KR200331005Y1 - Air supply apparatus under the water - Google Patents

Abstract

Provide an underwater aeration device. This underwater aeration device is installed on the support plate, which is connected to the support plate and the support plate which is connected to the support plate and supports the half needle plate on the water surface so that the support plate is located in the water, a fixed rod which fixes the support plate at a certain position in the water, The housing is provided with a predetermined space therein, and a water inlet is formed on one surface, and a water outlet is formed on one side, an underwater motor installed inside the housing and generating a predetermined rotational force, and installed inside the housing, and the underwater motor and the rotating shaft It is connected to the water outlet and is rotated at a predetermined speed by the submersible motor to pump water in the direction of the water inlet to the water outlet. The impeller is connected to the water outlet and extends to a predetermined length, and the flow path inside the pipe is narrowed again. The fluid discharge pipe formed in the widening type and the part of the fluid discharge pipe narrowed and widened again The side end is connected and the other end is characterized in that it comprises an air suction pipe protruding a certain distance over the water surface.

Description

Air supply apparatus under the water

The present invention relates to an underwater aeration apparatus, and more particularly, to an underwater aeration apparatus capable of supplying a large amount of air in the water by combining a submersible pump and an ejector.

In general, the amount of oxygen dissolved in the water (hereinafter, referred to as 'dissolved oxygen') in a fish farm or aquaculture farm must be a certain amount or more.

This is because a certain amount of oxygen is required for the organic matter in the water to be stabilized and naturally purified by the action of aerobic microorganisms.

Therefore, fish farms and farms are emerging as an urgent task to supply and maintain a certain amount of dissolved oxygen for the growth of fish and plants.

In addition to such fish farms and farms, the supply and maintenance of a certain amount or more of dissolved oxygen is essential to maintain proper water quality or to purify water to proper water quality.

Therefore, various methods are being sought for the supply and maintenance of such a certain amount of dissolved oxygen in fish farms, farms and sewage treatment plants.

For example, a conventional fish farm or aquaculture farm is provided with an air pump or an air blower for forcibly supplying oxygen from the outside to supply and maintain a certain amount of dissolved oxygen.

However, since such an air pump or air blower is installed outside of the water, there is a problem of generating a very loud noise while the device is operating.

In addition, such an air pump or an air blower, forcibly pushes oxygen at a pressure from the outside, causes a problem in that oxygen cannot be supplied to a depth of relatively high pressure.

Accordingly, the present invention has been made in view of the above problems, and an object of the present invention is to provide an underwater aeration apparatus capable of supplying air into the water without generating noise.

Another object of the present invention is to provide an underwater aeration apparatus capable of supplying oxygen to a deep depth.

1 is a cross-sectional view schematically showing an embodiment of the underwater aeration apparatus according to the present invention.

Figure 2 is a perspective view schematically showing a connection structure of the underwater aeration apparatus according to the present invention.

3 is a cross-sectional view schematically showing the fluid flow of the underwater aeration apparatus shown in FIG.

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

100: underwater aeration device 110: submersible pump unit

111 housing 112 submersible motor

114: impeller 130: ejector unit

150: blower unit 170: fixed unit

The underwater aeration device designed to achieve the above object is a support plate which is located in the water, and a support that is connected to the support plate and supports the support plate on the water so that the support plate is located in the water, and the fixing plate to fix the support plate at a certain position in the water. The rod and the support plate, provided with a predetermined space therein, the water inlet is formed on one side and the water outlet is formed on one side (Housing) and the submersible motor installed inside the housing to generate a predetermined rotational force (Motor), an impeller installed in the housing and connected to the underwater motor and the rotating shaft, and rotated at a predetermined speed by the underwater motor to pump water in the water inlet direction toward the water outlet, and a water outlet It is connected to the tube, and is formed to extend to a predetermined length, and the fluid discharge pipe is formed in a type in which the flow path inside the pipe is narrowed and then widened along the way. And, one side end is connected to the portion of the fluid discharge pipe narrowed and then widened again, the other end is characterized in that it comprises an air suction pipe protruding a certain distance over the water surface.

At this time, the water inlet pipe is connected to the water inlet pipe, the end of the water inlet pipe is formed to extend to the adjacent portion on the water surface, characterized in that the water inlet pipe is equipped with a filter.

In addition, a blower unit for injecting air into the air suction pipe is connected to the other end of the air suction pipe.

Hereinafter, an embodiment of the underwater aeration apparatus 100 according to the present invention will be described in detail with reference to FIGS. 1 to 3.

As shown in the figure, the underwater aeration apparatus 100 according to the present invention is such that the water is pumped by the water pump unit 110 and the water pumped by the submersible pump unit 110 largely to pump water in the water The ejector unit 130, the blower unit 150 for forcibly injecting air into the ejector unit 130, and the fixed unit for fixing the water pump unit 110 and the ejector unit 130 in the water ( 170).

