KR200294896Y1 - Do discharge quantity adjustment device of confluence drainpipe - Google Patents

Abstract

The present invention relates to the discharge amount control device of the combined sewage pipe that can be transported to the sewage treatment plant by controlling the amount of sewage mixed with rainwater introduced into the rainwater chamber, and using the valve body (1). The opening and closing opening 2 is installed in the opening and closing opening 2, and the opening and closing opening 2 is linked with the operation of the opening 3 to change its position according to the water level. By partially covering the outlet 101 of the outlet, it is possible to control the amount of water input to the collecting pipe, thereby managing the amount of sewage sent to the sewage treatment plant without human intervention. When the water level reaches a certain level, the opening / closing port 2 blocks the outlet 101 of the valve body 1 to prevent the inflow of river water, and its structure is simple so that there is no risk of failure and it operates without human intervention. As it will be easy to get the advantage in use.

Description

Do discharge quantity adjustment device of confluence drainpipe

The present invention relates to a discharge amount control device of the combined sewage pipe, and more specifically, to control the quantity of sewage mixed with the rainwater introduced into the combined pipe to be transported to the sewage treatment plant.

In general, the sewage transfer method is divided into the classification and confluence, and the classification is to transfer the rainwater and sewage using a separate pipe, and the confluence is to collect the sewage and sewage at the same time and transport them using the same pipeline.

In other words, the classification formula is to transport only sewage from sewage generation areas such as homes and restaurants to sewage treatment ponds, so that the sewage and rainwater pipes are separated so that sewage and rainwater do not mix. And the rainwater can be discharged without a separate treatment process, and the confluence is to transport sewage and rainwater at the same time by transporting sewage and rainwater at the same time without separating sewage and rainwater into a single pipe.

However, it is possible to transport sewage and rainwater at the same time and treat it in sewage treatment plant, but it is possible to treat water with sewage at the same time with a small amount of rainwater.However, when a large amount of rainwater is mixed with sewage, such as rainy season, the sewage treatment plant is treated. Since the capacity is exceeded, the amount of transport to be transported to the sewage treatment plant must be limited to an appropriate amount (planned sewage in the rain) in consideration of the treatment capacity of the sewage treatment plant.

The present invention is to prevent the transport of excess sewage treatment plant by controlling the quantity of water so that only the planned wastewater can be transported into the combined sewage transport pipeline.

For the efficient operation of sewage treatment plants, the classification sewage transport method is preferred to the combined sewage transport method.

However, it takes a lot of time and huge costs to change the existing sewage pipe installed into the classification, so even in the combined sewage transport system, only rainwater flows into the sewage treatment plant (planned sewage during rainy weather), even if rainwater flows into the storm sediment. To this end, in recent years, the discharge amount control device is installed at the inlet of the existing sewage pipe, so that rainwater and sewage mixed with rainwater are not supplied to the sewage treatment plant. It is possible to adjust the amount of tea to avoid.

In addition, various devices have been proposed and used in the prior art to control the amount of tea collected in the sewage pipe.

For example, there is a manual hydrological method to control the number of cars by manually opening and closing the gate by installing a hydrogate in rainforest or ground and a centralized electric gate system that controls multiple gates in one place by installing an electric motor. Manual gates are cumbersome and inconvenient by manually opening and closing the gates. Centralized electric gates can control multiple gates in one place, so the vehicle can be adjusted efficiently. There are drawbacks such as the need for technology, difficult maintenance and high operating costs.

The present invention allows the water supply area of the sewer pipe to be added or subtracted according to the water level by using a float in the above-mentioned conduit sewer pipe, so that the water flow area is reduced when the water level is high, and the water flow area is widened when the water level is low. And by excluding the intervention of manpower it is possible to automatically adjust the water flow area in accordance with the change of the water level by the amount of water supplied to the storm soil, which will be described in detail based on the accompanying drawings.

1 is a cross-sectional view showing the internal configuration of the present invention

Figure 2 is a cross-sectional view showing a state in which the opening and closing of the subject innovation lowered

Figure 3 is a perspective view showing the configuration of the subject innovation

4 is a perspective view showing the valve body of the present invention

5 is a perspective view showing the opening and closing operation unit of the present invention

6 is an exemplary view showing the operating state of the opening and closing operation unit

Figure 7 is an exemplary view showing an embodiment of the height adjustment of the floats Figure 8 is an exemplary view showing a state of use of the subject innovation.

