KR20100018349A - Submersible aerator - Google Patents

Abstract

PURPOSE: A water aeration device is provided to maintain a state of the water aeration device regardless of change of a water level by installing a hollow aeration pipe on the center of a truss structure by a rope, and to increase effectiveness of the device. CONSTITUTION: A water aeration device comprises the following: an air chamber(11) installed on the bottom; an aeration pipe(10) extended from the top of an air chamber; a truss structure(20) connected to the top of the aeration pipe by a rope(60); a float(30) installed according to the truss structure; and a support rope(50) connected to four sides of the truss structure.

Description

Submersible Aerator

The present invention relates to an underwater aeration apparatus installed to improve water quality such as a dam or a water source, and by installing a hollow pipe-type aeration pipe located below the center of the truss structure by a rope, regardless of the change in the water level. The present invention relates to an underwater aeration device that maintains the standing state at all times so that the aeration function can be fully performed.

In general, when there is no flow of water, such as a dam or a source of water, water will rot due to the propagation of Frankton. Looking at the process of decay, surface water layer and weak layer depending on the depth of water. The depths of the waters can be observed to change in quality.

In this way, the aeration device is installed in a dam or a water source as a method for preventing water from rotting due to the propagation of Frankton. The aeration device blows air into the water to increase oxygen in the water and at the same time, deep water It flips over to prevent the water from rotting.

On the other hand, looking at the configuration of the conventional aeration device, as shown in Figure 1 is a flexible tube 100 that can be folded so that the length can be changed in accordance with the increase in the depth, and is installed in the lower portion of the expansion tube 100 The air chamber 101 is connected to the air hose, and the weight body 102 is installed on the water bottom so that the air chamber 101 is not floated by the flow of water, and the expansion and contraction by a rope Installed in the upper part of the pipe 100 and is composed of buoy 103 that rises with the water level as the water level rises.

However, the expansion pipe 100 of the conventional aeration device is made of a cloth or synthetic resin material, as shown in Figure 2, there is an advantage that can be folded, but the operation is not made smoothly, such as inclined to maintain the original position when the water level increases There was a problem that does not fully demonstrate the aeration function.

That is, the wing 104 is formed in three directions on the outer circumference of the expansion pipe 100 to support the expansion pipe 100, and the through hole 105 formed in the wing 104 supports the expansion pipe 100. Since the buoy 103 rises by the water level and the through-hole 105 moves along the support shaft 106, the flexible tube 100 which is folded up is extended upward because it moves along the support shaft 106.

However, at this time, since the expansion pipe 100 is stretched under the resistance of water, the wings 104 installed in three directions are not balanced and cannot move along the support shaft 106 at the same time. The other wing 104, which moves along (106) and stops and receives less resistance, is fully stretched, such that one side of the stretchable tube 100 is inclined so that the efficiency of aeration is higher than when aeration is performed in the straight state. There was a falling issue.

The present invention has been invented to solve the above problems, by installing a hollow pipe-shaped width pipe of a certain length below the center of the truss structure so that it is always standing in the flow of water, regardless of the water level difference The purpose is to provide an underwater aeration device that can fully demonstrate the aeration function.

The present invention, in order to solve the above technical problem, an air chamber is installed in the lower portion and the hollow pipe-type width pipe extending upward from the upper portion of the air chamber; A truss structure which is installed in the form of surrounding the outer portion of the width pipe so that the width pipe is located below the inner center and is connected to the upper end of the width pipe by a rope; A trough installed along the truss structure so that the truss structure can float on water; One end is connected to the concrete block is installed on the water floor and the other end is a support rope connected to the four corners of the truss structure; Characterized in that configured to include.

In addition, the truss structure is formed in a rectangular structure to surround the outer tube of the width pipe, and two sides are provided on each of the front and rear, right and left so that the truss structure floats in the water, the width pipe is the upper truss structure The rope is connected to the inner side of the four sides of the truss structure is characterized in that it is installed in the water under the center of the interior.

In addition, the support rope, characterized in that a plurality of auxiliary weights connected to the support rope by a rope is installed.

