KR100952143B1 - Ventilating system with overflow pipe and for distribution well - Google Patents

Abstract

PURPOSE: A drainage area ventilating system functioning as an overflow pipe is provided to make the upper space of the drainage area into a living space for resident by installing a ventilation/overflow pipe on the side of the drainage area. CONSTITUTION: A drainage area ventilating system functioning as an overflow pipe comprises a ventilation/overflow pipe(10), a tower vent(30), a discharge pipe, and a shutoff valve. The ventilation/overflow pipe is connected and installed in the upper side(110) of a drainage area water tub(100). The tower vent is vertically connected to the ventilation/overflow pipe by the connection pipe. One side of the discharge pipe is connected to the connection pipe and the other side is connected to a provisional tub. The shutoff valve is installed on the other side end of the discharge pipe connected to the provisional tub.

Description

Ventilating system with overflow pipe and for distribution well}

The present invention relates to an overflow pipe combined drainage ventilation system, and provides an overflow pipe combined drainage ventilation system that can be used as a resting space for residents by installing the overflow combined ventilator on the side of the drainage.

In general, water purification facilities first receive water at a source such as a river or lake for the first time at the intake station, and a watering well to check the nature of the water arrived, and the soil, sand, and various foreign substances contained in the raw water are submerged. The first sterilization / disinfection by adding chlorine after removing the suspended solids, the mixed paper mixing water after adding the medicine, the flocculation paper which causes the foreign substances in the water to become entangled with each other by the added medicine, and the impurities that are mixed with the medicine A sedimentation basin that slowly sinks to the bottom, a filter paper that removes extra impurities that do not subside from the sedimentation basin, and removes even the smallest impurities; a water purification basin that disinfects and stores the filtered water at the same time; And high-area drainage to prepare for high-water supply.

In addition, the water supply method from the drainage basin to the water supply zone is divided into a non-powered natural water supply method using a height difference, and a pressurized water supply method supplied from a drainage basin to another drainage or water supply area by using a pump or the like. Water supply is widely used.

The natural water supply method as described above is installed as a sealed space in the basement area where the drainage basin is higher than the water supply area, and a plurality of aeration and overflow pipes are installed, depending on the difference in the amount of water entering and exiting the drainage drainage space. To be discharged out or the atmosphere is sucked in.

However, as shown in FIG. 6, the conventional drainage pipe is configured so that the upper drainage pipe 300 is installed in the upper space of the drainage so that a plurality of exhaust pipes protrude from the upper end of the drainage, thereby utilizing a large space above the drainage water. It could not be, and there was a problem that the aesthetic effect due to such a vent.

In particular, considering the current trend of the society seeking to increase the utilization of sports, promenades and rest spaces, such unutilization of the space above the drainage wastes a lot of resources and helps to improve the living environment of local residents. Not giving.

In addition, the vent pipe to be installed is formed in the shape of a cane to prevent foreign matter from entering, the end is located close to the ground, due to the installation structure, rather than the contaminants of the ground flow into the drain through the ventilation and overflow pipe The phenomenon which occurs is occurring.

In particular, drainage is where water is last stored in order to supply water to the water supply area, and it is necessary to prevent the inflow of pollutants and dangerous substances (toxics, etc.). There are several problems, including no means of blocking input (toxics, etc.), which could expose the water supply area to danger.

The present invention is to solve the above problems, the purpose is to install the aeration and overflow pipe on the side of the drainage, overflow pipe combined drainage ventilation system that can be converted into a living space for residents in the upper space of the drainage park To provide.

Still another object of the present invention is to install a ventilation and overflow pipe that can have both a ventilation function and an overflow function, to simplify the structure of the drain pipe and provide an overflow pipe combined drainage ventilation system that can reduce the equipment cost It is.

Still another object of the present invention is to provide an overflow pipe combined drainage system that can provide stable living water to residents of the water supply area by connecting tower vents to the aeration and overflow pipes to block the inflow of hazardous materials. .

Still another object of the present invention is to provide an overflow pipe combined drainage system for maintaining a clean state of the drainage by installing a shutoff valve in the ventilation and overflow pipes to prevent backflow through the ventilation and overflow pipes. .

The present invention is connected to the upper side of the sump reservoir and aeration and overflow pipe having an aeration function and an overflow pipe function, and a tower vent connected by a connecting pipe so as to be perpendicular to the aeration and overflow pipe, the aeration and The outlet pipe is connected to one end by a connecting pipe so as to be in line with the overflow pipe, and the other end is connected to the temporary tank, and a shutoff valve installed at the end of the discharge pipe connected to the temporary tank.

