KR101619176B1 - Fixed buoyancy type automatic water collection devices - Google Patents

Abstract

The present invention relates to a fixed buoyancy type automatic water collection device and, more specifically, to a fixed buoyancy type automatic water collection device, capable of improving workability by easily collecting a buoyancy unit and enabling boarding when the fixed buoyancy type automatic water collection device breaks down and of stably collecting water by preventing the buoyancy unit from moving in all directions. The fixed buoyancy type automatic water collection device includes: an inlet wherein the position thereof can be adjusted to be located under the water at the depth of 14m from the water surface at the center under the buoyancy unit vertically moving along a buoyancy unit support fixed on the bottom of a storage reservoir; an inlet control unit controlling vertical movements on the buoyancy unit of the inlet and installed on the upper surface of the buoyancy unit; an inlet control unit controlling the inlet control unit by measuring underwater water quality; and a wireless transfer device transferring measured water quality data.

Description

Fixed buoyancy type automatic water collection devices

More particularly, the present invention relates to a fixed buoyant type automatic water intake apparatus, and more particularly, to a buoyancy type automatic water intake apparatus which can prevent stable buoyancy by preventing buoyancy from moving in all directions, To a fixed buoyant type automatic water intake apparatus.

The present invention relates to a fixed buoyant type automatic intake system.

Conventional buoyancy type automatic intake equipment is a device that floats the device on the water surface of the reservoir or dam by using the buoy and takes the best quality water of 1 m ~ 4 m deep at the bottom of the device at right angles to the water surface.

Figure 1 shows a simple installation drawing of a conventional buoyant type water intake system in which a water purification plant is located in a low-lying area and is withdrawn by a natural descent method using a siphon principle.

The effect of using the conventional water intake device is that first, the water of the upper level water is taken in the first place, secondly, the turbidity is lowered so that the amount of the water treatment chemicals such as the flocculant is reduced. Third, , It is possible to reduce the labor cost necessary for cleaning the filter paper, and fourthly, it shows that it is possible to supply better quality tap water to the residents.

However, the conventional water intake apparatus has the following problems.

The existing buoyant automatic water intake system is installed at the water intake point, and when it is installed at the water intake station, the buoyancy system moves in all directions according to the water quantity change, that is, according to the water level, Can be taken, and when the failure occurs, the buoyancy unit is mobile, which makes it difficult to collect and board.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the prior art as described above, and it is an object of the present invention to improve the buoyancy type automatic intake system, Which can prevent the intake port from being taken up and down to prevent the intake port from being taken up vertically and to receive the stable water and to improve the workability by facilitating the recovery and boarding of the buoyancy device in case of failure.

In the fixed buoyant type automatic water intake apparatus according to the present invention,
A buoyancy unit having buoyancy to float on the water surface, a double-disk type inlet provided at the center of the bottom of the buoyancy unit, and a control unit for controlling a relative position of the double disk- A water quality measuring sensor which is located in the water and measures the quality of the water at a water intake position of the bottom of the buoyancy pump; and a control unit which controls the inlet control unit according to a measured value of the water quality sensor, An inlet control unit for controlling a relative position of the plate-shaped inlet, a wireless transmission unit for wirelessly transmitting the measurement value of the water quality measurement sensor to a person in charge of water intake, and a solar battery for supplying power to the inlet control unit and the wireless transmission unit A fixed buoyant type automatic water intake apparatus comprising: The buoyancy unit is fixed to a column-shaped buoyancy support extending from the bottom of the water column to the water surface so as to be movable up and down; On both side surfaces of the buoyancy device, a guide member is provided which is slidable upward and downward along the buoyancy support; The height adjustable support is provided at a lower portion of the buoyancy unit so that the double disk type inlet is vertically guided. In addition, the height adjustable support base is provided with a height adjusting frame capable of restricting a lifting / lowering position of the double disk- ; A through hole is formed in the center of the buoyancy unit so that the adjustment rod extending from the double-plate type inlet can pass through the through hole; The buoyancy support is provided with an adjustable cylinder for winding and releasing a wire fixed at one end to the adjustment rod so that the position of the double disk type inlet relative to the water surface at a low water level can be adjusted .

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The details of other embodiments are included in the detailed description and drawings.

