KR101136354B1 - Apparatus for Injecting Flocculant - Google Patents

Abstract

The present invention relates to a coagulant injector, a coagulant injector in which a coagulant is stored, a first branch line through which branch water flows from the raw water inflow line to dilute the coagulant, and a coagulant diluted with raw water connected to the raw water inflow line. The flocculation agent is sucked from the coagulant injector through the pressure drop by the high pressure branch water flowing in the first branch line and connected to the coagulant injector in the first branch line and flows in the first branch line, so that the branch water and the coagulant are mixed at a predetermined ratio. A dilution injector, a plurality of input nozzles installed at the connection point of the tank and the raw water inlet line and connected to the injector to inject coagulant, a plurality of sensors respectively installed at the plurality of input nozzles to measure the input amount of the diluted coagulant; And a plurality of valves installed in the input nozzles to control the input amount of the diluted flocculant and the sensor Processing a signal delivered from the and a controller for controlling the opening and closing of the valve.

In the flocculant injector according to the present invention, the raw water and the diluted flocculant can be uniformly mixed by supplying the diluted flocculant to the inlet nozzle while controlling the injection amount of the diluted flocculant while using a plurality of injector nozzles. In addition, since dilution of the branched water and the flocculant can be diluted to a desired ratio, pipe clogging does not occur due to the metal salt, thereby reducing manpower consumption due to scale decomposition by metal salt and reducing work time.

Flocculant, injection, injector, injection nozzle

Description

Coagulant Injector {Apparatus for Injecting Flocculant}

The present invention relates to a coagulant injector, and more particularly, to a coagulant injector to reduce water purification costs by quickly and economically mixing the coagulant introduced into the raw water in the water purification plant.

In general, water purification plants that disinfect and purify raw water from drinking water sources and supply them to drinking water supply clean and quality tap water by adding flocculants for water purification, PH regulators, activated carbon to improve odor and taste, and disinfectants for sterilization. .

As described above, in order to purify the raw water, a flocculant is introduced into a pump diffusion method at a connection point between the raw water tank and the raw water inflow line. However, in the case of pump diffusion, the mixing is not effective even though a lot of power is consumed per hour, and a scale of metal salt is generated in the pump and the input pipe. As a result, there was a problem in that the cohesive effect was reduced, such as the injection pressure was dropped when the coagulant was injected due to the clogging of the pipe, thereby preventing uniform mixing.

The present invention has been made in view of the above-described problems, and an object thereof is to provide a coagulant injecting device which improves cohesive and precipitation efficiency by minimizing coagulant injection strength of a plurality of injecting nozzles and minimizes generation of metal salts.

Still another object of the present invention is to provide a flocculant injector capable of controlling the dilution ratio of branched water and flocculant.

Coagulant injector of the present invention for achieving the above object,

A coagulant input unit in which a coagulant is stored, a first branch line through which branch water dividing from the raw water inflow line to dilute the coagulant flows, a tank connected to the raw water inflow line, and a coagulant diluted with raw water are mixed, and the first branch An injector installed in the line and connected to the coagulant injector to suck the coagulant from the coagulant injector through pressure drop by the high pressure branch water flowing in the first branch line to dilute the branch water and the coagulant in a predetermined ratio; A plurality of input nozzles installed at a connection point of the tank and the raw water inflow line and connected to an injector to inject a coagulant; a plurality of sensors respectively installed at the plurality of input nozzles to measure the amount of diluted coagulant; A plurality of valves respectively installed at the nozzles to adjust the input amount of the diluted flocculant and the sensor It is provided with a controller for controlling the opening and closing of the valve by processing the signal transmitted from.

Preferably it is connected to the second branch line branched from the raw water inlet line is installed in the tank in the vertical direction and the hole is formed at regular intervals in the vertical direction to pressurize and discharge the raw water into the tank is diluted with raw water in the tank A stirring nozzle capable of stirring the flocculant is further provided. The apparatus may further include an auxiliary line installed in the conduit between the injector and the injection nozzle, an auxiliary coagulant injector connected to the auxiliary line and storing a diluted coagulant, and an on / off valve for manually opening and closing the auxiliary coagulant injector. . The injection nozzle further includes a plurality of branch pipes formed with holes in the left and right directions to cover the dead zone when the raw water flowing from the raw water inflow line is mixed with the diluted flocculant.

