KR100361098B1 - Float Valve with Flotage Control Device - Google Patents

Abstract

The present invention relates to a buoyancy control device for a float valve, the front end of the connecting rod 11 is connected to the end of the rocker arm 12, the lower portion of the connecting rod 11 is provided with a float (inside the float tank 20) 13 is connected, the float 13 is connected so that the buoyancy is adjusted while the connecting rod 11 moves up and down, the connecting rod 16 and the valve disc connected by the rocker arm 12 and the shaft 15 By moving the up and down 17 to adjust the inflow flow rate from the nozzle 18 while opening and closing, it is possible to maintain the level of the control basin of the pressurizing station or the pipe end drain, and, of course, float according to the level of the water tank. By opening and closing the valve disc 17 by the buoyancy of 13), the water shock caused by the sudden closing of the valve does not occur and at the same time, the buoyancy of the float 13 is excluded so that excessive pressure acting on the pipeline is excluded. Prize As the water level is easily adjusted according to the change of sulfur, it greatly solves the inconvenience of operation and maintenance which is a problem in the conventional system, and the float valve buoyancy control device is easily operated and handled. Not only can the water level of the reservoir be stably maintained, but the float valve can be easily and smoothly maintained and operated.

Description

Float Valve with Flotage Control Device

The present invention relates to a float valve, and more specifically, to maintain a constant level of the pressure of the control station of the pressurized field or the end of the pipe end, as well as to open and close the valve disc by the buoyancy of the float according to the level of the water tank Float valve buoyancy control device to facilitate the adjustment of the buoyancy of the float according to the change of the inlet line so that water shock is not generated by the closing of the valve and the excessive pressure acting on the pipeline is excluded. will be.

Generally, as shown in FIG. 1, the float 13 is provided with the buoyancy force according to the inflow pressure of a pipe | line in the pressure control pad of a pressurization field, or the drain of a pipe end.

Here, in the float 13 of the conventional float valve, as shown in FIGS. 1 and 2, the tip of the connecting rod 11 is connected to the end of the rocker arm 12, and the float is connected to the lower end of the connecting table 11. The upper end of the float 13 installed inside the tank 20 is connected, the nozzle 16 and the valve disc 17 connected to the rocker arm 12 and the shaft 15 by moving up and down to open and close the nozzle By adjusting the inflow flow rate in (18), the level of the control station of the pressurized field or the pipe end drain is kept constant.

This conventional float valve is to maintain the water level of the control of the pressure field or the drainage of the end of the pipe while the float 13 is operated up and down in accordance with the pressure of the water flowing into the inside of the float tank 20 through the pipeline, Since the valve disc is opened and closed by the buoyancy of the float according to the water level of the tank, the water shock is not generated by the sudden closing of the valve, and at the same time, the excessive pressure acting on the pipe is excluded.

However, such a conventional float valve, if it is necessary to adjust the buoyancy of the float 13 in accordance with the change in the situation of the inlet pipe, replace the connecting rod 11 connecting the float 13 and the rocker arm 12 or add a weight The buoyancy of the float 13 is adjusted by installing or separating the furnace, or the buoyancy of the float 13 is adjusted by filling and extracting sand, etc. in the float 13, thereby causing a lot of inconvenience in controlling the buoyancy. There is a problem in that it is difficult to maintain and manage the float valve.

The purpose of the present invention is to solve the problem as described above, by connecting the float to adjust the buoyancy while moving up and down the connecting rod, to maintain a constant water level in the control of the pressure field or the drainage of the tube end, of course, Since the valve disc opens and closes according to the water level, the buoyancy of the float is transferred to the inlet pipe by using the buoyancy control device of the float valve so that water shock does not occur due to the rapid closing of the valve and at the same time, the excessive pressure on the pipe is excluded. By easily adjusting the water level according to the change of situation, it is possible to conveniently operate and handle the float valve by greatly solving the inconvenience of operation and maintenance which is a problem in the conventional system, and to maintain the float valve. And float valve parts for convenient operation and management To provide a force regulator.

