KR200470604Y1 - Upper Structure of Retractable Down Sluice - Google Patents

Abstract

The present invention relates to a downward-opening gate that is installed to control the water level and discharge flow rate of the water tank of the water and sewage treatment plant, and in particular, provides an upper structure of the downward-opening gate which is characterized in that the floating water is not discharged together. do.
In the upper structure of the down-closing water gate proposed by the present invention, the water gate (A) is in close contact with the water tank (B) of the water and sewage treatment plant, and a guide device is installed on both sides of the water gate to allow the water gate to slide downward from the waterway. In addition, a drive device for connecting the water gate to the upper and lower shafts A1 of the water gate to the upper and lower electric transfer from the guide device is installed, the downward structure configured to open while the water gate (A) is lowered from the water tank (B) of the tank. In the retractable water gate, when the water gate (A) is opened, the water (D) is drained, but the float (C) is characterized in that the water gate (A) top (A0) is composed of the unevenness (1).

Description

Upper Structure of Retractable Down Sluice}

The present invention relates to a downward-opening gate that is installed to control the water level and discharge flow rate of the water tank of the water and sewage treatment plant. In particular, the downward gate is characterized in that floating materials such as vinyl, paper, and plastic are not discharged together when the gate is opened. Provide the top structure of the retractable gate.

As shown in Fig. 1 and Fig. 2, the downward-opening / closing sluice installed to adjust the water level of the water tank of the water and sewage treatment plant has a sluice gate (A) close to the sluice channel (B), and the sluice from the channel on both sides of the sluice gate. A guide device (not shown) for sliding downward is installed, and a driving device (not shown) is installed on the outer surface of the sluice shaft (A1) to allow the gate to move up and down from the guide device. (A) is opened and closed while descending from the channel B of the water tank.

However, conventionally, as shown in Fig. 1, since the upper end A0 of the water gate has no special feature, and mostly has a simple plain pattern, the float C in the waterway at the time of opening the water gate as shown in FIG. There was a problem discharged together.

In this way, if the suspended matter is discharged with water as well as the post-treatment process is not smooth, there was a problem that must be repeatedly repeated means for removing the float for each tank.

Application numbers 1019970013447, 1019980009268, 1019990053350.

The present invention was developed in view of the prior art, and in particular, an object of the present invention is to discharge only the water by allowing the suspended material to be caught at the upper end when the water gate is improved by improving the upper end of the water gate.

In order to achieve the above object, the main configuration of the present invention is characterized in that the upper end of the water gate to open and close the waterway in the concave-convex shape.

The present invention as described above, because the upper end of the water gate is formed in the concave-convex shape, the floating water is caught on the projection when the water gate is opened, there is an effect that can only discharge water into the groove.

Therefore, the present invention facilitates the water treatment process of the next step because the floats are not discharged together during the water level control and the flow rate control of the water supply and sewage treatment plant. There is an advantage to that.

1 shows a conventional example
2 is a diagram illustrating a conventional operation
Figure 3 is an example of the present invention
4 is an operation example of the present invention
5 to 19 is a detailed view and another exemplary view of the present invention.

Hereinafter, preferred embodiments for implementing the present invention will be described in more detail with reference to the accompanying drawings. However, in explaining the present invention, the detailed description of the known technology and the conventional technology registered beforehand may be omitted due to the blurring of the gist of the present invention.

1 and 2, the present invention has a water gate (A) in close contact with the water tank (B) of the water and sewage treatment plant, and a guide device (not shown) for sliding the water gate downward from the water channel on both sides of the water gate. It is installed, the drive device (not shown) for connecting the water gate to the upper and lower lifting shaft (A1) of the water gate to move up / down the guide device from the guide device is installed, the water gate (A) is lowered from the water channel (B) of the tank It is premised on the downward opening / closing sluice which is configured to be open and close.

As shown in FIG. 3, the present invention aims to discharge only the water D by improving the upper end A0 of the water gate A so that the floating water C is caught at the upper end when the water gate is opened. .

