KR102376417B1 - Device for converying powder type flocculant and ejector therefor - Google Patents

Abstract

According to the present invention, disclosed is a powder type coagulant transfer apparatus which is connected with a lower part of a hopper containing the powder type coagulant, and transfers the coagulant from the hopper to a mixing tank. The powder type coagulant transfer apparatus comprises: a hose which is connected with the lower part of the hopper and is transferred with the coagulant filled therein; an ejector coupled with an end of the hose, wherein a plurality of penetration holes that are inclined downwards from the outside to the inside are formed so that the coagulant is sucked and transferred from the hopper through the hose, a water supply port is formed on a lateral surface thereof so that the coagulant and water are mixed and sprayed, and a nozzle is coupled with a front surface thereof; an air compressor connected with the plurality of penetration holes to supply air of high pressure; and a water supply pipe connected with the water supply port to supply water. According to the present invention, the hose and the ejector are used to transfer the powder type coagulant to conveniently transfer the coagulant to the mixing tank.

Description

Powder type coagulant transfer device and ejector for transfer

The present invention relates to a powder-type coagulant conveying device and an ejector for transport, and more particularly, to a flocculant conveying device connected to a lower portion of a hopper containing a powder-type flocculant to transport a coagulant from the hopper to a tank, wherein the lower portion of the hopper a hose connected to which the coagulant is filled and transported; A plurality of through holes coupled to the end of the hose and inclined downward from the outside to the inside are formed so that the coagulant is sucked and transported from the hopper through the hose, and a water supply port is formed on the side so that the coagulant and water are mixed and sprayed an ejector to which the nozzle is coupled; an air compressor connected to supply high-pressure air to the plurality of through-holes; It relates to a powder-type coagulant conveying device comprising a; and an ejector used therein; a water supply pipe connected to supply water to the water supply port.

A flocculant is used to agglomerate and separate particles present in water, and is used in various fields such as water treatment industry, papermaking, food, and chemical.

The coagulant is divided into a powder type and an emulsion type according to its shape, and the present invention is a device for transferring the powder type flocculant from a hopper containing the flocculant to another place such as a water treatment device.

1 shows a conventional powder-type coagulant conveying device and the like.

1, the conventional coagulant is contained in the hopper 10, and the screw feeder 11 is connected to the lower part of the hopper to transport the coagulant.

The screw feeder 11 has a conveying screw embedded inside the conveying pipe 11a and a motor 11b mounted on the outside. The coagulant is dropped into the mixer 12 installed below the discharge hole through the discharge hole 11c formed on the upper side of the transfer pipe.

In the mixer, the coagulant injected through the discharge hole and water are mixed, and the coagulant is fed into a tank (hereinafter referred to as a 'mixing tank 20) that requires a coagulant such as a reaction tank located below it.

Such a conventional powder-type coagulant conveying device has a fatal problem that the flocculant transferred through the conveying pipe is easily contaminated with dust, etc., in the process of being put into other devices such as a mixer through an open discharge hole. .

In addition, in the prior art, there is a problem that the coagulant is agglomerated or caught in the device during the transfer process through the screw feeder, and accordingly, the transfer screw or the motor is often broken.

In addition, since the prior art consists of mechanical devices such as a motor and a transfer screw, the installation and maintenance cost is high because the equipment is complicated, and since the screw feeder is not flexible, there are restrictions on changing the transfer place.

Registered Patent Publication No. 10-1136354 (coagulant injection device) Registered Patent Publication No. 10-1172001 (Multiple Vortex Nozzles in Water Treatment Process)

The present invention is to solve the problems of the prior art, and it is a simple device by using a hose and an ejector to transport the powdery coagulant.

In addition, the present invention solves problems such as blowing of coagulant dust by connecting the hose and the ejector connected to the hopper to have a closed structure instead of an open type when transferring and injecting the coagulant, and keeps the surroundings clean to prevent environmental pollution aim to do

In addition, an object of the present invention is to reduce the installation and maintenance costs by simplifying the structure of the coagulant conveying device.