Underwater aeration apparatus of the present invention by installing a hollow pipe-type aeration pipe to be positioned below the center of the truss structure by a rope, so that the aeration function can be fully exhibited by maintaining the standing state at all times regardless of the change in the water level. It is effective.

The present invention, the air chamber is installed in the lower portion of the hollow pipe-type width pipe extending upward from the upper portion of the air chamber; A truss structure which is installed in the form of surrounding the outer portion of the width pipe so that the width pipe is located below the inner center and is connected to the upper end of the width pipe by a rope; A trough installed along the truss structure so that the truss structure can float on water; One end is connected to the concrete block is installed on the water floor and the other end is a support rope connected to the four corners of the truss structure; Characterized in that configured to include.

In addition, the truss structure is formed in a rectangular structure to surround the outer tube of the width pipe, and two sides are provided on each of the front and rear, right and left so that the truss structure floats in the water, the width pipe is the upper truss structure The rope is connected to the inner side of the four sides of the truss structure is characterized in that it is installed in the water under the center of the interior.

In addition, the support rope, characterized in that a plurality of auxiliary weights connected to the support rope by a rope is installed.

Figure 3 is a side view according to an embodiment of the present invention, Figure 4 is a plan view according to an embodiment of the present invention, respectively, the following with reference to the accompanying drawings illustrating the configuration of the present invention.

The underwater aeration apparatus of the present invention, as shown in Figures 3 and 4, consisting of a truss structure 20 is connected to the width pipe 10 is installed in the water, the width pipe 10 and the rope 60. do.

The aeration pipe 10 has a predetermined length to facilitate aeration, and is installed in the inner center of the truss structure 20, and is formed in a hollow pipe shape so that the aeration is possible, and the top of the truss structure is formed by the rope 60. It is connected with the 20, the lower portion is connected to the air chamber 11 for supplying air in the water.

The width pipe 10 is connected to the rope 60 is connected to the inner side of the four sides of the truss structure 20 is installed in the water in the state located below the center of the truss structure (20).

Since the air chamber 11 is connected to an air hose and supplies air to water, a detailed configuration description thereof will be omitted since it is a device generally used in an existing aeration device.

The truss structure 20, the overall shape is formed in the shape of a square structure so that the width pipe 10 can be stably supported, by cutting the square pipe to produce a single square member and a plurality of square members at regular intervals. After placing them side by side, the four corners of each rectangular member are connected by a long connecting pipe to form each side of the front, rear, left, and right sides and completed by connecting the sides.

In each of the front, rear, left and right sides of the truss structure 20, a plurality of floats 30 are installed so that the truss structure 20 does not sink in the water. It is installed in a naturally formed space in the, it is preferable that the number of installation of the floats 30 is installed in each of the front, rear, left and right sides.

The overall shape of the truss structure 20 may be formed as a circular structure, but when it is formed as a circular structure, it is difficult to install the support ropes 50 that support the outline of the truss structure 20 in a balanced manner and thus have a rectangular structure. Most preferably formed in the form.

Four corners of the truss structure 20 are connected by a support rope 50, which is connected to a concrete block 51 installed at one end of the truss structure 20 and the other end of the truss structure 20. It is connected to the four corners of).

The concrete block 51 serves to support the truss structure 20 so that the truss structure 20 does not float in the water.

And the support rope 50 is provided with a plurality of auxiliary weights 70 are connected by a rope (60).

The auxiliary weight 70 can stably support the truss structure 20 because the support rope 50 is always pulled taut even when there is no change in the water level of the dam or the water source, and even when there is a change in the water level. have.

In particular, when the support rope 50 sags when the water level is lowered, the auxiliary weight 70 pulls the support rope 50 down so that the support rope 50 can be maintained in a taut state, and thus the water level is reduced. As the truss structure 20 descends as the water level changes while being lowered, the support rope 50 does not sag as the truss structure 20 descends, and the support rope 50 is maintained by the auxiliary weight 70. Therefore, the truss structure 20 may help the vertical while preventing the movement of the truss structure 20 to the front, rear, left and right as much as possible.

