the swirl flow generating pump is installed in the swirl flow feeding tube. delete The method of claim 1, wherein the dust collection compound powder injection device characterized in that the flow meter is installed between the metering pump and the transfer duct. According to claim 1, wherein the drug supply unit, A continuous injection cradle for receiving powdered medicine from the medicine supply source; A hopper installed at a lower portion of the continuous injection base; And Dust collecting compound batch type powder chemical injection device, characterized in that the feeder screw is installed on the lower portion of the hopper and is rotated by a driving means, one end portion is connected to the disk conveyor. The dust collecting compound batch type chemical injection device according to claim 1, wherein a meter is installed at the lower end of the chemical supply unit.

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