KR200407179Y1 - By pass valve structure of intake stoplog - Google Patents

Abstract

The present invention relates to, for example, a bypass valve structure of a water inlet stoplog for checking and maintenance of an intake channel, a hydraulic pipe, and an inlet valve, installed at an intake in an upper reservoir of a pumping power plant. As the opening and closing operation is made by hydraulic pressure, it relates to a bypass valve structure of the intake stoplog, which enables convenient operation and safe use.

To this end, the present invention is installed in the stoplog (2) for opening and closing of the tunnel (1) and the valve body (3) of the intake port for manipulating the opening and closing of the water to be filled is installed at the lowermost inlet (4) side of the stoplog (2). It consists of an upper body (5) and a lower body (7) connected to the upper body (5) by a fastening means (6), such as welding, and the hydraulic generator in the upper and lower bodies (5,7) The opening and closing needle part 9 which is operated by the hydraulic pressure of (8) is connected to the cylinder 11 fixedly installed to the support 10 so as to open and close the inlet 4 of the stop log 2 when it moves forward and backward. Consists of.

Description

By pass valve structure of intake stoplog

1 is a cross-sectional view showing a state in which the bypass valve structure of the stoplog according to the present invention is installed;

2 is a front view of the stoplog of FIG.

3 is a cross-sectional view of the bypass valve structure of the stoplog which is the main part of the present invention;

4 (A), (B) is a view showing the open and closed state of the bypass valve of the stoplog of FIG.

5 is a state diagram of installation of a manual bypass valve of a conventional stoplog.

Explanation of symbols on the main parts of the drawing

1: tunnel, 2: stop-log,

3: valve body, 4: inlet,

5: upper body, 6: fastening means such as welding,

7: lower body, 8: hydraulic generating unit,

9: needle portion, 10: support,

11: cylinder.

The present invention relates to, for example, a bypass valve structure of a water inlet stoplog for checking and maintenance of an intake channel, a hydraulic pipe, and an inlet valve, installed at an intake in an upper reservoir of a pumping power plant. As the opening and closing operation is made by hydraulic pressure, it relates to a bypass valve structure of the intake stoplog, which enables convenient operation and safe use.

In general, the water intake of the upper reservoir of the pumping power station is provided with a stop-log for water supply and a bypass bilge for replenishment for inspection and maintenance of a hydraulic pipe, and the stop log includes a maintenance, management, and It is a water gate facility that prevents the flow of water during maintenance, and the stoplog bypass valve is a device that allows the stoplog to operate smoothly by equalizing the water pressure on both sides of the stoplog before the stall log is raised.

Referring to FIG. 5, a conventional stoplog and bypass gate valve installation structure is connected to a lifting beam 113 to block or open the tunnel 101, and the upper portion of the tunnel 101. A bypass gate valve 116 is provided on the operation rod 115 which is raised and lowered by the operation handle 114 in the intake port 101a formed at the side to open and close the stop log 102 of the intake port 101a. there was.

However, such a bypass gate valve 116 is a shut-off valve for the purpose of system operation. The bypass gate valve 116 is stuck to the gate valve and the seat guide corner of the impurities in the water because it has not been operated for a long time. Occasionally, operation is impossible due to leakage of the rotating part and the operation of the rotating part, and when the water level is lower than the valve installation position at the time of inoperability or initial filling, a separate filling pump is required and the operation handle 114 is The need for manual operation has caused problems such as equipment trouble due to troublesome operation and corrosion.

The present invention has been devised to solve the problems of the conventional manual bypass valve as described above, and the maintenance of the facility is easy as the bypass valve of the stoplog for tunnel blocking is made by using the hydraulic pressure of the hydraulic generator. It is an object of the present invention to provide a bypass valve structure of the intake stop log, which not only improves reliability but also eliminates equipment failure due to corrosion.

The present invention for achieving the above object is in the bypass valve structure of the inlet stoplog installed in the stoplog to operate the opening and closing of the water to be supplied to the inlet pipe, the body of the valve of the stoplog It consists of an upper body installed at the inlet side and a lower body connected to the upper body by a fastening means such as welding, the upper body of the lower body is connected to the cylinder fixed to the support of the needle operating by the hydraulic pressure of the hydraulic generating unit It moves forward and backward to open and close the entrance of this stoplog.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a cross-sectional view showing the installation state of the stop log installed in the tunnel, Figure 2 is a front view of the stop log in Figure 1, Figure 3 is a cross-sectional view showing the bypass valve structure of the stop log which is the main part of the present invention. .

According to the present invention, the valve body 3 of the intake port, which is installed in the tunnel 1 opening / closing stoplog 2 and manipulates the opening and closing of the water to be filled, is shown at the bottom of the stoplog 2. The upper body (5) is installed on the side and the lower body (7) connected to the upper body (5) by a fastening means (6), such as welding, the upper, the lower body (5, 7) The opening and closing needle part 9, which is operated by the hydraulic pressure of the hydraulic generating part 8, is connected to the cylinder 11 fixedly installed on the support 10, and moves forward and backward, so that the inlet 4 of the stop log 2 is moved. To open and close the door.

In the figure, reference numeral 12 denotes a hydraulic supply line.

The present invention made in this way, as shown in Figure 4 (A), (B) the needle portion (9) installed in the inlet (4) of the stop log (2) to the valve body (3) of the cylinder (11) 4 (A) shows the state in which the inlet 4 of the stop log 2 is opened, and FIG. 4 (B) shows the state of the oil pressure generating section 8 by The inlet 4 of this stoplog 2 is closed by the needle part 9 which is operated by the cylinder 11 by the hydraulic pressure supplied through the supply line 12, and advanced.

As described above, the bypass valve structure of the intake stop log according to the present invention has the following effects.

1) There is no concern about corrosion because the hydraulic device, which is the operation part of the valve, is kept in the air.

2) The maintenance of the equipment is easy and the reliability of the equipment is high.

3) Installed at the bottom of the stoplog, there is no influence due to the water level change during the initial filling.

4) Little risk of losing opportunity cost.

5) Simple and safe operation.

Claims (1)

The upper body (5) installed in the stopper (2) for opening and closing of the tunnel (1), and the valve body (3) of the intake port for manipulating the opening and closing of the water to be filled is installed at the lowermost inlet (4) of the stoplog (2). And a lower body 7 connected to the upper body 5 by a fastening means 6 such as welding, and the hydraulic pressure of the oil pressure generating part 8 in the upper and lower bodies 5 and 7. It is characterized in that the opening and closing needle part (9) which is operated by being connected to the cylinder (11) fixedly installed on the support (10) to open and close the inlet (4) of the stop log (2) when moving forward and backward Bypass valve structure of inlet stoplog.

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