The fixed buoyant intake system according to the present invention thus constructed prevents the buoyancy device from tilting or floating freely because the floating body mounted on the lower end of the double disk type inlet moves up and down along the buoyancy support fixed to the bottom of the low water column Thus, there is an advantage that maintenance and repair are convenient at the time of failure.

In addition, a double-disk type inlet for adjusting the water intake position at the lower end of the float is provided, so that it can be moved to an appropriate position according to the measured value of the water quality measuring device and can be taken in a state in which the stable water is not destroyed. Value can be wirelessly transmitted to the water intake manager to remotely check the water intake status.

Fig. 1 is a view showing a structure of a conventional buoyancy type automatic water intake apparatus
Fig. 2 is a block diagram of a fixed-type buoyant automatic intake device
Fig. 3 is a view showing a water intake structure of the fixed buoyant type automatic water intake apparatus of the present invention
Fig. 4 is a view showing a water intake structure of the fixed buoyant type automatic water intake apparatus of the present invention
FIG. 5 is a bottom plan view of the double disk type inlet of the present invention

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings. Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary meanings, and the inventor may appropriately design the concept of the term appropriately to describe its own design in the best way possible. It should be interpreted as a meaning and a concept consistent with the technical idea of the present invention based on the principle that it can be defined.

Therefore, the embodiments described in the present specification and the constitutions shown in the drawings are merely the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. Therefore, various equivalents It should be understood that water and variations may be present.

In order to achieve the above object, the present invention provides an inflow port that is adjustable in position in the middle of the bottom of the buoyancy unit moving upward and downward along the buoyancy support, An inlet control unit for controlling up and down movement of the inlet port of the inlet, an inlet control unit for controlling the inlet control unit for measuring the quality of water in the water, and a wireless transmission unit for transmitting the measured water quality data.

The device of the present invention will be described in more detail. That is, the apparatus of the present invention comprises a column-shaped buoyancy support 10 that extends from the lower surface to the water surface, a floating buoyancy support 10 which floats up and down along the buoyancy support 10, A guide member 22 provided on a side surface of the buoyancy device 20 and guiding the buoyancy device 20 to move up and down along the buoyancy support 10, An inlet valve 32 provided in the double disk type inlet, a water intake pipe 34 for introducing the water taken in the double disk type inlet 30 into the water intake tower, a double disk type A control rod 42 coupled to the inlet 30 and installed through the center of the buoyancy device 20 and connected to the control rod 42 to move the control rod 42 up and down to the bottom of the buoyancy device 20 An inlet regulating portion 40 for regulating the relative position of the double disk type inlet 30 with respect to the bottom surface of the buoyancy device 20, The inlet control unit 50 and the water quality measurement sensor 52 that control the inlet control unit 40 according to the measured values of the water quality measurement sensor 52 and the water quality measurement sensor 52 that measure the quality are wirelessly And a wireless transmission device 60 for transmitting the data to the person in charge.

The configuration and operation of the apparatus of the present invention will be described in more detail with reference to FIGS. 2 and 3. FIG.

The buoyancy support 10 is a pair of cylindrical columns spaced apart from each other by a predetermined distance so as to be fixed to the bottom surface of the low water level and extended to the water surface so that the buoyancy support 20 can be supported without corroding in low water. It is preferably formed of a rigid material.

The buoyancy device 20 floating on the water surface of the low water level and being moved up and down along the buoyancy support 10 is made of stainless steel or a styrofoam having a cylindrical or rectangular shape and floated on the water surface of low water level using the styrofoam or air And guide members 22 are provided on both sides of the buoyancy device 20 so as to be able to slide up and down along the buoyancy support 10 on both sides of the buoyancy device 10. The center of the buoyancy device has a double- Through which the adjusting rods 42 of the main body 10 can pass.

An inlet control part 40, a water quality measuring part 54, an inlet control part 50, a wireless transmission device 60 and a solar cell 70 are installed on the upper surface of the buoyancy device 20, The unit 20 is preferably formed to have sufficient buoyancy to place the control unit provided on the upper surface of the double disk type inlet 30 and the buoyancy unit 20 on the water surface.

The guide member 22 provided on both side surfaces of the buoyancy device 20 is a roller or slider having grooves having the same shape as the outer side surface of the buoyancy support 10 and the buoyancy device 20 is moved along the buoyancy support 10 Supports free movement

The double disk type inlet 30 provided on the bottom surface of the buoyancy device 20 receives the water of low water level and supplies the water taken by the water intake pipe 34 connected to the buoyancy device 20 to the water intake tower, (20) bottom height adjustment support (26) having a structure capable of preventing water having poor water quality from being broken by breaking a stable water of a low water level by a double disk type structure having an inlet opening side, And the water intake position is adjusted.

