KR102001465B1 - Automatic melting device of activated carbon - Google Patents

Abstract

The present invention relates to an automatic dissolving apparatus of activated carbon, which facilitates the expansion of dissolution capacity while improving dissolving efficiency by conveniently supplying powdered activated carbon and automatically putting the supplied powdered activated carbon to a dissolving tank. To achieve the above purpose, the automatic dissolving apparatus comprises: a main body member (100); a storage member (200) which is coupled to the main body member (100) by using a storage tank (210) and supplies powdered activated carbon to the inside of the storage tank (210); a dissolving member (300) which is independently arranged as a dissolving tank (310) is positioned near the storage member (200), and dissolves the powdered activated carbon of the storage tank (210) by using the dissolving tank (310); and a transfer member (400) which connects and couples a part between the storage member (200) and the dissolving member (300) and continuously supplies powdered activated carbon to the dissolving member (300) through an action of transferring the inner powdered activated carbon of the storage tank (210) to the dissolving tank (310).

Description

Automatic melting device of activated carbon

The present invention relates to an activated carbon automatic dissolving device that facilitates expansion of dissolution capacity while automatically dispensing powder activated carbon and automatically supplying powdered activated carbon to a dissolution tank.

In general, activated carbon is strongly adsorptive, and most of the components are carbonaceous materials, and are mainly used for purifying tap water, removing odor components, or precipitating suspended solids in water purification plants.

These activated carbons are provided in powder form so that they can be dissolved and used in water, and the activated carbons in powder form are dissolved in various structures so that the adhesiveness increases when they come into contact with water, so that the activated carbons are easily dissolved without being aggregated together. Are being developed.

For example, referring to Korean Patent Laid-Open Publication No. 10-2015-0030857, a hopper for storing activated carbon, slaked lime or sodium carbonate in a powder state; A screw feeder for supplying a quantity of activated carbon, slaked lime or sodium carbonate from the hopper; A mixer for supplying the activated carbon, slaked lime or sodium carbonate and pre-mixing water while turning water; A dissolution tank for discharging after stirring with the stored water while receiving activated carbon, slaked lime or sodium carbonate supplied from the mixer; And dust collecting means for collecting powdered activated carbon, hydrated lime or sodium carbonate in the hopper and supplying the collected activated carbon, hydrated lime or sodium carbonate to a hopper.

However, in the related art, since the capacity of the dissolution tank for stirring the activated carbon and the tank where the activated activated carbon is stored is not large or small, the expandability of the dissolution device is remarkably decreased, and the capacity of the vertically positioned tank and dissolution tank is reduced. Increasing greatly increases the installation height of the melting apparatus has had a limited installation place.

In addition, conventionally, activated carbon is supplied in a bag called a ton bag, and a ton bag is opened by a worker by manually tearing open the bottom part of the ton bag in order to put activated carbon contained in the ton into a storage tank. There was another problem that the supply time of the activated carbon using the long, the supply operation of the tone bag is very cumbersome.

Korean Patent Publication No. 10-2015-0030857 has been presented.

SUMMARY OF THE INVENTION The present invention is to solve the conventional problems, and to improve the expandability of the dissolution device by making it possible to adjust the supply amount of the powdered activated carbon and the dissolution capacity of the activated carbon to be large or small, and the purpose of the installation location of the dissolution device is not limited. have.

In addition, the present invention is to reduce the supply time of the activated carbon using the tone bag, and to simplify the operation of supplying the tone bag so that the operator does not perform the operation of tearing the bottom of the tone bag while opening the activated carbon contained in the tone bag automatically There is another purpose.

The present invention to solve this object;

A body member;

A storage member coupled to the main body member using a storage tank and having powder activated carbon supplied and stored into the storage tank;

A dissolution tank is provided on an adjacent side of the input member and is independently provided; a dissolution member for dissolving powder activated carbon of a storage tank using the dissolution tank;

Activated carbon automatic melting, characterized in that it is coupled between the input member and the dissolution member, comprising a transfer member for continuously supplying powder activated carbon to the dissolution member through the action of transferring the inner powder activated carbon of the input tank to the dissolution tank side Provide the device.

