KR100890815B1 - Apparatus for preventing pollution of subterranean water - Google Patents

Abstract

A pollution preventive apparatus of subterranean water hollow is provided that the assembling of induction pipe is facilitated. A pollution preventive apparatus of subterranean water hollow comprises an induction pipe(140) which is connected to the water inlet and in which the drainage district is formed as the side, an induction pipe connector(120) in which the drain of the induction pipe is settled in jaw and communicated outlet, a close supporting part(130) which adheres the induction pipe closely to the induction pipe connector. The intimate supporting part includes a housing(131) which is protruded to the outside of the intake pipe and accommodates the circulation part, a pivot axis installed in the inside of the housing in the cross direction, a turning piece(133) which is axis-supported by the pivot axis and turns up and down, a jaw(134) in which the induction pipe.

Description

Apparatus for preventing pollution of subterranean water}

The present invention relates to an apparatus for preventing pollution of groundwater, and in particular, in the mounting structure of the connection socket for guiding and discharging the groundwater pumped from the inside of the intake pipe to the side, the attachment and detachment of the connection socket facilitates easy maintenance. In addition, the present invention relates to a pollution prevention device of groundwater holes for preventing the O-ring for maintaining watertightness at the connection portion of the connection socket from being damaged by surface contact when the connection socket is attached or detached.

In general, a facility for collecting ground water for drinking water or for agricultural and industrial purposes should be installed, and a pollution prevention device should be provided to prevent contamination of the water intake hole from foreign substances from the outside.

Such a pollution prevention device is described in Patent No. 10-0555925 registered by the applicant, and this technical matter will be described with reference to FIGS. 4 and 5 in order to prepare for the present invention.

As shown in FIG. 4, the first intake pipe 200 is embedded to form a groundwater hole in contact with the groundwater layer, and the upper end of the first intake pipe 200 has a sealed watertight cover 220. The second intake pipe 210 having the same diameter is coupled to be welded and integrated, and the first intake pipe 200 is supported by the first intake pipe 200 to discharge the groundwater to the outside. ), And the groundwater stored in the first intake pipe 200 is pumped to the destination by driving the pump 244.

Induction pipe connector 260 is provided in a watertight manner in the second intake pipe 210 to contact the motor pump 244 to discharge the discharge path 262 for discharging the ground water pumped by the pump 244 to the outside To form. The induction pipe connector 260 is integrally and tightly mounted to the first connection socket 264 and the second intake pipe 210 that are ??-shaped induction pipes for contacting the pumping pipe 240. The first connection socket 264 and the second connection socket (266) in contact with the outside can be configured, the first and second connection sockets (264, 266) are formed in the discharge passage 262 therein By this, the motor pump 244 discharges the pumped ground water to the outside.

The induction pipe connector 260 is installed in the second intake pipe 210 in a balanced manner by the fixing means (270b), pumping through the pump pipe 240 by the induction of the first connection socket 264. The ground water to be discharged to the outside of the side of the second intake pipe (210).

As shown in FIG. 5, the fixing means 270b is installed at the ocean surface of the induction pipe connector 260 and the second intake pipe 210 to support the pump 244. 260 serves to support the balance of the second intake pipe (210).

First, the fixing means 270b faces the second protrusion 273 protruding from the induction pipe connector 260 to have the tip 273a inclined, and the inclined tip 273a of the second protrusion 273 faces the corresponding. The second support protrusion 274 protruding from the second intake pipe 210 may have an inclined tip 274a.

The second protrusion 273 and the second support protrusion 274 are face-coupled through the inclined tips 273a and 274a formed to correspond to each other, and the inclined surface coupling is the induction pipe receiving the load of the pump 244. By the weight of the connector 260 is maintained firmly stable.

Therefore, the induction pipe connector 260 supports both sides of the pump 244 in a balanced manner by the second protrusion 273 and the second support protrusion 274 coupled to the inclined surface and the second intake pipe 210. Is installed watertightly).

In addition, since the induction pipe connector 260 is pushed toward the discharge path 262 by an inclination angle when the second protrusion 273 and the second support protrusion 274 are coupled to each other, the induction pipe connector ( 260 is mounted closer to the second intake pipe 210 to have a very good water tightness.

However, the conventional pollution prevention device, in mounting the first connection socket 264 for discharging the pumped ground water to the side in the intake pipe, the discharge path by the fixing means 270b of the inclined wedge shape therein 262 is tightly adhered to the second connection socket 266 formed, but the watertightness is maintained, but when the first connection socket 264 is removed for maintenance of the pollution prevention device, it is firmly adhered by the fixing means 270b. There is a problem that is very difficult to separate it,

In addition, an O-ring is typically installed at the tip of the first connection socket 264 connected to the discharge passage 262 for watertightness, and the first connection socket 264 is connected to the second by inclined fixing means 270b. In the case of moving downward while being pressed while being in close contact with the socket 266, the O-ring is damaged by friction on the surface, thereby rapidly decreasing the watertightness.