The lower plate 36 of the double disk type inlet 30 is composed of three to four unit plates 38 and each unit plate 38 is maintained in a closed state by means of an elastic means When the number of the water to be received by the elastic support and the water to be taken is more than a certain quantity, the unit plate (38) of the double disk type inlet (30) And has a structure capable of discharging water.

The inlet port valve 32 is provided at a connection portion between the double disk-shaped inlet port 30 and the water intake pipe 34 to open and close the water intake pipe 34 by operating the inlet valve with hydraulic pressure when water is taken in reverse.

The height adjustable support frame 26 on the lower surface of the buoyancy unit 20 is provided with a height adjusting frame 28 that can restrict the elevating position of the double disk type inlet 30 so that the double disk type inlet 30 moves up and down So as to prevent collision with the bottom surface of the buoyancy device (20).

The inlet port adjusting unit 40 is installed on the upper surface of the buoyancy unit so as to pass through the center of the buoyancy unit 20 and has a lower end The other end of which is fixed to the adjusting rod 42 and the other side of which the wire 44 and the wire 44 which are coupled to the adjusting cylinder 46 are wound And the wire 44 is wound around the adjusting cylinder 46 or loosened to adjust the height of the double disk type inlet 30 and the adjusting cylinder 46 of the inlet adjusting portion 40 Is connected to a motor (not shown), and the rotation is controlled in accordance with a control signal of an inlet control unit 50 to be described later.

The water quality measuring unit 54 calculates the water quality as a measurement value of the water quality measuring sensor 52 that is located in the water and measures the water quality at the water intake position. The water inlet control unit 50 calculates (Not shown) of the adjusting cylinder 46 of the inlet adjusting part 40 according to the water quality to control the position of the double disk-shaped inlet 30, and the water quality measured by the water quality measuring sensor 52 A wireless transmission device 60 is provided at the upper end of the buoyancy device 20 to wirelessly transmit the wireless transmission device 60 to the water intake person in charge.

The water quality measurement sensor 52 is a sensor for measuring the quality of water at the water intake position, and is composed of one or a plurality of sensors such as a pH sensor, a turbidity sensor and a suspension sensor, and extends to a lower portion of the buoyancy device 20, And the water quality measurement unit 54 measures the measured value of the water quality measurement sensor 52. The water quality measurement unit 54 measures the water quality of the water quality measurement sensor 52, And the measured water quality data is transmitted to the inlet control unit 50. The inlet control unit 50 controls the inlet control unit 40 using the transmitted water quality data to calculate the water quality data of the double disk type inlet The wireless transmission device 60 wirelessly transmits the water quality data of the water quality measurement unit 54 to the water intake person in charge and adjusts the water quality of the water to be taken in real time from the remote place You can see have.

The buoyancy unit 20 is provided with a solar cell 70 so that power can be supplied to the inlet control unit 40, the water quality measurement unit 54 and the inlet control unit 50 without supplying power from the ground.

As described above, the present invention comprises an automatic control technology and a remote monitoring system, and the operation of the buoyant type automatic water intake apparatus is performed through the following steps.

The buoyancy device 20 includes a pair of rod-shaped buoyancy support rods 10 fixed to the ground of the reservoir and extending to the water surface of the reservoir, and a guide member 22 provided on a side surface of the buoyancy chamber 20, And moves up and down along the buoyancy support 10 according to the change of the water surface height of the reservoir.

The double disk type inlet 30 is provided at a lower portion of the buoyancy device 20 so that the double disk type inlet 30 is positioned at a certain depth from the water surface due to the upward and downward flow of the buoyancy device 20.

The fixed-type buoyant type automatic intake system for water intake uses a water quality sensor (52) in the water at the current position where the buoyancy device (20) is located to measure the water quality at the water availability position below the buoyancy device (20) And transmits it to the measuring unit 54 to determine the underwater position having the water quality capable of taking water.