According to the present invention, by separately dissolving and dissolving the powder activated carbon dissolution tank, the powder activated carbon can be supplied to the dissolution tank immediately when the powder activated carbon is added without a storage tank to replace the independently installed dissolution tank and to change the supply amount of activated carbon. It is possible to expand the dissolution device according to the adjustment of the dissolution capacity, there is an effect that there is no restriction on the installation location of the dissolution device.

In addition, the activated carbon is configured to open the tonnage of the ton bag automatically from the input side, the operator does not tear the ton bag directly, so that the supply time of the activated carbon using the ton bag is reduced, and the supply operation of the ton bag is very There is another effect of simplicity.

1 to 2 is a schematic view of the activated carbon automatic dissolving device according to a first embodiment of the present invention.
3 is a block diagram of an automatic activated carbon dissolving device according to a second embodiment of the present invention.

With reference to the accompanying drawings, the activated carbon automatic dissolution device according to the present invention will be understood by the embodiments described in detail below.

Meanwhile, in describing the embodiments, detailed descriptions of components that are widely known and used in the technical field to which the present invention belongs or do not belong will be omitted, which omit unnecessary descriptions, and accordingly the present invention. To convey the gist more clearly.

Hereinafter, as an embodiment of the basic configuration of the present invention, the configuration of each part of the activated carbon automatic dissolving device according to the first embodiment will be described in detail with reference to FIGS. 1 is a front view of a dissolving apparatus, and FIG. 2 is a view of an input unit of the dissolving apparatus.

Looking at the activated carbon automatic dissolution device 1 according to this, the body member 100; A storage member 200 in which powdered activated carbon is stored; A dissolution member 300 for dissolving the powdered activated carbon supplied in a state of being independently installed adjacent to the storage member 200 side; Conveying member 400 for continuously supplying the powdered activated carbon to the dissolution member (300).

By providing the activated carbon automatic dissolving device 1 having the above-described configuration, the dissolving member 300 for dissolving the powdered activated carbon is separately separated and installed on an adjacent side of the storage member 200, and is provided on the conveying member 400. As the powdered activated carbon of the storage member 200 is immediately supplied to the dissolution member 300 when the powder is activated, the dissolution member 300 installed independently can be replaced, and the supply amount of activated carbon is stored in the storage member 200 and the transfer member. (400) can be varied, the expandability of the dissolving device 1 according to the adjustment of the dissolution capacity is good, there is no restriction on the installation place of the dissolving device (1).

Looking at the configuration of each part of the activated carbon automatic dissolution device (1) having such a function in detail as follows.

First, the body member 100;

It is to perform a supporting function for the installation of the dissolution device 1 while providing a coupling space of the storage member 200 and the dissolution member 300.

For example, the body member 100; The storage member 200 is coupled to the upper side further comprises a first support 110 is supported.

The first support part 110 is manufactured by assembling a plurality of steel beams in a rectangular frame shape, and a space for accommodating and supporting the storage tank 210 of the storage member 200 into the first support part 110.

In addition, the body member 100; The second support part 120 which provides one side of the transfer member 400 connected to the dissolution member 300 to the upper side of the dissolution member 300 while supporting the installation space of the dissolution member 300 under the suspended portion. It further includes.

The second support portion 120 is made of a steel beam perpendicular to the position where the dissolution member 300 is installed to the side adjacent to the first support portion 110, the height of the second support portion 120 of the dissolution member 300 It corresponds to the position where one end of the transfer member 400 is suspended in correspondence with the height.

Here, the second support portion 120 to support the conveying member 400, and to change the support side position of the conveying member 400 up and down to adjust the height of the side on which the conveying member 400 is supported. It further includes a support plate 121.

The support plate 121 is manufactured by bending the upper end of the second support unit 120 at a right angle to the support plate 121. The support plate 121 is a side in which the plurality of support holes 121a are vertically disposed at equal intervals vertically. It is formed as a hole, and supports one end of the transfer member 400 by bolting to the support hole (121a).