More specifically, the submersible pump unit 110 is provided with a predetermined space therein, the water inlet 119 is formed on the lower surface and the water outlet 120 is formed on one side 111 and the housing ( 111 is installed on the lower side of the support leg 118 for fixing the housing 111 to the fixing unit 170, and the water is installed inside the housing 111 and generates a predetermined rotational force to pump water (Pumping) Located at the lower side of the motor 112 and the submersible motor 112 and connected to the submersible motor 112 through the rotation shaft 113, and by a predetermined torque generated by the submersible motor 112 to a constant RPM (Revolutions Per Minute) It is composed of a rotating impeller 114 and the water inlet pipe 115 connected to the water inlet 119 of the housing 111 and extending a predetermined length so that water is introduced from the outside.

At this time, the water inlet pipe 115 is preferably extended to the adjacent portion on the water surface. Thus, the user of the underwater aeration device 100 can easily remove the various wastes and debris flocking around the water inlet pipe 115 to see the water inlet pipe 115 formed to the adjacent portion on the water surface. Will be.

And, it is preferable that a predetermined filter 116 is mounted at the end of the water inlet pipe 115. Therefore, the waste water inlet pipe 115, other than water is not introduced to the garbage or garbage, the present invention submersible pump unit 110 is to be used semi-permanently.

On the other hand, the ejector unit 130 is connected to the water outlet 120 of the housing 111, the fluid discharge pipe 132 is formed to extend to a predetermined length and the air suction pipe connected to one side on the fluid discharge pipe 132 134.

In this case, the fluid discharge pipe 132 is formed in a Venturi tube type in which the flow path inside the pipe is narrowed and widened again so that the flow rate of the fluid flowing out through the fluid discharge pipe 132 can be changed along the way. do. In addition, the air suction pipe 134 serves to allow air to be sucked into the ejector unit 130, and one end of the air suction pipe 134 is connected to one side on the fluid discharge pipe 132 and the other end is installed to protrude a predetermined distance above the water surface.

Here, when the starting point of the portion where the flow path of the fluid discharge pipe 132 is narrowed and then widened again is 'Neck', one end of the air suction pipe 134 is the neck of the fluid discharge pipe 132. It is preferred to be connected to the phase.

In addition, the blower unit 150 serves to inject air to the ejector unit 130 by a force, it is composed of a blower 155 and the mouth 153.

At this time, the blower 155 is connected to the other end of the air suction pipe 134 protruding a predetermined distance above the water surface, and serves to force air into the air suction pipe 134. And, the ball 153 is used when the blower 155 is installed on the water surface. Therefore, when the brower 155 is installed on the outer surface of the water or the like, such a mouth 153 may be omitted.

On the other hand, the fixing unit 170 is a support plate 171 for supporting the submersible pump unit 110 and the ejector unit 130 from the lower side, the support plate 178 to float the support plate 171 in the water, and the support plate 171 ) And a connecting member 174 for connecting the sub-ball 178, and a fixing rod 175 for fixing the support plate 171 at a predetermined position in the water.

At this time, the buoy 178 is formed in a cylindrical shape, such as a sphere (cub) or a cube, made of a plastic and relatively light weight material so that it can float on the water surface, the connection member 174 is easily fitted to the bottom The first hook 182 is formed to be able to. Here, preferably, at least two or more floats 178 according to the present invention are provided. In addition, the first hook 182 is preferably a structure that is not easily released before the worker unwinds by hand, that is, implemented in the form of a carabiner for climbing as shown in the figure.

In addition, the support plate 171 has a panel shape having a predetermined thickness, and a predetermined coupling hole is formed in the center portion such that the submersible pump unit 110 can be mounted by a coupling bolt or the like, and at one end and the other end thereof. A locking portion 173 into which the fixing rod 175 is fitted and a second locking ring 172 into which the connecting member 174 is fitted are formed. At this time, the second hook 172 is preferably configured in a similar form to the first hook 182, that is, the second hook 172 is a climbing carabiner that is not easily released before the worker unwinding by hand. It is implemented in the form

Thus, the support plate 171 is able to float in the water by the second hook 172 is connected to the first hook 182 of the mouth 178 by the connecting member 174.

Here, when the locking portion 173 of the support plate 171 to which the fixing rod 175 is described in detail, the locking portion 171 of the support plate 171 according to the present invention is bent in a '∪' shape. But both ends of the hook having a predetermined size hole, the bolt (Bolt, 180) selectively fitted through the holes formed at both ends of the hook, and the nut (Nut, 181) fastened to the end of the bolt 180 It is composed of

Therefore, when the fixing rod 175 is inserted into the locking portion 173 or the fixing rod 175 is to be pulled out of the locking portion 173, the worker may use the bolt 180 and the nut 181 of the locking portion 173. ) And then the fixing rod 175 can be inserted or removed from the hook of the catching portion 173.

In addition, the connection member 174 is preferably implemented as a chain (Chain), etc. are connected to a plurality of oval-shaped ring so that the two hooks (182, 172) described above can be easily caught. In this way, the operator can control the underwater position of the aeration apparatus by reducing or increasing the chain connected between the two hooks (182, 172).