* Explanation of symbols on the main parts of the drawings

1: valve body 101: outlet

102, 102a: fixing bar 103, 201: incision groove

2: opening and closing opening 3:

301: fixture 302: connecting bar

4,4a: adjusting bar 401: adjusting hole

5: Operation port 5a, 5b, 5c, 5d, 5e, 5f: Operation bar

6: adjusting mechanism 7: fixing pin

8: connecting pin 9: spacing support

In order to achieve the above object, the present invention is to install the opening and closing port (2) in the valve body (1) using the opening (3), the opening and closing opening (2) of the operation of the opening (3) whose position is changed according to the water level In conjunction with the buoy (3) is raised when the opening and closing port (2) is lowered by partially covering the outlet 101 of the valve body (1) to adjust the amount of water input to the collecting pipe passage configuration of the present invention Is shown in

That is, the present invention forms a fixed bar 102 at both ends of the valve body 1, which is a T-shaped tube body, and is provided with a switch opening and closing device 2 that slides on the inner diameter of the valve body 1 so that a plurality of opening and closing holes 2 can be provided. It is formed by actuating bars 5a, 5b, 5c, 5d, 5e, and 5f so that the connecting portions of the actuating bars 5a, 5b, 5c, 5d, 5e, and 5f are hinged. The connecting pin 802 coupled to the center of the operating bars 5c and 5d to be rotatably coupled to the lower end of the operating tool 5 is extended to the operating bars 5c and 5d and the fixing bar 102. It rotates through the fixing bar 102 through the space holding | maintenance 901 between.

And Figure 3 shows the accessory of the present invention.

The mouthpiece 3 of the present invention is equipped with an adjusting bar 4 having a plurality of adjusting holes 401 on both sides, and inserting the adjusting tool 6 at a predetermined position of the adjusting bar 4 and adjusting with a fixing pin 7. Fixing by penetrating the ball 401 and forming a fastener 301 at a predetermined position of the ball (3) to connect the adjusting device 6 and the fastener 301 with a connecting bar 302, the upper portion of the operating port The connecting pin 8 is connected to the operation bars 5a and 5b and the upper adjusting hole of the adjusting bar 4 by combining.

Also, as shown in FIG. 7, the fittings 6 are fixed to the adjusting bar 4 through the connecting bars 302 and fixed to the fixing pins 7, and the fixing tools 301 are formed on the upper surface of the fittings 3. By connecting and adjusting the position of the adjusting device 6 by raising and lowering, it is possible to adjust the height of the sub-ball (3) coupled to the valve body (1).

The cutting grooves 103, 201, 303 formed in the valve body 1, the opening and closing openings 2, and the opening 3 are located in the operating range of the operating bars (5e, 5f) of the operating opening 5, respectively. It is formed so as not to interfere, and its size and shape are not limited.

When the rainwater flows into the rainwater tossile during rainy weather and the water level rises above the amount of sewage, the position of the float 3 also rises along the surface as shown in FIG. 7. The length of the operating tool 5 combined with the adjusting bar 4 of 3) is extended and is fixed to the fixing bar 102 by penetrating the center of the operating bars 5c and 5d to raise the sub-ball 3. Due to the extension of the operation bar above the fixed bar coupling portion, the operation bar of the lower fixed bar is also extended in conjunction with this, and the opening and closing port 2 coupled with the lower operation bar of the operation port 5 descends along the inner circumferential surface of the valve body 1. Since the water outlet 101 of the valve body 1 is covered, the amount of sewage sent to the sewage treatment plant can be managed below the amount of sewage (designed sewage) even if rainwater is introduced into the rainwater chamber.

The present invention as described above, since the float 3 rises and falls by the level of rainwater tosoil, the amount of opening and closing of the valve is determined in conjunction with the water level of rainwater tosoil and manages the amount of sewage sent to the sewage treatment plant without human intervention. When the river water flows back into the stormwater chamber, if the water level in the stormwater reaches a certain level, the opening / closing port 2 can block the outlet 101 of the valve body 1 to prevent backflow of the river water. It is easy to use because it is simple and the risk of breakdown and the cost of installation is low and it works without human intervention.

Claims (2)

Forming bars 102 and 102a on both outer ends of the valve body 1, which is a T-shaped tube body, and opening and closing the door 2 for sliding operation to the inner diameter of the valve body 1, a plurality of operations are performed in the opening and closing port 2. Bars 5a, 5b, 5c, 5d, 5e, and 5f are formed so that the connecting portions of the respective operating bars 5a, 5b, 5c, 5d, 5e, and 5f are hinged. The connecting pin 802 coupled to the center of the operating bars 5c and 5d to be rotatably coupled to the lower end of the operating tool 5 is extended to extend between the operating bars 5c and 5d and the fixing bar 102. It is arranged to rotate through the fixing bar 102 through the interval holding hole 901, and the adjusting bar (4) having a plurality of adjusting holes (401) on both sides of the sub-ball (3) and the adjusting bar (4) Insert the adjusting device (6) at a predetermined position and fix the penetrating hole (401) through the fixing pin (7) to form a fastener (301) at a predetermined position of the sub-ball (3) the adjusting device (6) and fixture 301 is connected to the connecting bar 302 and adjusted with the upper operating bars 5a and 5b of the operating tool 5. Discharge amount control device of the combined sewage pipe, characterized in that the structure is combined by inserting the connecting pin (8) to the upper adjustment hole of the bar (4) Discharge of the combined sewage pipe according to claim 1, characterized in that a plurality of adjustment holes 401 are formed in the adjustment bar 4 of the buckle 3 so that the position of the adjustment hole 6 can be raised and lowered to be fixed. Quantity controller