At this time, as one end of the transfer member 400 is coupled to any one of the plurality of vertically spaced support holes 121a, the suspension height of the transfer member 400 is determined, thereby transferring the member 400. The height of the supported side of the) is arbitrarily adjusted.

For example, as the support plate 121 is further added, an installation space for a plurality of dissolution members 300 having different heights according to dissolution capacities may be appropriately provided, and dissolution members (according to expansion and reduction of dissolution capacity) may be provided. The convenience of the replacement operation 300 will be provided.

And, the storage member 200;

It is coupled to the body member 100 using the reservoir 210, and the powder activated carbon is supplied to the inside of the reservoir 210 to be stored.

For example, the storage member 200; It is provided to have a space inside the upper end of the body member 100, and further comprises a storage tank 210 for storing the powdered activated carbon using the space.

The reservoir 210 is manufactured in the form of a housing having a space therein, and a funnel form in which the reservoir 210 has a downward inclination in order to concentrate the powder activated carbon stored and supplied into the reservoir 210 into the transport member 400. The center of the upper end and the lower end of the storage tank 210 is formed so that the powder activated carbon can pass through each.

The storage tank 210 is preferably sealed in the interior space of the storage tank 210 to prevent the particles of the powdered activated carbon outflow.

At this time, before the side connected to the transport member 400 to the lower end of the reservoir 210, a valve 211 is provided to prevent the ejection of powdered activated carbon during the decomposition work for the problem of inflow into the transport member 400 or maintenance. do.

In addition, the storage member 200; The toner bag 10 for supplying the powdered activated carbon is coupled to the upper end of the storage tank 210. The bottom part of the toner bag 10 is torn open using a blade 223b to open the powder activated carbon inside the toner bag 10. It further comprises an input unit 220 to be supplied to the interior of the reservoir 210.

Here, the input unit 220, the third support portion 221 is coupled to the upper end of the reservoir 210 to provide a space for mounting the tone bag 10;

The powder activated carbon of the tone bag 10 connected to the inner space of the storage tank 210 and mounted on the third support part 221 in a state of being provided in a funnel form having a downward slope to the inside of the third support part 221. An input hopper 222 which guides and supplies the internal space of the storage tank 210;

It is coupled to having a blade 223b in the inner lower side of the input hopper 222, and further comprises a tip portion 223 for tearing open the bottom of the tone bag 10 using the blade 223b.

The third support part 221 is provided in which a plurality of metal beams are assembled in a rectangular frame at an upper end of the storage member 200, and the tone bag 10 is inserted and supported inside the third support part 221. Let's do it.

The input hopper 222 has a space therein and is coupled to the inside of the third support part 221 in a state of being manufactured in the form of a funnel enclosure having an upper end opened, and a lower end of the input hopper 222 is a storage tank 210. Connected to the center of the upper end of the reservoir 210 to communicate with the inner space of the) guides the powder activated carbon supplied into the input hopper 222 to be introduced into the reservoir 210.

For example, as the input part 220 is further added, the ton bag 10 is stably mounted and supported while the bottom portion of the mounted tone bag 10 is torn open in the mounting process using the tip portion 223. Since the operator does not need to open the torn bag 10 by hand, the supply time of the activated carbon using the ton bag 10 is reduced, and the supply work of the ton bag 10 becomes very simple.

Here, the tip portion 223 is coupled to be arranged in the inner lower portion of the input hopper 222 is provided with an inlet groove 223c through which activated carbon passes therein, the cross-cross arrangement is made of a triangular pyramid tone back A knife plate 223a spreading the torn bottom of 10;

It further includes a blade 223b having a tip at the top of the knife plate 223a and coupled to tear the bottom of the tone bag 10.

The knife plate 223a is formed in a triangular pyramid shape while the triangular plate material is overlapped with the cross, and the lower end of the knife plate 223a is fixedly coupled to the inner lower end of the input hopper 222.

