KR100449388B1 - a deposit cleaner air injection structure - Google Patents

Abstract

The present invention relates to an air spray nozzle installation structure of a sediment collector that ejects sediment deposited on the bottom of a treatment tank of a treatment plant (hereinafter, referred to as "treatment plant") such as water, sewage, and wastewater to the outside with high pressure air blowing force. In more detail, it can be used in common in multiple treatment plants having different depths, and at the same time, it is possible to obtain a collector having excellent collection capability by minimizing the loss of high-pressure air injected.

That is, the cap is formed by injecting a connection tube between the conventional body and the discharge pipe to communicate with the injection nozzle on the upper portion of the main body to extend upward from the bottom of the connection pipe to form an injection hole Bonded to be detachable, attached to one side of the discharge pipe is formed from a plurality of auxiliary spray nozzles are installed in the longitudinal direction of the discharge pipe is communicated from the outside to the inside of the discharge pipe.

Description

Deposit cleaner air injection structure

The present invention relates to an air spray nozzle installation structure of a sediment collector that ejects sediment deposited on the bottom of a treatment tank of a treatment plant (hereinafter, referred to as "treatment plant") such as water, sewage, and wastewater to the outside with high pressure air blowing force. In more detail, it can be used in common in multiple treatment plants having different depths, and at the same time, it is possible to obtain a collector having excellent collection capability by minimizing the loss of high-pressure air injected.

In general, the sediment collector of a treatment plant is provided with a discharge pipe at the upper part of the main body, and a spray nozzle connected to the compressor is installed at the central part through a collecting space to inject high pressure from the compressor to discharge the sediment out of the water through the discharge pipe.

However, the spray nozzle rescue device of the sediment collector sprays high pressure air directly on the upper surface of the sediment at the bottom of the treatment tank, vortexes in the collecting space, disperses it in water, and discharges it out of the water through the discharge pipe. As the pressure is injected directly to the sediment and the air pressure is dispersed and discharged to the discharge pipe, the compressor needs to increase the pressure so as to compensate for the dispersed pressure, which requires a lot of cost, but this is also difficult without high water pressure. there was.

Therefore, the inventors have found a rescue device that minimizes cost and discharges sediment deposited at the bottom of the treatment tank regardless of depth.

The present invention is to solve the above-mentioned conventional problems, in order to solve the inconvenience in collecting the sediment as described above, the pressure compressed in the compressor by the direct injection of the direction of the air injected from the injection nozzle into the discharge pipe is dispersed It is an improvement of the spray nozzle structure of the sediment collector which minimizes the discharge to the discharge pipe.

This will be described in more detail together with the accompanying drawings.

1 is a cross-sectional view of the present invention applied

2 is an exemplary view to which the present invention is applied

Figure 3 is an illustration of the main part of the present invention

4 is a cross-sectional view of the present invention

5 is an enlarged view illustrating a portion A of FIG. 1;

* Explanation of symbols on important parts of drawing

1: treatment tank 2: sediment

10: main body 11: catchment space

12: injection part 13: injection nozzle

14 connector 15 spiral groove

20: discharge pipe 21: auxiliary injection nozzle

30: compressor 40: branch pipe

41, 42: Hose 50: Cap

The present invention is formed in the lower portion of the main body 10 having a conventional collecting space 11, the upper portion is connected to the discharge pipe 20 is connected to the collecting space 11 in the upper portion of the compressor 30 In the sediment collector injection nozzle structure for discharging the sediment (2) in the water by discharging the sediment (2) in the water collecting space (11) by injecting high-pressure air through the branch pipe (40),

The connecting tube 14 is connected between the main body 10 and the discharge pipe 20 formed in a hemispherical shape so as to communicate with each other, and the injection nozzle 13 is connected to the outside of the main body 10 and one side thereof is connected. Extending upward from the lower portion of the pipe (14) and on one side of the discharge pipe 20 communicates from the outside to the inside to form a plurality of auxiliary spray nozzles 13 installed in the longitudinal direction of the discharge pipe (20).

The cap 50 having different injection holes 51 formed at the end of the injection nozzle 13 binds to the injection nozzle 13 so as to be detached and attached.

In addition, the spiral groove 15 is upwardly formed in the connection pipe 14 to discharge the sediment 2 vortexed in the water collecting space 11 to the discharge pipe 20 along the spiral groove 15.

The present invention as described above is located in the upper surface of the sediment deposited on the bottom of the treatment tank (1) of the treatment plant located in the input unit 12 of the main body 10 to operate the compressor 30 to a plurality of branches in the branch pipe (40) When the divided high-pressure air is simultaneously sprayed through the injection nozzles 13 and the auxiliary injection nozzles 13 through the hoses 41 and 42, the water in the collecting space 11 starts to move to the discharge pipe 20. Vortex flows but the sediment (2) is dispersed in the collecting space (11) and discharged through the discharge pipe (20) through the connecting pipe (14) while moving the bottom surface of the treatment tank (1) Remove it.

In addition, the cap 50 having the injection hole 51 formed at the end of the injection nozzle 13 is detachably attached to the injection nozzle 13 so that a small injection hole 51 is required when a high pressure is required. Can be attached to increase pressure.

Therefore, the present invention minimizes the loss in which the pressure of the air injected from the compressor 30 is dispersed as described above, so that the discharge is excellent in the discharge pipe 20, and the amount of the air injected from the compressor 30 is minimized. In (13), there is an advantage that it is possible to control the pressure so that it can be used in common in several treatment plants having different depths.

Claims (3)

The present invention is formed in the lower portion of the main body 10 having a conventional collecting space 11, the upper portion is connected to the discharge pipe 20 is connected to the collecting space 11 in the upper portion of the compressor 30 In the sediment collector injection nozzle structure for discharging the sediment (2) in the water by discharging the sediment (2) in the water collecting space (11) by injecting high-pressure air through the branch pipe (40), The connecting tube 14 is connected between the main body 10 formed in the hemispherical shape and the discharge pipe 20 to communicate with each other, and the injection nozzle 13 communicates with the outside at the upper part of the main body 10, and one side thereof is connected. Extending upward from the lower portion of the pipe (14) characterized in that formed on the one side of the discharge pipe 20 communicated from the outside to the inside of the auxiliary injection nozzle 13 installed upward in the longitudinal direction of the discharge pipe (20) Structure of the sediment collector. The sediment collector according to claim 1, wherein the cap 50 having different injection holes 51 formed at the end of the injection nozzle 13 binds with the injection nozzle 13 so that attachment and detachment are possible. Air spray structure. The structure of claim 1, wherein a spiral groove (15) is formed in the connection pipe (14).