KR200435888Y1 - drainage device of surface fluid - Google Patents

Abstract

The present invention is a device for drainage according to the surface water or the density of the storage fluid of the small scale experimental apparatus from a large storage facility such as a reservoir, a swimming pool, etc., floated buoyancy device 100 to the storage fluid of the reservoir and the intake pipe 110 therein Attach. And install the drainage fixing plate 300 on the bottom of the reservoir, such as reservoir, between the drainage fixing plate and the inlet pipe of the buoyancy device on the surface of the fluid and the elastic pipe can withstand the pressure according to the depth of the storage fluid ( 200).

Subsequently, when the drain hole is opened by adjusting the drain hole control plate 350 at the bottom of the reservoir, the surface water flows into the drain inlet hole 160 fixed to the buoyancy device, and then drains through the water pipe.

In this process, it is possible to selectively drain the storage fluid according to the density from the surface of the storage water by adjusting the height of the drain inlet hole fixed to the buoyancy device.

Sluice, Gator, Surface Water, Drainage, Reservoir, Water, Solder

Description

Drainage device of surface fluid

1 is a schematic view of the entire buoyancy device of FIG.

Figure 3 floor drainage fixing plate detailed view

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

100: buoyancy device 110: drainage inlet device

150: drainage inlet position control device 160: drainage inlet

200: water pipe 300: drainage fixing device

310: deep water drainage 320: surface drainage

330: water pipe lower connector 350: drainage control plate

355: drain selector

The present invention is a device for selective drainage depending on the surface water or the density of the storage fluid of a small experimental apparatus from a large repair facility such as a solder, a reservoir, a swimming pool, and the like. In general, the water in the reservoir is used for agriculture in summer, the surface water temperature is higher than the deep water temperature. In other words, the density of surface water is lower than that of deep water. Agricultural water supply can be usefully used as agricultural water only when water is supplied at the highest possible temperature. The optimum temperature of the agricultural water required for the growth of rice grown in the paddy field, which is the most used among agricultural waters, is considered to be suitable between 30 and 35 degrees Celsius. The high atmospheric temperature in summer provides high energy to the reservoir's surface water, so the surface water temperature is significantly different from the deep water temperature. Therefore, the reservoir used for agricultural water supply preferentially supplies surface water. However, due to the structure of the reservoir dike, only a certain amount of surface water over the dike of the dike is supplied through the dike, and the remainder is drained through the deep water drainage installed at the bottom of the reservoir and this deep water is supplied to the agricultural water. Therefore, the deep water drained at this time is much lower than the surface water, so when the crop is supplied to the crop while drained from the reservoir, the crop may suffer cold damage. In order to prevent such cold seas, it is necessary to bypass the farm waterways in various directions, but in reality, cold waters are inevitably near the reservoir.

In addition, in the case of a swimming pool, a drainage device is installed at the bottom of the swimming pool in order to exchange the stored water, and when the water is drained, the water flow is concentrated on the floor drainage and the pressure of the floor drainage is low. It may be caught in a whirlpool, causing life loss.

In addition, even in a small experiment apparatus, a funnel may be used to separate the fluid due to the difference in specific gravity, but most of them take a form of separating the fluid by discharging it from the lower part of the fluid having a large specific gravity.

In general, the water in the reservoir has a temperature difference depending on the depth, which means that the density of surface water is lower than that of deep water. Agricultural water supply can be usefully used as agricultural water only when water is supplied at the highest possible temperature. However, due to the structure of the reservoir dike, only a certain amount of surface water over the dike of the dike is supplied through the dike, and the remainder is provided with multiple layers of intake doors by depth in the intake tower, and after intake through the water intake tower, it is discharged to the floor or Alternatively, deep water is discharged through a drain in the bottom of the reservoir.

Therefore, the water tower currently operating in the related reservoir divides the water depth into several floors and installs water intake doors for each water depth so that it is not possible to take only the surface water at all times, but also to install or operate the water tower and the bypass channel. This requires a lot of manpower and economic power.