On the other hand, the fixing rod 175 for fixing the support plate 171 to the bottom surface is formed in the rod portion 184 fixed to the bottom surface of the underwater in the shape of a rod of a predetermined thickness, and is formed on the upper end of the rod portion 184 It is composed of a head part (185) formed to a diameter slightly larger than the diameter of the rod part (184) to be caught by the locking portion 173 of the support plate (171).

At this time, the length of the fixed rod 175 is preferably formed to be somewhat long. That is, the fixed rod 175 according to the present invention is preferably formed in a length such that the head portion 185 of the fixed rod 175 can protrude a predetermined length above the water surface.

Accordingly, the fixing rod 175 is fitted to the engaging portion 173 of the supporting plate 171 to be fixed to the bottom surface of the water. The supporting plate 171 to which the submersible pump unit 110 is mounted is fixed to the fixing rod 175. It is possible to move up and down a predetermined distance along the rod portion 184 of the), due to the head portion 185 formed in the upper portion is to prevent the fixed rod 175 from being separated from the fixed portion.

Hereinafter, the operation and effects of the underwater aeration apparatus 100 configured as described above will be described in detail.

First, in order to inject air containing oxygen into the water, the operator drives the underwater motor 112. The impeller 114 connected to the underwater motor 112 and the rotating shaft 113 is rotated by a predetermined Alp.

Therefore, the water located in the vicinity of the water inlet pipe 115 is introduced into the housing 111 by the rotation of the impeller 114, and thus after the flow into the housing 111, the housing 111 of the Outflow to the water outlet 120 formed on one side. At this time, since the ejector unit 130 is installed in the water outlet part 120 of the housing 111, the water that has flowed out through the water outlet part 120 flows out into the external water via the ejector unit 130.

Here, because the fluid discharge pipe 132 of the ejector unit 130 is formed in the form of a bantry tube, the water flowing out through the water outlet 120 is very fast close to the neck of the fluid discharge pipe 132 It flows out at the flow rate and after passing through the neck, it flows out at a slower flow rate. Therefore, a relatively low pressure is formed in the neck of the fluid discharge pipe 132 due to such a high flow rate.

Accordingly, due to this pressure difference, the outside air is rapidly introduced into the fluid discharge pipe 132 of the ejector unit 130 by the pressure difference inside the air suction pipe 134 connected to the neck of the fluid discharge pipe 132. In particular, when the blower unit 150 connected to the air suction pipe 134 is driven, more air is introduced into the fluid discharge pipe 132 of the ejector unit 130 very quickly.

Thereafter, the air rapidly introduced into the fluid discharge pipe 132 of the ejector unit 130 through the air suction pipe 134 is quickly mixed with the water that flowed through the fluid discharge pipe 132, and after mixing It is discharged to the outside along the water flowing through the discharge pipe 122.

Accordingly, the amount of dissolved oxygen is gradually increased through the water discharged through the fluid discharge pipe 132 in the water in which the underwater aeration apparatus 100 is installed.

As described above, the underwater aeration device according to the present invention is installed in the water to solve all the noise problems caused by the conventional installation on the water surface.

In addition, the underwater aeration device according to the present invention has the advantage that can supply air (oxygen) even in the depth of the deep because the external air is injected into the water by using the pressure difference by the ejector unit.

In particular, the underwater aeration apparatus according to the present invention has the advantage that can be forced to inject external air through the blower can supply a large amount of air even at a very deep depth.

In addition, the underwater aeration apparatus according to the present invention has the advantage that can be supplied to the water in a larger amount because the air agitation action by the rotation of the impeller in addition to the air inflow through the ejector unit and the blower occurs.

Claims (3)

A support plate located in water; A float connected to the support plate and supporting the half needle plate on the water surface such that the support plate is located in the water; A fixed rod fixing the support plate at a predetermined position in the water; A housing installed on the support plate, having a predetermined space therein, a water inlet formed on one surface thereof, and a water outlet formed on one side thereof; An underwater motor installed inside the housing and generating a predetermined rotational force; An impeller installed inside the housing, connected to the submersible motor via a rotation shaft, and rotating at a predetermined speed by the submersible motor to pump water in the water inlet direction toward the water outlet; A fluid discharge pipe connected to the water outlet, extending in a predetermined length, and having a flow path inside the pipe narrowed along the way and then widened again; One end is connected to a portion of the fluid discharge pipe is narrowed and then widened again, the other end includes an air intake pipe protruding a certain distance over the water surface. According to claim 1, wherein the water inlet pipe is connected to the water inlet pipe, the end of the water inlet pipe is formed to extend to the adjacent portion on the water surface, the water inlet pipe is characterized in that the water aerator is equipped with a filter Device. The underwater aeration apparatus according to claim 1, wherein a blower unit for forcibly injecting air into the air suction pipe is connected to the other end of the air suction pipe.