As such, the present invention is connected to the ventilation and overflow pipes are installed on the side of the sump tank, the individual vent pipe is not installed on the upper side of the drainage, through which a large space on the upper side of the sump tank can be utilized as a convenient space for residents.

In addition, the present invention is to serve as both the aeration function and the overflow pipe function of the reservoir, it is possible to simplify the entire pipe installation structure of the reservoir, thereby reducing the equipment cost.

In addition, the present invention is a vent and overflow pipe is installed on the side along the drainage circumference, the vent pipe is not exposed to the upper side of the drainage, it is to be vented to the outside through a single tower vent, so as not to harm the surrounding natural landscape Beautiful beauty can be provided.

In addition, the present invention is connected to the ventilation pipe and the overflow pipe is installed so that the tower vent, free air inlet and air discharge into the drainage, it is possible to block the inflow of foreign matters in particular, especially the inflow of dangerous substances.

In addition, the present invention is the end of the vent and the overflow pipe is connected to the temporary tank, it is possible to quickly discharge the stored water overflowed to the outside of the drainage, the temporary tank by a shutoff valve installed at the end of the vent and overflow pipe There are many effects, such as preventing the backflow of foreign matters inside.

1 is an exemplary view showing a whole planar configuration according to the present invention, Figure 2 is an exemplary view showing a configuration according to the present invention, Figure 3 is an exemplary view showing another one side configuration according to the present invention, Figure 4 Figure 5 shows an exemplary view showing the configuration of the connector according to the invention, Figure 5 shows an exemplary view showing the configuration of the outer pipe according to the present invention, the present invention is connected to the upper side 110 of the drain reservoir (100) Aeration and overflow pipe 10 is installed and provided with an aeration function and an overflow pipe function, and a tower vent 30 connected by a connecting pipe 20 to be perpendicular to the aeration and overflow pipe, and the aeration and One end is connected to the overflow pipe so that it is located in line with the discharge pipe and the other end is connected to the temporary tank 60, and is installed at the end of the discharge pipe connected to the temporary tank (60) A shutoff valve 50 is included.

The aeration and overflow pipe 10 is configured to include a plurality of branch pipes 11 connected to the upper end surface 110 of the sump reservoir, and a main pipe 12 connecting the branch pipes 11.

The branch pipe 11 penetrates through the side of the drainage basin and is connected to the upper end of the drainage basin, and a plurality of branch pipes 11 are installed so as not to be affected by the ditch wall 120 in the drainage basin 100.

The main tube 12 is one side is connected to the plurality of branch pipes 11 and the other side is connected to the connecting pipe 20, is installed along the circumference 200.

The connecting pipe 20 is for connecting the main pipe 12, the tower vent 30 and the discharge pipe 40, as shown in Figure 4, having a 'T' shape, aeration and overflow pipe The first connecting portion 21 is connected to the main pipe 12 of the, the second connecting portion 22 is connected to the discharge pipe 40, the third connecting portion 23 is connected to the tower vent 30, respectively.

In this case, the inner diameter d2 of the second connecting portion is formed to be larger than the inner diameter d1 of the first connecting portion, and the inside of the first connecting portion and the second connecting portion are formed to form a step.

As such, the connection pipe 20 of the present invention is connected to the main pipe 12 and the discharge pipe 40 of the aeration and overflow pipe 10, the flow of the overflowed water is free, the first, second connection portion 21 The difference in the inner diameter of (22) prevents backflow from the discharge pipe to the connection pipe (20).

The tower vent 30 is for discharging the air in the drainage tank 100 to the outside or introducing the air into the drainage tank, and the vertical branch pipe 31 having a lower end coupled to the third connection portion 23 of the connection pipe. And, it is to include a venturita 32 is installed on the upper end of the vertical branch pipe (31). In addition, the tower vent 30 is installed and connected close to the temporary tank 60, the vent venter 32 of the tower vent is installed to be located at a position higher than the upper end surface 210 of the reservoir.

The discharge pipe 40 is one side is connected to the second connecting portion 22 of the connecting pipe and the other side is connected to the temporary tank 60, when the overflow of the reservoir tank, the overflowed water is vented and overflow pipe 10 And it is moved to the discharge pipe 40 along the connection pipe 20 is discharged into the temporary tank (60).

4 and 5, a discharge line 41 having a predetermined depth in the longitudinal direction is formed in the discharge pipe 40, and the discharge line 41 is connected to the connection pipe 20. Depth (L) gradually becomes shallower toward the other end 43 of the discharge pipe in which the shutoff valve 50 is installed at one end 42 of the discharge pipe connected to the second connecting portion 22 of the The other end of the discharge pipe is provided with a tapered shape in which the discharge line disappears, that is, the inner surface of the discharge pipe gradually expands.