Therefore, the stable fall of the truss structure 20 is made, and the width of the width pipe 10 can be fully functioned by minimizing the positional change of the width pipe 10 according to the level change according to the stable falling of the truss structure 20. To be.

On the other hand, when buoyancy is insufficient only by the buckle 30 installed in the truss structure 20, buoys may be installed on the support ropes 50 connected to the four corners of the truss structure 20 to improve buoyancy.

As described above, the underwater aeration apparatus of the present invention installs the aeration pipe 10 in the center of the truss structure 20 so that the aeration pipe 10 is always standing regardless of the water level, thereby ensuring a perfect aeration function. With reference to the accompanying drawings as to enable to demonstrate the operation of the present invention as follows.

As shown in FIGS. 3 and 4, the truss structure 20 is installed on the water, and the tube 10 is positioned so that the tube 10 having the air chamber 11 attached thereto is located in the water below the center of the truss structure 20. Install it.

At this time, the truss structure 20 can float on the water because the trough structure 20 is provided on the truss structure 20.

And the truss structure 20 can maintain the state that does not float in the water is that the support rope 50 connected to the four corners of the truss structure 20 is pulling the truss structure 20 tightly and this support rope ( 50 is because it is connected to the concrete block 51 of the underwater floor.

As such, when the water level increases in the state where the underwater aeration device of the present invention is installed, the truss structure 20 also naturally rises as much as the water level.

Therefore, the truss structure 20 supports the aeration pipe 10 in a stable state even when the water level rises, and the aeration pipe 10 maintains a stable standing state so that the aeration function during the operation of the air chamber 11 can be perfectly exhibited. Can be.

That is, the conventional aeration device is made of expansion pipes, so when the water level rises, the expansion pipes are not smoothly extended or tilted upward, so that the aeration function cannot be fully exhibited.

However, the underwater aeration apparatus of the present invention can fully exert the aeration function because the pipe-type aeration pipe 10 maintains a stable standing position at a constant position at all times regardless of the change of the water level by the stable support of the truss sphere 20. have.

In addition, the underwater aeration apparatus of the present invention can easily check the installation place of the aeration pipe 10 because the truss structure 20 is installed in a floating state on the water, the truss during maintenance of the aeration pipe 10 The winch may be installed in the structure 20 to easily recover the width pipe 10.

In addition, since the auxiliary weight 70 pulls the support rope 50 downward, the trough structure 20 is lowered as the truss structure 20 descends as the water level decreases as the water level changes. 50 is not sag and the support rope 50 is maintained by the auxiliary weight 70 so that the truss structure 20 can help the vertical while preventing the movement of the truss structure 20 back, front, left, and right as much as possible. In this way, the position of the width pipe 10 according to the change in the water level is minimized so that the width pipe 10 can exert its function.

1 is a state diagram of the installation of a conventional underwater aeration apparatus.

2 is a perspective view of a conventional expansion tube.

3 is a side view according to an embodiment of the present invention.

4 is a plan view according to an embodiment of the present invention.

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

10: width pipe 11: air chamber 20: truss structure

30: part 50: support rope 51: concrete block

60: rope 70: auxiliary weight

Claims (3)

An air chamber is installed at a lower portion of the hollow pipe-type width pipe extending upwardly from an upper portion of the air chamber; A truss structure which is installed in the form of surrounding the outer portion of the width pipe so that the width pipe is located below the inner center and is connected to the upper end of the width pipe by a rope; A trough installed along the truss structure so that the truss structure can float on water; One end is connected to the concrete block is installed on the water floor and the other end is a support rope connected to the four corners of the truss structure; Underwater aerators, characterized in that configured to include. The method of claim 1, The truss structure is formed in a rectangular structure to surround the outer tube of the width pipe, and two sides are provided on the front, rear, left and right sides so that the truss structure can float on the water, the width pipe is the top of the truss structure Underwater aeration device, characterized in that installed in the water in the state of being located under the center of the truss structure connected to the rope connected to the inside of the side. The method of claim 1, Underwater aeration apparatus, characterized in that the support rope is provided with a plurality of auxiliary weight connected to the support rope by a rope.

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