When the water quality measuring unit 54 determines that a location having water quality that can be taken out is determined, the location data is transmitted to the inlet control unit 50. The inlet control unit 50 controls the motor of the inlet control unit 40, The length of the wire 44 is adjusted by rotating the cylinder 46 to wind or loosen the wire 44 to the adjusting cylinder 46. [

The other end of the wire 44 fixed to the adjusting cylinder 46 is fixed to the upper end of the adjusting rod 42 fixed to the bottom of the double disk type inlet 30 so that the wire 44 is wound and loosened The intake position of the double disk-shaped inlet 30 located at the lower portion of the buoyancy device 20 is adjusted up and down.

The upward and downward movement of the double disk type inlet 30 is slid along the height adjustment support 26 provided at the lower portion of the buoyancy device 20 and the movement is restricted by the height adjustment frame 28, And has a structure for preventing the plate-shaped inlet 30 from rising and colliding with the lower portion of the buoyancy device 20. [

When the amount of water collected during the water intake is more than a certain amount by using the double-disk flat inlet (30), the unit plate (38) is opened to discharge the water to be taken out. The inlet valve 32 is operated.

The water quality data of the water quality measuring unit 54 can be wirelessly transmitted to the cellular phone or the portable terminal of the person in charge of water taking by using the wireless transmission device 60 so that the water quality of the water being taken can be grasped remotely by the person in charge of water taking in real time, Power is supplied to various control units and operation units for controlling the withdrawal of the buoyant type automatic water intake apparatus by using the solar battery 70 at the upper end of the buoyancy type automatic intake system 20.

In this way, the water quality of the water intake can be measured by the water quality sensor, and the water intake can be adjusted by adjusting the position of the water intake part. As the water volume moves, the buoyancy unit moves in all directions, So that stable water can be taken. In the event of failure, the buoyancy device can be easily recovered and boarded, thereby improving workability.

10: buoyancy support 20: buoyancy
22: guide member 24: through hole
26: height adjustment support 28: height adjustment frame
30: Double disc type inlet 32: Inlet valve
34: intake pipe 36: bottom plate
38: Unit plate 40:
42: adjusting rod 44: wire
46: control cylinder 50: inlet control part
52: Water quality measurement sensor 54: Water quality measurement part
60: wireless transmission device 70: solar battery

Claims (9)

A buoyancy unit having buoyancy to float on the water surface, a double-disk type inlet provided at the center of the bottom of the buoyancy unit, and a control unit for controlling a relative position of the double disk- A water quality measuring sensor which is located in the water and measures the quality of the water at a water intake position of the bottom of the buoyancy pump; and a control unit which controls the inlet control unit according to a measured value of the water quality sensor, An inlet control unit for controlling a relative position of the plate-shaped inlet, a wireless transmission unit for wirelessly transmitting the measurement value of the water quality measurement sensor to a person in charge of water intake, and a solar battery for supplying power to the inlet control unit and the wireless transmission unit A fixed buoyant type automatic water intake apparatus comprising:
The above-
A movable buoyancy support rod extending from a bottom surface of the water storage tank to a water surface so as to be movable up and down;
On both sides of the buoyancy device,
A guide member slidable upward and downward along the buoyant support;
The height adjustable support is provided at a lower portion of the buoyancy unit so that the double disk type inlet is vertically guided. In addition, the height adjustable support base is provided with a height adjusting frame capable of restricting a lifting / lowering position of the double disk- ;
At the center of the buoyancy device,
A through-hole through which the adjusting rod extended from the double-plate-type inlet is formed;
In the buoyancy support,
Wherein the control rod is provided with an adjustable cylinder which can wind or unwind a wire fixed at one end thereof to the control rod so as to adjust the position of the double disk type inlet with respect to a water surface of a low water level. Water intake system. The method according to claim 1,
Wherein the buoyancy unit is a stainless steel or a styrofoam having a cylindrical or quadrangular shape and can float on a water surface of a low water level using a styrofoam or air. The method according to claim 1,
A unit plate for dividing the lower plate of the disk-shaped inlet;
And elastic means for elastically supporting the unit plate and opening the unit plate when a predetermined amount or more is taken. delete delete delete The method according to claim 1,
Wherein the connecting portion of the double disk type inlet and the water intake pipe is provided with an inlet valve that opens and closes when water is taken in the reverse direction. The method according to claim 1,
Wherein the water quality measuring sensor is provided with one or more sensors for detecting the pH, turbidity, and suspended matter of the water intake position. The method according to claim 1,
Wherein the wireless transmission device transmits the measurement value of the water quality measurement sensor to the portable device of the water intake person in charge.

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