KR200445430Y1 - Solar auto float remover - Google Patents

Abstract

The present invention relates to a device for removing suspended solids (bubbles, scums) floating on the water surface of a chemical mixture, sedimentation or flocculating water in a water treatment plant or sewage treatment plant. In the manner in which the collection hopper 22 connected uniaxially with the 20 is operated without being rotated up and down at a fixed position, the power is driven by the screw jack 10 when the floating material is removed by the storage of sunlight. The collection hopper 22 is lowered to the detection position of the sensor 40 so that the floating material on the water flows into the collecting hopper 22 and is discharged. After the removal of the floating material is completed, the collection jack 22 is driven by driving the screw jack 10. Increase the to a proper position to block the inflow of water. This operation is repeated by setting the timer to remove the float on the surface of the water.

In addition, the water level abnormality detection sensor 41 detects the water level fluctuation when removing the suspended matter, the position of the collection hopper 22 is always set at a constant height on the water surface regardless of the water level change, and the intermittent operation of the screw jack 10 by the timer The driving hopper can minimize the loss of treated water required to remove the suspended matter in the collection hopper 22, and the collection hopper 22 has a circular shape so that the suspended matter can be removed in the entire range. No maintenance is simple.

Foam, scum, float, scum skimmer, defoam, scum, float

Description

     Solar cell of floating matter auto remover system

The first perspective view of assembly of solar automatic float remover

2nd Degree Auto Solar Float Remover

The driving degree of the third degree solar automatic float remover

Flow chart of the fourth degree solar auto float remover

Explanation of symbols

10. Screw Jack

11. Geared Motor

20. Screw Nut

21.Connection pipe

22. Collection Hopper

23. Sensor Bracket

24. Sleeve Pipe

30. The Frame

40. Water level sensor

41. Water level abnormality sensor

50. Cylinder Housing

51. Connecting Flange

60. Drainage Pipe

70. Solar Cell

71. Storage battery

72. Solar Controller

80. Operation Panel

In mixed or sedimentation or sedimentation sites of water treatment plants or sewage treatment plants, suspended solids (bubbles and scums) are generated by reactions with foreign substances and chemicals in water, and it is essential to remove them. There are various equipments for removing floating water on the surface of water purification plant or sewage treatment plant. There is a lot of water consumption, the amount of water discharged with the float is a lot of water reprocessing cost to reprocess it is a problem.

In order to compensate for the above problems, an automatic float remover by the level sensor is installed, but malfunction occurs due to the contact of the float in the water level sensor, and water consumption is high because there is no response to the rapidly changing water level. As a result, power consumption, initial installation cost, and maintenance cost are high.

The present invention is to solve the problems of the prior art as described above

There is no power consumption as a solar power storage facility using solar energy, and a single screw jack 10 is driven by driving a geared motor 11 which is a driving unit of an automatic float remover by power supply by a solar cell 70.

When the floating material is removed, the connection pipe 21 and the collection hopper 22 connected uniaxially with the screw nut 20 on the outer side of the screw jack 10 as the driving unit are lowered in position without rotating, and the connection pipe is lowered. The sensor bracket 23 fixed to the 21 and the proximity level sensor 40 mounted thereon lower the collection hopper 22 to the detection position of the water so that the floats on the water flow into the collection hopper 22. After the removal of the suspended matter is completed, the screw jack 10 is driven to raise the collection hopper 22 to an appropriate position to block the inflow of water. It maximizes the efficiency of suspended solids removal in a short time.

The water level sensor 40 is a capacitive non-contact proximity sensor that does not come in direct contact with water and floats, and no malfunction occurs because foreign matter does not adhere to the sensor, and the abnormal water level sensor 41 detects a rapidly changing water level and always Water loss is minimized by keeping the sensor 40 and the water surface constant.

As such, the present invention aims to improve the effect of removing suspended solids by eliminating power consumption and minimizing water consumption in removing suspended solids.

1, the frame 30 is installed on the ground, the control panel 80 is installed on the rear of the frame 30, and the solar cell is installed on the top of the control panel. The connection pipe 21 and the collection hopper 22 which are fixed to the jack 10 and connected uniaxially to the screw nut 20 which moves up and down according to the screw rotation of the screw jack 10 are driven up and down together, and the collection hopper The sensor bracket 23 fixed to it, and the water level sensor 40 and the water level abnormality sensor 41 attached thereto detect the position of the water surface to adjust the position of the collection hopper 22, and the collection of the hopper 22 Piston pipe (24) is attached to the lower portion of the cone is composed of a piston housing (50) that serves as a guide so that the rise and fall is smooth and shake does not occur.

The solar power storage device is charged by the solar cell 70 by the solar cell 70 to collect the electromotive force generated by the sunlight, and induces a constant voltage to the storage battery 72, the operation panel 80 connected thereto Power is supplied to drive the geared motor 11.

The up-and-down operation position of the collection hopper 22 is determined by the detection of the water level detection sensor 40. The capacitive non-contact sensor maintains a constant distance from the water level surface to detect the water level so that the collection hopper is located at the position where the inflow of floating water is recirculated. The water level abnormality detection sensor 41 is installed at a higher distance than the water level detection sensor 40, and the water level detection sensor 40 is raised again after raising the collection hopper 22 when the water level abnormality detection sensor 41 is operated. It is set up as a structure to prevent a large amount of water inflow when the water level rises until the water level rises.

Unlike other automatic floaters, the present invention has no power consumption due to the automatic power storage method by solar light, and accurately detects the position of the water surface by the water level sensor 40 and the water level abnormality sensor 41 to collect the hopper. Minimize the amount of water consumed when removing suspended solids.

Claims (3)

The frame 30 is installed on the ground, the operation panel 80 is installed on the rear of the frame 30, the solar cell 70 is installed on the upper operation panel, and the screw jack 10 is fixed to the upper part of the front surface of the frame 30. The connection pipe 21 and the collection hopper 22 connected uniaxially to the screw nut 20 which moves up and down according to the screw rotation of the screw jack 10 are vertically operated, and the sensor bracket fixed to the collection hopper ( 23) and the water level sensor 40 and the water level abnormality sensor 41 mounted thereon detect the position of the water surface to adjust the position of the collecting hopper 22, and the piston pipe (below the cone of the collecting hopper 22) 24) is attached to the automatic solar float remover, characterized in that the structure is installed, the piston housing 50, which serves as a guide so that the rise, fall smoothly and shake does not occur The method of claim 1, Solar cell 70 collects electromotive force generated by sunlight and charges the storage battery 72 through the solar cell controller 71 which leads to a constant voltage, and supplies power to the operation panel 80 connected thereto. Photovoltaic automatic float remover, characterized in that the structure to drive the motor 11 The method of claim 1, The level sensor 40 is a capacitive non-contact sensor that maintains a constant distance from the surface of the water level to detect the water level so that the collection hopper is selected at a position where the inflow of floating water is smooth, and the level abnormality sensor 41 is a level sensor. When the water level abnormality detection sensor 41 is operated due to the water level fluctuation, the collecting hopper 22 is raised and then lowered to the position of the water level detection sensor 40 to increase the water inflow. Automatic float remover, characterized in that consisting of a structure to prevent

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