The present invention, in order to solve the conventional problems, by installing a rotating piece that rotates up and down about the rotating side in the position where the existing fixing means is installed, the connecting socket, that is, the induction pipe is rotated when the downward movement along the surface of the rotating piece By inducing the close contact with the induction pipe to the inlet pipe connector to facilitate the removal of the induction pipe to facilitate maintenance, and the end of the induction pipe is fitted in the form inserted into the inlet pipe connector to be inserted in the form of damage to the O-ring The purpose of the present invention is to provide a pollution prevention device for groundwater work to prevent water tightness.

In order to achieve the above object, the present invention prevents pollution of groundwater,

In the water pipe is inserted into the ground water hole in the ground water hole pollution prevention device configured to discharge the ground water pumped by the pump in the intake pipe to the side of the intake pipe,

An induction pipe formed at a lower part of the inlet to receive ground water to guide the groundwater inserted into the intake pipe and pumped from the pump toward the side of the intake pipe, and having a drain hole formed at a side thereof while communicating with the inlet;

An inlet pipe connector configured to be discharged penetrating and inserted into a side surface of the intake pipe, and a locking jaw formed at a lower side of the discharge hole located inside the intake pipe, so that the drain hole of the induction pipe is caught by the locking jaw to communicate with the outlet; ;

It is installed in a position opposite to the guide tube connector, and composed of a rotating piece to rotate up and down about the rotating shaft, and a locking jaw formed on the lower side of the rotating piece to rotate the rotating piece when the induction pipe moves downward along the surface of the rotating piece. Consisting of the close contact portion configured to closely contact the induction pipe toward the guide pipe connector.

In addition, the close support portion,

A housing protruding outwardly of the intake pipe to accommodate the pivoting piece;

A rotating shaft installed transversely from the inside of the housing;

A rotating piece pivotally supported by the rotating shaft to rotate in a vertical direction;

It is formed to protrude from the lower side of the rotating piece is a locking jaw is seated and supported by the guide tube.

According to the present invention, when the induction pipe is mounted inside the intake pipe, the induction pipe is brought into close contact with the induction pipe connector by the rotation of the rotation piece when the induction pipe moves downward along the plane of the rotation piece so that the induction pipe can be easily detached. This makes the maintenance easier.

In addition, the front end of the induction pipe is fitted in the form of being inserted into the induction pipe connector has the effect of preventing the breakage of the O-ring to increase the watertightness.

With reference to Figures 1 to 3 attached to an embodiment of the present invention will be described in detail.

1 is a view showing the structure of the pollution prevention device of the groundwater hole according to the present invention, Figure 2 is a view showing a state in which the induction pipe is mounted, Figure 3 is a cross-sectional view of the portion 'A' of FIG. to be.

Since the basic structure is similar to the prior art, the structure and operation of the induction pipe connector 120, the close support 130, and the induction pipe 140, which is the main part of the present invention will be described.

The upper portion of the intake pipe 110 is covered with a cover for preventing the contamination of groundwater from foreign matter from the outside, the lower intake pipe is extended and connected, the side is formed with a through-hole connecting pipe 120 ) Is mounted.

The induction pipe connector 120 is formed with an inclined surface 122 on the rear end of the discharge port 121 made of a tubular body, and a locking step 123 protrudes from the lower side thereof.

Therefore, the front end of the discharge port 121 is inserted from the inside of the intake pipe 110 and exposed to the outside, the inclined surface 122 and the locking jaw 123 is located inside the intake pipe 110, This prevents the departure.

The close support 130 is installed at the opposite position of the induction pipe connector 120 in the intake pipe 110, the rectangular box-shaped housing 131 is provided to protrude out of the intake pipe 110, The rotating shaft 132 is supported and installed in the horizontal direction as shown in FIG. 3 inside the housing 131.

In addition, on the rotating shaft 132 is provided with a rotating piece 133 to rotate in the vertical direction via this, the surface of the rotating piece 133 is to be slightly bent inward to the center portion, then the induction pipe 140 ) Body can be easily contacted with the surface contact.

A locking jaw 134 is protruded from the lower portion of the pivoting piece 133 so that the guide tube 140 is seated and supported.

On the other hand, at the time of mounting the guide tube 140, the upper portion of the rotating piece 133 is located inside the housing 131 to exclude the interference with the guide tube 140, the lower portion of the rotating piece 133 is the housing ( The outer side of the 131, that is, to be further protruded toward the intake pipe 110, for this purpose, the spring 135 is mounted between the lower rear of the rotating piece 133 and the inner side of the housing 133.