In the flocculant injector according to the present invention, the raw water and the diluted flocculant can be uniformly mixed by supplying the diluted flocculant to the inlet nozzle while controlling the injection amount of the diluted flocculant while using a plurality of injector nozzles. In addition, since dilution of the branched water and the flocculant can be diluted to a desired ratio, pipe clogging does not occur due to the metal salt, thereby reducing manpower consumption due to scale decomposition by metal salt and reducing work time.

Hereinafter, the flocculant input device according to an embodiment of the present invention with reference to the accompanying drawings will be described in detail.

1 to 3, the coagulant injector according to the present invention includes a first branch line 20, a coagulant injector 40, a tank 70, an injector 30, and an injector nozzle 50.

The first branch line 20 is branched from the raw water inflow line 10 and the branch water flows to dilute the flocculant at a predetermined ratio.

The coagulant injector 40 is connected to the injector 30 and supplies the coagulant to the injector 30.

The injector 30 sucks the coagulant from the coagulant injector 40 connected to the injector 30 through the pressure drop by the high pressure branch water flowing in the first branch line 20 and connected to the first branch line 20. For example, the dilution water and the flocculant are diluted at a predetermined ratio and supplied to the pipe connected to the injection nozzle 50.

The input nozzle 50 is connected to a pipe connected to the injector 30 to receive a diluted flocculant. Two injection nozzles 50 are provided for uniform mixing, and a plurality of holes are formed at predetermined intervals in the longitudinal direction. In order to inject the same amount of dilute flocculant into the two input nozzles 50, the sensors 54 are respectively installed on the input nozzles 50 and connected to the controller 60 receiving the signals from the sensors. In order to adjust the amount of diluted coagulant injected into the input nozzle 50, the controller 60 receiving the signal of the sensor 54 installs an automatic valve 52 so as to be controlled by the controller 60. In addition, in order to spray the flocculant diluted in the opposite direction to the raw water supply direction, the injection nozzle 50 is installed so that the hole formed in the injection nozzle 50 is directed toward the raw water inlet line 10.

Here, the number of the injection nozzles 50 may be installed three or more different from the illustrated example. In addition, the hole of the input nozzle may be formed in an oblique form upward or downward so that the diluted flocculant can be sprayed upward or downward unlike the illustrated example.

The tank 70 is connected to the raw water inlet line 10 and mixes the raw water flowing from the raw water inlet line 10 with the diluted flocculant sprayed by the input nozzle 50.

The tank 70 may further include a stirring nozzle 81 connected to the second branch line 80 branched from the raw water inflow line 10 to mix the raw water and the flocculant diluted more effectively.

Auxiliary coagulant injector 90 may be further provided in a conduit connecting the injector 30 and the input nozzle 50. The auxiliary coagulant injector 90 is a device for injecting a coagulant when the injector 30 breaks down, and a manual valve is installed.

3 is a cross-sectional view showing a connection point of the raw water inlet line 10 and the tank 70 of the flocculant inlet device, two input nozzles 50 are installed at the connection point of the raw water inlet line 10 and the tank 70 It was shown to spray the diluted flocculant toward the raw water inlet line (10).

4 is a perspective view showing the injection nozzle 50 in which the branch pipe 56 of the flocculant injection device is formed, and the branch pipe 56 branched from the two injection nozzles 50 and formed with holes in the left and right directions is formed. The branch pipe 56 covers the dead zone when the injection nozzle 50 injects the diluted coagulant into the raw water inflow line 10 so that the diluted coagulant can be uniformly mixed with the raw water discharged from the raw water inflow line 10. Do it.

Referring to the operation of the flocculant injector according to the present invention configured as described above are as follows.