However, in the present invention, by connecting a water pipe 200 having a flexible and elastic force between the buoyancy device 100 installed on the reservoir surface and the drainage fixing device 300 installed on the reservoir bottom without constructing such a water intake tower. Form a channel into which surface water can be drained. At this time, the buoyancy device 100 is always floating on the reservoir surface due to the reservoir buoyancy, and only the surface water is always discharged through the drain inlet hole 160 of the drain inlet control device 150 attached to the buoyancy device 100. It becomes possible, and also by adjusting the height of the drain inlet hole control device 150 attached to the buoyancy device 100 to set the position of the drain inlet hole 160 to be able to drain from the surface water. Therefore, the high amount of heat contained in the surface water of the storage fluid can be sufficiently used for relations. In addition, since only the drainage fixing device 300 is provided on the bottom of the existing reservoir can be easily and economically applicable.

In addition, a drainage system for discharging stored water is installed at the bottom of the swimming pool, and when the drainage is replaced, water flow is concentrated on the drainage system at the bottom, where a vortex occurs and this vortex In some cases, children's lives are caught in the air, but if the present invention is applied in such a facility, there is no risk of human life damage because the vortex does not occur in the deep water surface. It may also be useful in separate emissions.

In addition, since a funnel is used to separate the fluid according to the difference in specific gravity in the laboratory, in this case, the fluid must be discharged in order from the fluid having a large specific gravity. By setting the position of the drain inlet hole 160 by adjusting the height of the fluid of the specific gravity can be easily classified.

A drainage inlet hole 160 is provided at a lower end of the drainage inlet hole adjusting device 150 connected to the buoyancy device 100 to the buoyancy device 100 to the storage fluid of the reservoir, and a water pipe having a flexible and elastic force at an end portion thereof. Connect 200. The other end of the water pipe 200 is connected to the water pipe lower connector 330 attached to the drain hole fixing device 300 is installed on the bottom surface of the reservoir.

 Between the buoyancy device 100 and the drainage hole fixing device 300 on the surface of the storage fluid is connected to the flexible water pipe 200, which is flexible and can withstand the pressure depending on the depth of the storage fluid, the surface water is drainage inlet ( 160 flows along the water pipe 200 and passes through the surface drainage hole 320 at the bottom of the reservoir to become a drain along the drainage path installed at the bottom of the reservoir.

Here, the buoyancy device 100 is floated on the fluid surface by buoyancy of the storage fluid, and the surface water or the water is adjusted by adjusting the intake height of the drain inlet hole 160 installed at the lower end by adjusting the height of the drain inlet hole control device 150. Allows selective intake and discharge of only fluids of a certain density at height.

In addition, by installing the drain hole fixing plate 300 on the bottom of the storage water, such as the reservoir, and by adjusting the drain hole control plate 350 in the reservoir bottom on the drain hole fixing plate 300 to match the drainage control hole 355 with the surface drainage drain 320 When the surface water is drained and the drainage control hole 355 is matched with the deep water drainage hole 320, the deep water is drained as in the conventional method.

By using this design, surface water can be easily used by using existing facilities and adding only a part of them to related facilities for supplying agricultural water such as reservoirs. In addition, deep water can be used in the same way, and surface water can be easily used even when surface water must be used, thereby enabling economic use of agricultural water.

In addition, when the present invention is used in a water reservoir such as a swimming pool, it may be useful to replace the entire water or to replace some of the water. When draining water from the surface water using the buoyancy device when draining the entire water, there is no risk of being sucked into the vortex occurring at the drainage area than when draining water from the deep water. In addition, by adjusting the height of the water inlet hole attached to the high security of the present design can be used to replace only a part of the surface water containing a lot of suspended solids, or to circulate a part of the water to maintain the cleanliness of the pool.

In addition, even in a small mixed fluid classification, such as a laboratory, it is possible to classify according to the density difference of the fluid.

Claims (4)

Drainage device comprising buoyancy device 100, water pipe 200, and drainage fixing device 300 as components Drainage device characterized in that the position of the drainage inlet hole 160 can be adjusted by adjusting the height of the drainage inlet hole control device 150 of the buoyancy device 100 in claim 1 Drainage device characterized in that the water pipe 200 configured in the form of a corrugated box freely stretchable in the longitudinal direction Drainage device characterized in that the drainage water holding device 300 is installed and the drainage control plate 350 is capable of selective drainage of surface water and deep water in claim 1

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