At this time, the inlet groove 223c is formed as a groove penetrated into the lower end of the knife plate 223a so that the powder activated carbon passes through the inside of the knife plate 223a to be introduced into the storage tank 210.

The blade 223b is coupled to a triangular plate material having a tip at the top of the blade plate 223a arranged in a cross, and when the tone bag 10 is mounted on the third support part 221, the tone bag 10 itself. While being pressed by the blade 223b by the weight, the bottom of the tone bag 10 is naturally torn by the tip.

Characteristically, when the bottom portion of the tone bag 10 is torn by the blade 223b, the tone bag 10 comes down along the cross shape of the knife plate 223a by its own weight, and thus the torn portion of the tone bag 10 is cut off. It will gradually open up to a larger opening.

In addition, the storage member 200; It is possible to suck the particles of powdered activated carbon scattered while being supplied into the storage tank 210. The dust collecting unit 225 which collects the particles of the powdered activated carbon to be sucked and resupply the collected powdered activated carbon into the storage tank 210. More).

Here, the dust collecting unit 225, the first blower (225a) is connected to one side of the upper end of the reservoir 210, and sucks the internal air of the reservoir 210;

It is connected between the first blower (225a) and the reservoir 210, the activated carbon particles in the form of powder floating in the reservoir 210 by the suction force through the first blower (225a), while the suction side surface A filter 225b for sticking and collecting dust;

It is provided above the filter 225b, and further includes a pulse generator 225c for generating a pulse to drop the activated carbon particles collected in the filter 225b into the storage tank 210.

The first blower 225a is connected to the suction side through the filter 225b, and the discharge side of the first blower 225a filters the powder through the filter 225b and discharges only the sucked air to the outdoors.

The filter 225b is provided to be connected to the inside of the upper end of the reservoir 210 in a state of being connected to the suction side of the first blower 225a, and the surface of the filter 225b is easily activated by powdered activated carbon. Use filter cloth that has been specially processed to separate.

The pulse generator 225c continuously discharges the air pressure toward the filter 225b and continuously generates a pulse that is a wave due to the air pressure to drop the powdered activated carbon particles on the surface of the filter 225b.

And, the dissolution member 300 is;

The dissolution tank 310 is positioned on the adjacent side of the storage member 200 and is provided independently, for dissolving the powdered activated carbon of the storage tank 210 using the dissolution tank 310.

For example, the dissolution member 300; It further includes a dissolution tank 310 to perform a dissolution by stirring with the stored water while being supplied with powdered activated carbon through the transfer member (400).

The dissolution tank 310 is manufactured in the form of a housing having a space therein, is provided below the second support portion 120 side of the body member 100 to the adjacent side of the storage member 200, When the powdered activated carbon is transferred through the transfer member 400, the powdered activated carbon passed through the mixing unit 320 to be described later is supplied.

In this case, the dissolution tank 310 may supply water to store water therein, and may discharge the water stored therein or activated carbon that has been dissolved to the outside of the dissolution tank 310, and the Agitating means for mixing and dissolving the powdered activated carbon and water supplied therein may be provided, and a water level detecting means for detecting an internal storage amount of the dissolution tank 310.

In addition, the melting member 300; Before the powder activated carbon is supplied to the dissolution tank 310, the mixing unit 320 further includes a mixing unit 320 for mixing the powder activated carbon with water to be pre-mixed.

The mixing unit 320 may include a tank 321 through which powder activated carbon, which is transferred through the transfer member 400, is supplied through a supply port 321a;

A guide tube 322 provided connected to the dissolution tank 310 at the lower end of the tank 321 to allow the powder activated carbon pre-mixed with water to flow into the dissolution tank 310;

One end has a first water supply port 323a connected to the lower side of the tank 321, and the other end is provided with a second water supply port 323b connected to the side of the guide tube 322. The water supply port 323a allows the water to be supplied while turning into the tank 321, and the second water supply port 323b further includes a water supply pipe 323 allowing the powder activated carbon to flow into the dissolution tank 310.