The first branch line 20 branched from the raw water inflow line 10 and the branched water flows is connected to the injector 30, and sucks the coagulant in the coagulant injector 40 from the injector 30. The flocculant is diluted in a proportion to produce a diluted flocculant. The diluted flocculant flows into the input nozzle 50 connected to the injector 30. The injection nozzle 50 is composed of two and the sensor 54 for measuring the amount of the input of the diluted coagulant on the top of the injection nozzle 50 in order to put the same amount of diluted coagulant in each of the two injection nozzle (50) It includes. It includes an automatic valve 52 for processing the signal transmitted from the sensor 54 to inject the same amount of diluted flocculant into the injection nozzle (50). The sensor 54 and the automatic valve 52 are connected to the controller 60 and are connected to the controller 60 for processing the signal sent from the sensor 54 to control the opening and closing of the automatic valve 52. The diluted flocculant is injected to the connection point of the tank 70 and the raw water inlet line 10 through the input nozzle 50, and the dilute flocculant is mixed with the raw water.

A branch formed from the raw water inflow line 10 and installed in the tank 70 in the vertical direction and spaced at regular intervals in the vertical direction discharges the raw water into the tank 70 and is diluted with the raw water in the tank 70. The flocculant is stirred.

When the coagulant injector 90 installed in the injector nozzle 10 and the coagulant diluted therein is not stored, the coagulant is opened by opening the valve of the coagulant injector 90 when the coagulant cannot be added due to a problem such as a failure of the injector 30. To the input nozzle 50.

The branch pipe 56 branched from the injection nozzle 50 to form a hole in the left and right direction covers the dead zone and sprays the flocculant diluted in the raw water inflow line 10.

The coagulant injecting apparatus according to the present invention directly injects the coagulant into the tube by using the first branch line 20 and the injector 30 branched from the raw water inlet line 10, so that the diluted coagulant and the raw water are uniformly mixed and coagulated. Increasing strength improves sedimentation efficiency and saves flocculant.

 In addition, since dilution of the branched water and the flocculant in a predetermined ratio so that metal salts do not occur, pipe clogging does not occur due to metal salts, thereby reducing manpower consumption due to scale decomposition by metal salts and reducing work time.

The present invention as described and illustrated above is not intended to be limited to the above embodiments, and may be modified in various forms within the scope not departing from the gist of the present invention.

Therefore, the true scope of protection of the present invention should be defined only by the appended claims.

1 is a block diagram of a flocculant input device according to the present invention,

Figure 2 is an exploded perspective view of the flocculant input device according to the present invention,

3 is a cross-sectional view showing the connection point of the raw water inlet line and the tank of the flocculant input device according to the present invention,

Figure 4 is a perspective view showing an injection nozzle formed with a branch pipe of the flocculant input device according to the present invention.

Claims (4)

A flocculant injector in which a flocculant is stored; A first branching line branched from the raw water inlet line, through which branching water to dilute the flocculant flows; A tank connected to the raw water inlet line to mix the raw water and the diluted coagulant; It is installed in the first branch line and connected to the coagulant injector to suck the coagulant from the coagulant injector through the pressure drop by the high pressure branch water flowing in the first branch line to dilute the branch water and the coagulant at a predetermined ratio. An injector to make; A plurality of input nozzles installed at a connection point of the tank and the raw water inflow line and connected to an auxiliary line connected to the injector to inject coagulant; A plurality of sensors respectively installed in the plurality of input nozzles to measure the input amount of the diluted flocculant, and a plurality of valves respectively installed at the input nozzles to adjust the input amount of the diluted flocculant; And a controller configured to control the opening and closing of the valve by processing a signal transmitted from the sensor. The tank is connected to the second branch line branched from the raw water inlet line is installed in the tank in the vertical direction and the hole is formed at regular intervals in the vertical direction to pressurize and discharge the raw water into the tank is diluted with raw water in the tank A coagulant injector comprising a stirring nozzle capable of stirring the coagulant. delete The method of claim 1, The auxiliary line connected to the injector further comprises a coagulant injector in which the coagulant diluted in the branch branched from the auxiliary line is stored, and a coagulant injector further comprising an on-off valve for manually opening and closing the auxiliary coagulant injector. The method of claim 1, The injection nozzle is a flocculant injector, characterized in that it further comprises a plurality of branch pipes formed in the left and right direction branched from the injection nozzle.

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