In order to achieve the above object, the powder-type coagulant conveying device according to the present invention is connected to the lower portion of a hopper containing the powder-type flocculant and transfers the flocculant from the hopper to the mixing tank. a hose connected to which the coagulant is filled and transported; A plurality of through holes coupled to the end of the hose and inclined downward from the outside to the inside are formed so that the coagulant is sucked and transported from the hopper through the hose, and a water supply port is formed on the side so that the coagulant and water are mixed and sprayed an ejector to which the nozzle is coupled; an air compressor connected to supply high-pressure air to the plurality of through-holes; a water supply pipe connected to supply water to the water supply port; but, the ejector has a cylindrical shape, and an upper cap is connected to an air compressor on the side thereof to form an air supply port for supplying high-pressure air; It has a cylindrical shape with a diameter smaller than that of the upper cap so that the upper part is protruded and inserted into the upper cap, and the protruding upper part is connected to the hose, and the outer surface is along the circumference so that the air supplied to the air supply port passes through. The body is formed with a groove cut inward, and a plurality of through holes inclined downward from the outside to the inside are formed in the groove portion so that the air introduced through the air supply port is supplied to the inside to suck and transfer the coagulant from the hose connected to the upper part. Wow; a lower cap coupled to a lower portion of the upper cap and having a cylindrical shape having a diameter larger than that of the upper cap, and having a water supply port connected to the water supply pipe on the side thereof; A cylindrical shape that is coupled to the lower part of the main body from the inside of the lower cap and sprays the coagulant moved through the main body while mixing with the water flowing along the outer surface so that the water supplied through the water supply port flows along the outer surface. of the nozzle; characterized in that it includes.

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In addition, the ejector for transferring the powder-type coagulant according to the present invention is coupled to the end of a hose connected to the lower part of the hopper containing the powder-type coagulant, and in the ejector for transferring and spraying the powder-type coagulant from the hopper to the mixing tank, an upper cap having an air supply port connected to the side of the air compressor to supply high-pressure air; It has a cylindrical shape with a diameter smaller than that of the upper cap so that the upper part is protruded and inserted into the upper cap, and the protruding upper part is connected to the hose, and the outer surface is along the circumference so that the air supplied to the air supply port passes through. The body is formed with a groove cut inward, and a plurality of through holes inclined downward from the outside to the inside are formed in the groove portion so that the air introduced through the air supply port is supplied to the inside to suck and transfer the coagulant from the hose connected to the upper part. Wow; a lower cap coupled to the lower portion of the upper cap and having a cylindrical shape having a diameter larger than that of the upper cap, and having a water supply port formed on the side thereof; A cylindrical shape that is coupled to the lower part of the main body from the inside of the lower cap and sprays the coagulant moved through the main body while mixing with the water flowing along the outer surface so that the water supplied through the water supply port flows along the outer surface. of the nozzle; characterized in that it includes.

In addition, in the present invention, the lower end of the nozzle is characterized in that it is tapered so that the coagulant sprayed from the nozzle does not stick and solidify.

In addition, in the present invention, the lower portion of the water supply port of the lower cap is characterized in that the stepped portion protruding inwardly so that the water introduced through the water supply port toward the outer surface of the nozzle is formed.

According to the present invention, there is an effect that the environment around the flocculant conveying device can be kept clean by using a closed structure in conveying the powdery coagulant.

In addition, the present invention has an effect that the coagulant can be transported more conveniently and put into the mixing tank as a simple device by using a hose and an ejector to transport the powdery coagulant.

In addition, the present invention has an effect that it is possible to reduce the maintenance and installation cost of the device because the structure is simple.

1 is a view showing a conventional coagulant conveying device.
2 is a schematic view of a coagulant conveying device according to the present invention.
Figure 3 is an exploded perspective view of the ejector according to the present invention.
Figure 4 is a combined perspective view of the ejector according to the present invention.
Figure 5 is a coupling cross-sectional view of the ejector according to the present invention.

Hereinafter, it will be described in detail according to a preferred embodiment of the present invention with reference to the accompanying drawings.

FIG. 2 is a schematic diagram of a coagulant conveying device according to the present invention, which may be installed in a water treatment facility, etc. FIG.

The coagulant conveying device according to the present invention is connected to the lower portion of the hopper 10 containing the powdery coagulant and serves to transfer the coagulant from the hopper to the mixing tank 20 .

The coagulant conveying device includes: a hose 30 connected to the lower part of the hopper to fill the inside with a coagulant and transport; A plurality of through holes coupled to the end of the hose and inclined downward from the outside to the inside are formed so that the coagulant is sucked and transported from the hopper through the hose, and a water supply hole is formed on the side so that the coagulant and water are mixed and sprayed The ejector 100 to which the nozzle is coupled; an air compressor 40 connected to supply high-pressure air to the plurality of through-holes; and a water supply pipe 50 connected to supply water to the water supply port.

According to the present invention as described above, when high-pressure air is supplied to the ejector from the air compressor 40, the air moves through a plurality of through holes inclined downwardly in the ejector. At this time, according to Bernoulli's principle, from the hopper through the hose The powdery coagulant is sucked and sprayed to another device through a nozzle, and water is supplied through the water supply port formed in the ejector, so the coagulant is sprayed while being mixed with water.

In the conventional transfer device that drops the powdery coagulant by gravity after being transported by the screw feeder, since the screw feeder and the mixer are open, the coagulant powder is blown around in the process and the surroundings are quickly dirty by the coagulant powder. Flocculant is wasted.