The discharge line 41 is to improve the discharge performance by the capillary phenomenon, when a small amount of water is introduced into the discharge pipe 40, the introduced water is collected in the discharge line 41, discharge line 41 The collected water is moved by the capillary phenomenon and is discharged.

The shut-off valve 50 is installed at the end of the discharge pipe 40 connected to the temporary tank 60, open in one direction by water pressure, as shown in Figure 5, temporarily overflows the water moved to the discharge pipe Drain to the tank. The shutoff valve 50 as described above is provided with a non-return valve such as a check valve.

In addition, the other end 43 of the discharge pipe in which the shutoff valve 50 is installed, as shown in Figure 5, the double pipe is provided with an outer pipe 45 made of a filtering net on the outside so that the shutoff valve 50 is located on the inside It is provided with a structure.

That is, an outer pipe 45 made of a filtering net is further installed outside the other end 43 of the discharge pipe connected to the temporary tank, and the outer pipe 45 is detachably installed by a flange bolt coupling to the discharge pipe.

The outer pipe 45 is configured to include a coupling table 46 coupled to the flange 44 of the discharge pipe, and a filter net 47 integrally formed with the coupling table 46 and having a bag shape.

As described above, the outer pipe 45 formed of the filtering net is coupled to the flange 44 of the discharge pipe so that the other end 23 of the discharge pipe having the shutoff valve 50 installed thereon is surrounded by the outer pipe 45.

The temporary tank 60 itself means an external drain or discharge manhole, and the external access is controlled.

The present invention configured as described above is a ventilation and overflow pipe is connected to the side rather than the top of the reservoir, the connection pipe is connected to the ventilation and overflow pipe, the tower vent and the discharge pipe is connected to the connection pipe, Ventilation means do not protrude in the space at the top of the basin, and air flow in and out of the basin tank is freely provided through the aeration and overflow pipes, connecting pipes and tower vents connected to the side of the basin, as well as the aeration and overflow pipes and connections. The overflowed water in the sump tank is moved to the temporary tank through the pipe and the discharge pipe.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

1 is an exemplary view showing an entire planar configuration according to the present invention

2 is an exemplary view showing a configuration according to the present invention

Figure 3 is an exemplary view showing another side configuration according to the present invention

Figure 4 is an exemplary view showing the configuration of the connector according to the invention

5 is an exemplary view showing an outer pipe installation configuration according to the present invention;

Figure 6 is an exemplary view showing a conventional drainage planar configuration

* Explanation of symbols for main parts of the drawings

(10): Aeration and overflow pipe (11): Branch pipe

(12): main tube (20): connector

21: first connection portion 22: second connection portion

(23): third connection section (30): tower vent

(31): vertical branch pipe (32): venturetta

(40): discharge pipe (41): discharge line

(42): One end of the discharge line (43): The other end of the discharge line

(44): discharge line flange (45): outside piping

(46): binding table (47): filtering network

(50): shutoff valve (60): temporary tank

(100): sump basin 110: top basin of drain basin

120: ditch wall 200: drainage basin

(210): upper surface of the sump (300): upper drain pipe

Claims (6)

An aeration and overflow pipe connected to the upper side of the sump reservoir and having an aeration function and an overflow pipe function; A tower vent connected by a connecting pipe so as to be perpendicular to the aeration and overflow pipe, A discharge pipe having one end connected by a connecting pipe and the other end connected to a temporary tank so as to be in line with the aeration and overflow pipes; The overflow pipe combined drainage system comprising a shutoff valve installed at the other end of the discharge pipe connected to the temporary tank. The method according to claim 1; The aeration and overflow pipe includes a plurality of branch pipes connected to the upper side of the sump reservoir and a main pipe connecting the branch pipes, wherein the main pipe is provided along a circumference of the drain. Tubular drainage system. The method according to claim 1; The connecting pipe includes a first connection part connected to the vent and overflow pipe, a second connection part connected to the discharge pipe, and a third connection part connected to the tower vent, The inner pipe of the overflow pipe combined drainage system, characterized in that the inner diameter of the first connecting portion is formed to be smaller than the inner diameter of the second connecting portion. The method according to claim 1; Overflow pipe combined drainage system, characterized in that the discharge pipe having a predetermined depth in the longitudinal direction is further formed in the discharge pipe. The method according to claim 4, The discharge line is an overflow pipe combined drainage system, characterized in that the depth is gradually shallower toward the other end of the discharge pipe is installed from the one end of the discharge pipe is connected to the connecting pipe is installed. The method according to claim 1 or 5, The other end of the discharge pipe in which the shutoff valve is installed, the overflow pipe combined drainage vent system, characterized in that the outer pipe having a filter net is further provided on the outside so that the shutoff valve is located inside.

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