In order to achieve the above object, the main constitution of the present invention is characterized in that the upper end A0 of the sluice gate A that opens and closes the waterway B in the prerequisite configuration in the form of unevenness (1).

That is, the present invention, as shown in Figure 4, the upper end (A) of the water gate (A) is formed in the shape of the unevenness (1), the floating material (C) is hung on the projections 11 when opening the water gate, into the groove 12 Only water can be released.

Therefore, the present invention facilitates the water treatment process of the next step, as well as the floating water is not discharged when the water level control and the flow rate control for the water tank of the water and sewage treatment plant, as well as can significantly reduce the burden of the means for removing the float to be carried out for each tank. There is an advantage.

On the other hand, as shown in Figs. 5 to 7, the irregularities 1 are formed in a polygonal shape, i.e., triangular shape 1a or quadrangular shape 1b as shown in Figs. It is preferable to form the wave 1c as shown in FIG.

More ideally, as shown in FIG. 8, the shape of the groove 12 is preferably configured as the Y groove 12a. That is, the Y groove 12a may have an elongated portion 12a1 formed elongated as shown in the lower portion to further improve the capacity of drainage.

More ideally, as shown in Figs. 9 to 10, the upper part of the groove 12 is narrow and the lower part is wide, that is, as shown in Fig. 9, the triangular groove 12b or the groove 12 is shown in Fig. It is more preferred that the groove 12 is configured as an arrow groove (12c) of the form in which it is built. This will allow you to walk more floats and further improve drainage.

As another example, as shown in Figs. 11 to 13, the perforations 2 may be formed at a lower position from the upper end A0 by a predetermined height without forming the upper end A0 with the unevenness. The perforation 2 is preferably composed of a pattern in which a circular shape 2a or a polygonal shape is repeated, and the polygonal shape is composed of a square 2b or a triangle 2c as shown in FIGS. 12 and 13. This is preferred. This will completely block the discharge of suspended solids.

As another example, as shown in Figs. 14 to 19, it is more ideal to form the perforations 2 in the circumferential wall between the groove 12 and the groove 12 in accordance with the shape of the unevenness (1). The shape of the perforation 2 is most preferably a circle (2a), may be formed in a polygonal shape as necessary. In this way, it is possible to maximize the locking effect and the drainage effect of the float.

Although the present invention has been described above, the drawings presented to illustrate the implementation of the present invention may not be suitable for the purpose of highlighting the features by way of example, and the portions that may blur the subject are deleted for convenience. It will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention.

Water Gate (A) Top (A0)
Lift shaft (A1) channel (B)
Float (C) Water (D)
Unevenness (1) Tripod (1a)
Square (1b) wave (1c)
Protrusion (11) Groove (12)
Y Groove 12a Extension 12a1
Triangle groove (12b) Arrow groove (12c)
Perforated (2) Round (2a)
Square (2b) Triangular (2c)

Claims (5)

The water gate (A) is in close contact with the water tank (B) of the water and sewage treatment plant, and a guide device for sliding the water gate downward from the water channel is installed on both sides of the water gate, and the water gate is located above the external lifting shaft (A1) of the water gate. In the downward opening and closing water gate configured to be connected to the drive device for raising and lowering the electric transfer from the guide device to open while lowering the water gate (A) from the water tank (B) of the tank,
When the water gate (A) is opened, the water (D) is drained, but the floating material (C) of the water surface is connected to the protrusion (11) and the groove 12 continuously and repeatedly the upper end (A0) of the water gate (A) Consists of the concave-convex (1), the top structure of the down-opening waterway, characterized in that the groove 12 of the concave-convex (1) is any one of the form of a triangular groove (12b) or arrow groove (12c).
According to claim 1, The top structure of the down-opening waterway door comprising a perforation (2) is formed between the groove (12) and the groove (12) of the unevenness (1). delete delete delete

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