However, in the present invention, since the ejector is coupled to the end of the hose and the transfer unit is sealed, it is possible to maintain cleanliness without fear of powder being blown out of the device or dust generated.

In addition, the conventional screw feeder has a disadvantage that it is difficult to move or deform once installed because it has a hard structure with a transfer screw installed therein. It has the advantage of being portable and easy to install.

In addition, the present invention can easily control the amount of the coagulant transferred through the hose by adjusting the pressure of the air supplied from the air compressor.

3 to 5 show an ejector 100 according to an embodiment of the present invention, FIG. 3 is an exploded perspective view of the ejector, FIG. 4 is a combined perspective view, and FIG. 5 is a combined cross-sectional view.

In the present invention, the ejector 100 is coupled to the end of the hose 30 and has a structure having a plurality of through holes 122 inclined downward and the powdery coagulant from the hopper using the air pressure supplied from the air compressor 40 to remove the hose. At the same time, it functions to be sucked and transported through the water supply port 131 and the coagulant transported through the nozzle 140 and water are sprayed while being properly mixed.

As shown in FIG. 3 , the ejector is mainly composed of four parts, and is named as an upper cap 110 , a body 120 , a lower cap 130 , and a nozzle 140 , respectively.

The upper cap 110 has a cylindrical shape, and an air supply port 111 for supplying high-pressure air by being connected to an air compressor is formed on the side thereof.

A screw threaded coupling portion 115 is formed on the outer surface of the lower end of the upper cap so that the upper portion of the lower cap can be screwed.

The main body 120 has a cylindrical shape with a smaller diameter than the upper cap so that the upper part is protruded and inserted into the upper cap, and the inside of the main body serves as a path through which the coagulant transferred through the hose moves.

A hose 30 is connected to the upper part of the main body protruding upward of the upper cap, and a coupling part 125 having a threaded thread to connect the hose is provided.

A groove 121 is formed on the outer surface of the body, which is dug inward along the circumference at a predetermined interval so as to communicate with the air supply port so that the air supplied to the air supply port 111 can pass therethrough.

A plurality of through holes 122 inclined downward from the outside to the inside are formed at regular intervals in the lower portion of the groove portion 121 so that the air introduced into the groove portion through the air supply port 111 is supplied to the inside of the body.

When high-pressure air is supplied from the air compressor 40 connected to the air supply port through the air supply port 111 and the plurality of through-holes 122, a negative pressure is generated inside the body by Bernoulli's principle, and from the rear The coagulant is sucked through a hose and sent forward along with the air.

A screw threaded coupling portion 127 is formed on the inner surface of the lower end of the main body to be screwed with a nozzle 140 to be described later.

The lower cap 130 is coupled to the lower portion of the upper cap and has a cylindrical shape, and has a diameter larger than that of the upper cap to be spaced apart from the nozzle coupled to the lower body. On the inner surface of the upper end of the lower cap, a coupling portion 135 having a thread corresponding to the thread formed on the outer surface of the lower end of the upper cap is formed. A coupling part 137 having a screw thread may be formed on the outer surface of the lower gap to be connected to the mixing tank and the connecting pipe .

A water supply port 131 connected to a water supply pipe to supply water into the lower cap is formed on a side surface of the lower cap.

The nozzle 140 is coupled to the lower part of the body and is located inside the lower cap, and the inside of the nozzle becomes a movement path of the powdery coagulant, and water flows along the outer surface.

A threaded coupling portion 145 is formed on the outer surface of the upper end of the nozzle, and is screwed with the formed coupling portion 127 on the inner surface of the lower end of the body to be coupled to the main body.

The water supplied through the water supply port formed in the lower cap flows along the outer surface of the nozzle located inside the water supply port, and the coagulant that has passed through the body moves inside the nozzle, and the coagulant flows along the outer surface at the end of the nozzle. It is sprayed while mixing with water.

The lower end 141 of the nozzle is formed to be tapered toward the end in order to prevent the coagulant sprayed through the nozzle from being stuck and solidified. If the tip is not sharp and has a surface area, the coagulant will come out and cause the coagulant to gradually solidify and eventually clog the nozzle. However, if it is formed to be tapered as in the present invention, there is no fear of coagulation or coagulation on the tip of the nozzle.

In the present invention, the upper cap 110 , the main body 120 , and the lower cap 130 may be made of an aluminum material, but the nozzle 140 is preferably made of a stainless steel material.

If the nozzle is made of aluminum, it may be crushed or deformed by hand pressure or external impact, and the coagulant may stick to the nozzle and cause coagulation or clogging. Therefore, it is preferable that the nozzle portion is made of a stainless material so as not to be deformed even by an impact.