In particular, the mixing unit 320 is pre-mixed by the water discharged while the powder activated carbon flowing into the tank 321 is rotated inside the tank 321 through the first water supply port 323a of the water supply pipe 323 While being introduced into the guide tube 322 through the second water supply port 323b, the powdered activated carbon pre-mixed to the dissolution tank 310 is supplied.

Here, the dissolution member 300; It is connected to the supply side of the transfer member 400 using the joint 330, the joint 330 is detachable to the connection side of the transfer member 400, through the removable structure of the joint 330 The dissolution member 300 may be replaced according to a change in the capacity of the dissolution tank 310.

The joint portion 330 is made of a pipe for connecting between the dissolution member 300 and the transfer member 400, one end of the joint portion 330 is the transfer member 400 to the second support portion 120 It is connected to the lower end connected to the pipe joint, the other end of the joint 330 is connected to the mixing section 320 of the dissolution member 300 by a pipe joint.

In this case, when the capacity change of the dissolution tank 310 is required, in order to replace the dissolution member 300 as a whole, the pipe connection between the joint 330 and the mixing portion 320 is released to easily replace the dissolution member 300. To be.

And, the transfer member 400 is;

It is coupled by connecting between the storage member 200 and the dissolution member 300, the powder activated carbon continuous to the dissolution member 300 through the action of transferring the inner powder activated carbon of the reservoir 210 to the dissolution tank 310 side It is to supply.

For example, the transfer member 400; It is further provided to connect between the storage member 200 and the dissolution member 300, and further comprises a transport pipe 410 for transferring the powder activated carbon supplied from the reservoir 210 to the dissolution member 300 side.

The transfer pipe 410 is made of a hollow tube made of a material having the characteristics of the flexible, one end of the transfer pipe 410 is connected to the lower end of the reservoir 210, the other end of the transfer pipe 410 is dissolved It is provided connected to the joint 330 of the member 300.

Since the conveying pipe 410 has a flexible property, the height connected to the second support part 120 side can be arbitrarily changed using the support plate 121.

At this time, the transfer pipe 410 to the side connected to the second support portion 120 to transfer the powder activated carbon supplied from the reservoir 210 to the dissolution member 300 in the interior of the transfer pipe 410 by the transfer action by the screw rotation. Reducer motor 420 is provided to provide power for.

On the other hand, the transfer member 400 is applied to the flexible conveyor as a basic, it is preferable that a screw (not shown) is provided to transfer the powder activated carbon into the transfer pipe 410, the screw is the reducer motor 420 It is connected to the helical guiding action by rotating the screw in place by rotating the powder activated carbon is transferred to the dissolution member 300 side along the screw inside the conveying pipe 410.

Hereinafter, as an embodiment of another configuration of the present invention, the configuration of each part of the activated carbon automatic dissolution device according to the second embodiment will be described in detail with reference to FIG. 3 is a front view of an automatic activated carbon dissolving device.

For example, among the dissolution apparatuses having the above-described structure, the main body member is; The lower support of the second support 120 further includes a moving unit 130 capable of moving by using the wheel 131 to move the second support 120 to an arbitrary position.

The moving part 130 is provided such that the plurality of wheels 131 are coupled to the lower end of the second support part 120 so that the second support part 120 itself can be vertically supported, and the transport pipe of the transport member 400. Since the 410 has a flexible property, the second support part 120 may move to an arbitrary position through the rolling of the wheel 131 of the moving part 130.

When the capacity of the dissolution tank 310 is changed, the capacity of the dissolution tank 310 is different within the range of movement of the second support part 120 which is moved through the moving part 130. The second support part 120 is connected to the dissolution member 300 while being moved using the moving part 130 whenever the dissolution capacity of the dissolution tank 310 is changed.

In addition, the moving part 130 further includes selectively moving along the rail 132 provided adjacent to the side on which one or more dissolution members are disposed.

The rail 132 is selectively installed to guide the movement of the moving part 130 to the side where each of the at least one dissolution member 300 is disposed, and a pair of wheels 131 at the upper end of the rail 132. It is possible to move the moving unit 130 while rolling, and when the rail 132 is used, the moving unit 130 is moved more stably.