Figure 1 is a schematic view showing a state in which the buoyancy control device of the float valve is installed in the control of the general pressure field

Figure 2 is an enlarged cross-sectional view showing the main portion of the conventional buoyancy control device.

Figure 3 is an enlarged cross-sectional view showing the main portion of the buoyancy control device of the present invention.

Figure 4 is a cross-sectional view showing an embodiment of the present invention

5 is a perspective view showing a state in which the actuator of FIG. 4 is installed

6 is a perspective view showing a state in which the screw jack of Figure 4 is installed

* Description of the symbols for the main parts of the drawings *

10: buoyancy control device 11: connecting rod

11a: Fastener 11b: Rack

12: rocker arm 13: float

13a: hollow cylinder 14: central axis

15 axis 16: connecting rod

17: valve disc 18: nozzle

20: float tank 30: actuator

31: Pinion 31a: Gear

32: electric motor 33: manual handle

40: screw jack 41: screw shaft

42: worm 43: worm wheel

44: manual handle 45: electric motor

Hereinafter, the technical configuration of the present invention with reference to the accompanying drawings in detail as follows.

As shown in Figure 3, the buoyancy control device of the float valve of the present invention, the front end of the connecting rod 11 is connected to the end of the rocker arm 12, the lower portion of the connecting table 11 float tank 20 Float 13 installed inside the is connected. Then, the float 13 is moved to the upper and lower portions of the connecting table 11 to adjust the buoyancy.

According to the present invention configured as described above, when the buoyancy of the float 13 is to be adjusted according to the change of the situation of the inlet pipe, the conventional float valve is connected to the float 13 and the rocker arm 12 connecting 11. To adjust the buoyancy of the float 13 by replacing or additionally installing or removing the weight, or by filling and withdrawing sand, etc. inside the float 13 to adjust the buoyancy of the float 13, there are many Discomfort was followed, but by using the buoyancy control device 10 to raise and lower the float 13 to the upper and lower portions of the connecting table 11 connecting the float 13 and the rocker arm 12 to manipulate the buoyancy And the handling is made convenient.

Meanwhile, a fastening chain 11a connected to the upper portion of the float 13 is formed, and the hollow cylinder 13a, which is fastened to the fastening chain 11a and moves up and down, is installed through the center of the float 13, When adjusting the buoyancy of the float 13, the connecting rod 11 is configured to be adjusted up and down along the hollow cylinder (13a) and tightened with a fastening chain (11a) is configured to adjust the buoyancy as the float 13 is raised and lowered. Leave it on.

On the other hand, in order to adjust the buoyancy of the float 13, the actuator 30 is installed on the upper portion of the float 13. The actuator 30 is an embodiment of the outer surface of the connecting table 11 in Figs. As shown in FIG. 5, the rack 11b is formed, and the pinion 31 is engaged with and rotated by operating the manual handle 33 and the electric motor 32 to the rack 11b and float 13. ) Will be configured to move up and down. That is, the pinion 31 is geared to the rack 11b formed on the outer surface of the connecting table 11, and the gear 31a is geared to the pinion 31, respectively, so that the pinion 31 is driven by the electric motor 32. The gear 31a is driven by the rotational drive of the manual handle 33. When the electric motor 32 is driven, the rack 11b geared to the pinion 31 is driven up and down according to the rotational direction thereof. At this time, the gear 31a is idling together with the manual handle 33. In addition, when the manual handle 33 is forcibly operated by hand, the gear 31a uses the pinion 31 as an intermediate gear. 31 is driven up and down in accordance with the rotation direction of the gear (11b) coupled to the gear, at this time, the electric motor 32 is axially connected to the pinion (31) is idling. Thus, the float by the vertical drive of the rack (11b) (13) is to be raised and lowered. Here, the electric motor 32 is electric by switch operation by the electric controller The manual handle 33 is forcibly rotated manually and manually operated, and the float 13 can be raised and lowered by selecting either manual or electric movement. In another embodiment, as shown in FIG. 6, the screw shaft 41 is connected to the lower end of the connecting rod 11 to the worm 42, the worm wheel 43, the manual handle 44 and the electric motor 45. The configured screw jack 40 is installed on the float 13, and the screw shaft 41 moves up and down by operating manually or by electric movement to reveal that the float 13 is moved up and down to adjust the buoyancy. The operation of the jack 40 is a worm 42 is geared to the worm wheel 43 screwed to the lower side of the screw shaft 41 in the direction perpendicular to the axis, the manual handle 44 on both sides of the worm 42 And an electric motor 45, respectively. Therefore, the manual handwheel 44 and the front handwheel are provided. When rotational force is transmitted by the selective drive of any one of the electric motors 45 of the same operation type, the worm 42 rotates the worm wheel 43 in the direction perpendicular to the axis, and the screw shaft screwed to the center of the worm wheel 43 ( 41 is rotated so that the float 13 screwed to the screw shaft 41 is raised and lowered. Here, as in the above-described embodiment, the electric motor 45 is operated by an electric controller for switch operation. The manual handle 44 is forcibly rotated by manual operation and manually operated. The float 13 may be raised and lowered by selecting either manual or transmission.