In addition, in the lower portion of the water supply port 131 of the lower cap, the water introduced through the water supply port does not flow directly under the nozzle, but rather a stepped portion protruding inward to flow along the outer surface of the nozzle toward the outer surface of the nozzle ( 132) is preferably formed.

The hose 30 is coupled to the coupling part formed on the upper part of the body, and it is preferable to fix the hose with a clamp band (not shown) after coupling the hose to the coupling part of the upper part of the body. Also, when coupling the connecting pipe of the mixing tank to the lower cap, it is preferable to connect the mixing tank connecting pipe to the coupling part of the lower cap and then fix it with a clamp band or the like.

As such, the present invention relates to a coagulant conveying device connected to the lower portion of a hopper containing a powdery coagulant and transferring a coagulant from the hopper to a mixing tank, and an ejector used therein, and those skilled in the art do not depart from the spirit and scope of the present invention. It may be sufficiently changed, transformed, substituted and substituted in consideration of the description of the present invention within the scope, and is not limited only to the above-described embodiments.

10: Hopper
20: mixing tank
30: hose
40: air compressor
50: water supply pipe
100: ejector
110: upper cap 111: air supply port
120: body 121: groove 122: through hole
130: lower cap 131: water supply port 132: stepped portion
115 125, 127, 135, 137, 145: coupling part

Claims (5)

In the coagulant conveying device connected to the lower part of the hopper containing the powder-type coagulant to transfer the coagulant from the hopper to the mixing tank,
a hose 30 connected to the lower portion of the hopper and filled with a coagulant therein to be transported;
A plurality of through holes coupled to the end of the hose and inclined downward from the outside to the inside are formed so that the coagulant is sucked and transported from the hopper through the hose, and a water supply port is formed on the side so that the coagulant and water are mixed and sprayed, and the front surface The ejector 100 to which the nozzle is coupled; an air compressor 40 connected to supply high-pressure air to the plurality of through-holes; A water supply pipe (50) connected to supply water to the water supply port;
The ejector 100 is
an upper cap 110 having a cylindrical shape and having an air supply port 111 for supplying high-pressure air connected to an air compressor on the side thereof;
It has a cylindrical shape with a smaller diameter than the upper cap so that the upper part protrudes and is inserted into the upper cap inside the upper cap, the protruding upper part is connected to the hose, and the air supplied to the air supply port 111 passes through the outer surface of the upper cap A groove portion 121 dug inwardly along the circumference is formed in the groove portion, and the air introduced through the air supply port is supplied to the inside so that the coagulant is sucked from the hose connected to the upper portion and moved downward from the outside to the inside. A photographic body 120 having a plurality of through-holes 122 formed therein;
a lower cap 130 coupled to the lower portion of the upper cap and having a cylindrical shape having a diameter larger than that of the upper cap, and having a water supply port 131 connected to the water supply pipe on the side thereof;
It is coupled to the lower part of the main body from the inside of the lower cap, and the water supplied through the water supply port 131 flows along the outer surface so that the coagulant moved through the main body is mixed with the water flowing along the outer surface. A powder-type coagulant conveying device comprising a; cylindrical nozzle 140 for spraying.
delete In the ejector coupled to the end of the hose connected to the lower part of the hopper containing the powder-type coagulant to transport and spray the powder-type coagulant from the hopper to the mixing tank,
an upper cap 110 having a cylindrical shape and having an air supply port 111 for supplying high-pressure air connected to an air compressor on the side thereof;
It has a cylindrical shape with a smaller diameter than the upper cap so that the upper part protrudes and is inserted into the upper cap inside the upper cap, the protruding upper part is connected to the hose, and the air supplied to the air supply port 111 passes through the outer surface of the upper cap A groove portion 121 dug inwardly along the circumference is formed in the groove portion, and the air introduced through the air supply port is supplied to the inside so that the coagulant is sucked from the hose connected to the upper portion and moved downward from the outside to the inside. A photographic body 120 having a plurality of through-holes 122 formed therein;
a lower cap 130 coupled to the lower portion of the upper cap and having a cylindrical shape having a larger diameter than the upper cap, and having a water supply port 131 formed on the side thereof;
It is coupled to the lower part of the main body from the inside of the lower cap, and the water supplied through the water supply port 131 flows along the outer surface so that the coagulant moved through the main body is mixed with the water flowing along the outer surface. A powder-type coagulant transfer ejector comprising a; cylindrical nozzle 140 for spraying.
[4] The ejector according to claim 3, wherein the lower end of the nozzle is tapered so that the coagulant sprayed from the nozzle does not stick.
5. The powder coagulant transfer according to claim 4, wherein a stepped portion 132 protruding inwardly so that the water introduced through the water supply port is directed toward the outer surface of the nozzle is formed in the lower portion of the water supply port of the lower cap. ejector.

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