Both sides of the spring 135 are inserted into and fixed to the holder 136 formed on the inner side of the housing 131 and the holder 137 formed on the lower rear surface of the rotating piece 133 to elastically support the lower side of the rotating piece 133. Will be done.

Induction pipe 140 is formed with an inlet 141 for receiving the pumped ground water from the pump, the drain port 142 is formed on the side to guide the pumped ground water in a 90 degree direction discharge outlet 121 To be discharged.

On the other hand, the opposite side of the drain port 142 is formed to protrude rearward the body of the guide tube 140 to be mounted on the close support 130.

The mounting and detaching process of the present invention having such a structure will be described.

First, when the induction pipe 140 is moved downward from the inside in the intake pipe 110 at the time of mounting, the portion formed with the drain port 142 is rearward, that is, the inclined surface 122 of the induction pipe connector 120, It moves toward the close contact portion 130.

At this time, the rotating piece 133 of the close support 130 is protruded into the lower portion of the intake pipe 110 by the spring 135, the upper portion is to be located inside the housing 131, the induction pipe ( The rear end of the 140 is moved face down from the center of the rotating piece 133 without interference, and the rotating piece 133 is rotated so that the upper part of the rotating piece 133 is erected as shown in FIG. Contact with the top of the rear end of the

That is, when the rear end lower side of the induction pipe 140 is pressed while the surface contact the lower portion of the rotating piece 133, the upper portion of the rotating piece 133 is rotated to guide the upper end of the rear end of the guide pipe 140 induction pipe connector 120 Pushed towards.

Therefore, the tip of the drain port 142 of the induction pipe 140 is not connected to the inside of the discharge port 121 while being dragged as in the prior art, but the upper part of the rotating piece 133 is pushed from the rear side so that the damage of the O-ring is prevented. It does not occur and can maintain watertightness.

In addition, the induction pipe 140 can be easily mounted without a large force.

On the other hand, the front and rear ends of the induction pipe 140 is seated and supported by the locking jaw 123 of the guide pipe connector 120 and the locking jaw 134 of the close support 130, respectively, the bottom of the housing 131 The engaging projection 138 is formed in the induction pipe 140 so that the induction pipe 140 of the intake pipe 110 is prevented from being pushed into the housing 131 when the induction pipe 140 is mounted. It is to prevent the departure from the inside to the bottom.

Desorption process, when the induction pipe 140 is moved to the upper side, the upper end of the rear end of the induction pipe 140 is pushed behind the upper side of the rotating piece 133, and thus the lower side of the rotating piece 133 is rotated to induce The rear end of the tube 140 is pushed upward.

Therefore, the guide tube 140 is easily separated from the rotating piece 133 to be separated.

1 is a view showing the structure of the pollution prevention device of the groundwater hole according to the present invention.

2 is a view showing a state in which the guide tube is mounted.

3 is a cross-sectional view taken along line AA ′ of FIG. 2;

4 and 5 are views for explaining the prior art.

<Description of the symbols for the main parts of the drawings>

110: intake pipe 120: induction pipe connector

121: discharge port 122: inclined surface

123: locking jaw 130: close support

* 131: housing 132: rotation axis

133: rotating section 134: jamming jaw

135: spring 136,137: holder

138: locking projection 140: induction pipe

141: water inlet 142: drain

Claims (2)

In the water pipe is inserted into the ground water hole in the ground water hole pollution prevention device configured to discharge the ground water pumped by the pump in the intake pipe to the side of the intake pipe, An induction pipe formed at a lower part of the inlet to receive ground water to guide the groundwater inserted into the intake pipe and pumped from the pump toward the side of the intake pipe, and having a drain hole formed at a side thereof while communicating with the inlet; An inlet pipe connector configured to be discharged penetrating and inserted into a side surface of the intake pipe, and a locking jaw formed at a lower side of the discharge hole located inside the intake pipe, so that the drain hole of the induction pipe is caught by the locking jaw to communicate with the outlet; ; It is installed in a position opposite to the guide tube connector, and composed of a rotating piece to rotate up and down about the rotating shaft, and a locking jaw formed on the lower side of the rotating piece to rotate the rotating piece when the induction pipe moves downward along the surface of the rotating piece. Consisting of the close contact portion configured to closely contact the induction pipe toward the guide pipe connector by The close support portion, the housing protrudes to the outside of the intake pipe to accommodate the rotation piece; A rotating shaft installed transversely from the inside of the housing; A rotating piece pivotally supported by the rotating shaft to rotate in a vertical direction; Protruding from the lower side of the rotating piece is a stopping jaw that is guided by the seat is supported; Contamination prevention device of the ground water hole, characterized in that consisting of. According to claim 1, The lower back of the rotating piece, the groundwater pollution prevention device characterized in that the spring is installed.

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