Therefore, the present invention maintains the water level at a constant pressure in the control station of the pressurized field or the end of the pipe end, as well as to prevent the water shock caused by the sudden closing of the valve and at the same time to eliminate the excessive pressure acting on the pipe (13) It is easy to adjust the buoyancy of the according to the environment change of the inlet pipe, it is convenient to operate and handle the buoyancy control device 10, to maintain and manage the buoyancy control device (10) It is effective to make things convenient.

As described above, the present invention connects the float of the float valve to the upper and lower portions of the connecting rod so that the buoyancy is adjusted, thereby maintaining a constant level of the control valve of the pressurizing station or the drainage pipe at the end of the pipe, and according to the level of the water tank. Since the valve disc is opened and closed due to the buoyancy of the float, it is easy to adjust the buoyancy of the float according to the change of the inlet pipe so that water shock does not occur due to the sudden closing of the valve and the excessive pressure applied to the pipeline is excluded. In this way, it is convenient to operate and handle the buoyancy control device of the float valve, it is possible not only to stably maintain the level of the control and drainage, but also to conveniently maintain and manage the float valve. It is a very useful invention.

Claims (4)

delete The tip of the connecting rod 11 is connected to an end of the rocker arm 12, and a float 13 installed inside the float tank 20 is connected to the lower portion of the connecting rod 11, and the rocker arm 12 The inlet flow rate at the nozzle 18 is adjusted while the connecting rod 16 and the valve disc 17 connected to the shaft 15 up and down to open and close, and the float 13 moves to the upper and lower parts of the connecting table 11. In which the buoyancy is adjusted while being moved; A fastening chain 11a is formed on the upper portion of the float 13 and the connecting rod 11, and the connecting rod 11 is hollow cylinder 13a on the hollow cylinder 13a which is fastened to the fastening chain 11a. ) And the hollow cylinder 13a is installed to penetrate the center of the float 13 so that the buoyancy is adjusted as the float 13 moves up and down by tightening with a fastening chain 11a. Float valve buoyancy control device characterized in that for driving up and down to adjust the position of the float (13) by. The method according to claim 2, wherein the actuator 30 is a rack (11b) formed on the outer surface of the connecting table 11, the pinion 31, and the pinion (31) to the pinion 31, respectively, the pinion 31 by gear coupling. ) Is driven by the electric motor 32, the gear 31a is driven by the rotational drive of the manual handle 33, respectively, so that the float (13) is raised and lowered, the float valve buoyancy control device. The worm (3) according to claim 2, wherein the actuator (30) is provided with a screw shaft (41) at the lower end of the connecting table (11), and a worm (23) which is geared at right angles to the worm wheel (43) screwed to the screw shaft (41). The screw shaft 41 is rotated by the driving of the manual handle 44 and the electric motor 45 on both sides of the 42 so that the float 13 screwed to the screw shaft 41 is raised and lowered. Buoyancy control device for float valves.