At this time, the rail 132 is selectively used, and the movement of the moving unit 130 using only the wheel 131 is also possible.

For example, as the moving part 130 is further added, the dissolution rate of the dissolution member 300 is very fast, and one or more dissolution members 300 may be operated by one storage member 200, thereby greatly improving dissolution efficiency. do.

As explained above. While the invention has been shown in the description and drawings illustrating certain preferred embodiments, the invention belongs to the technical field to which the invention pertains without departing from the spirit and scope of the invention as indicated by the appended claims. It will be readily appreciated by those skilled in the art that various changes, modifications, and modifications may be possible.

One; Melter 100; Body member
110; First support 120; Second support
200; Storage member 210; Reservoir
220; Input unit 300; Dissolution member
310; Dissolution bath 320; Mixing section
330; Seam 400; Conveying member
410; Transfer pipe 420; Reducer motor

Claims (4)

Body member 100;
A storage member 200 coupled to the main body member 100 by using a storage tank 210 and having powder activated carbon supplied and stored into the storage tank 210;
Dissolving tank 310 is provided on the adjacent side of the storage member 200 is provided independently, dissolving member 300 for dissolving the powdered activated carbon of the storage tank 210 using the dissolution tank 310;
It is coupled by connecting between the storage member 200 and the dissolution member 300, the powder activated carbon continuous to the dissolution member 300 through the action of transferring the inner powder activated carbon of the reservoir 210 to the dissolution tank 310 side It is configured to include a conveying member 400 to supply,
The dissolution member 300 is connected to the supply side of the transfer member 400 by using a joint 330, the joint 330 is removable on the connection side of the transfer member 400, the joint portion ( Further, the dissolving member 300 is replaced according to the capacity change of the dissolution tank 310 through the detachable structure of 330,
The storage member 200 is coupled to the upper end of the reservoir 210 to be equipped with a tone bag 10 for the supply of powdered activated carbon, the bottom portion of the tone bag 10 torn open using a blade 223b to open (10) further comprises an input unit 220 for supplying the powder activated carbon therein into the storage tank 210,
The main body member 100 suspends one end portion of the transfer member 400 connected to the dissolution member 300 side upward of the dissolution member 300 and supports the installation space of the dissolution member 300 under the suspended portion. Further comprising a second support portion 120 to provide,
The second support part 120 allows the transport member 400 to be supported, and by changing the position of the support side of the transport member 400 up and down to support the height of the side on which the transport member 400 is supported ( 121),
The storage member 200 is provided to suck the particles of powdered activated carbon scattered while being supplied into the storage tank 210, to collect the particles of the powdered activated carbon to be sucked, and to collect the collected powdered activated carbon inside the storage tank 210. It further comprises a dust collecting unit 225 for re-supply,
The body member 100 further includes a moving part 130 provided at a lower end of the second support part 120 to move by using the wheel 131 to move the second support part 120 to an arbitrary position. and,
The moving part 130 is provided adjacent to the side on which at least one dissolution member 300 is disposed, the rail 132 for guiding movement of the moving part 130 to the side at which one or more dissolution member 300 is disposed. ),
The main body member 100 includes a first support part 110 for independently installing the storage member 200 while the storage member 200 is coupled and supported thereon; And
The second support part 120 further includes an independent installation of the dissolution member 300 to the horizontally opposite side of the storage member 200 while being vertically provided at an adjacent side of the first support part 110.
The conveying member 400 is provided by connecting between the storage member 200 and the dissolution member 300 transfer pipe 410 for directly conveying the powder activated carbon supplied from the reservoir 210 to the dissolution member 300 side; And
Transferring the powder activated carbon supplied from the storage tank 210 to the dissolution member 300 side from the inside of the transfer pipe 410 by a screw rotation on the side in which the transfer pipe 410 is connected to the second support 120. Activated carbon automatic dissolving apparatus further comprising; a reduction gear motor 420 for providing power for. delete delete delete

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