KR101923141B1 - Apparatus for protecting underground water well - Google Patents

Abstract

Disclosed is an apparatus for protecting a ground water tubular well, the apparatus comprising: a tubular casing installed to an upper portion of the ground water tubular well; an outlet pipe fixed to the casing and having an opened upper end in the casing and a lower end positioned at an outside of the casing; an inlet pipe disposed in the casing and connected to a water pump; a coupler pipe disposed in the casing and connected to the outlet pipe; a connection unit for connecting the inlet pipe and the coupling pipe; and a locking unit for preventing the coupling pipe fitted into the outlet pipe from being moved upwardly from the outlet pipe. The locking unit has a locking surface provided on the outlet pipe and facing downwardly, a guide member having a through-hole extending in a vertical direction and fixed to the coupling pipe, a movable member formed in a rod shape extending in the vertical direction, a lower end being provided with a contact surface, in which the contact surface can be positioned at a first position spaced apart from the locking surface in the vertical direction, and a second position which is not opposite to the locking surface, and in which when it is at the first position, the movable member is rotatably fitted into the through-hole of the guide member to be slid in the vertical direction, and a fixing member for maintaining the state in which the contact surface comes into contact with the locking surface. A flow path of the ground water is formed in the casing, thereby easily performing assembling and disassembling process of tubular members.

Description

[0001] Apparatus for protecting underground water well [

[0001] The present invention relates to an apparatus for protecting groundwater wells, and more particularly, to an improved groundwater well protection apparatus for easily and accurately performing assembly and separation operations between pipe members forming a flow path of groundwater .

As shown schematically in Fig. 1, the groundwater well includes a tubular pipe 1 buried in the ground G in the vertical direction, an underwater pump 2 disposed inside the tubular pipe 1, (3) connected to a discharge port of the submersible pump (2), so that the groundwater, which has entered the canal pipe (1), is pressurized by the submerged pump (2) .

Above these groundwater wells, well known, a groundwater well protection device K is installed. The underground water reservoir protecting device K protects the reservoir by covering the upper end of the reservoir (the upper end of the reservoir pipe 1) and is connected to a groundwater supply pipe SL provided outside the reservoir, 2) is supplied to a desired place through a groundwater supply pipe SL. The groundwater guide protecting apparatus K includes pipe members for forming a flow path of the groundwater between the pumping water pipe 3 and the groundwater supply pipe SL and a groundwater supply pipe SL), and the like.

However, in the conventional groundwater canal protection apparatus, it is not easy to assemble and separate the pipe members for forming the flow path of the groundwater between the pumping water pipe 3 and the groundwater supply pipe SL, There is an improvement in that it is difficult to be done correctly.

In order to facilitate assembly and separation between the tubular members, a tapered inner circumferential surface is formed at an end of one tubular member and a tapered outer circumferential surface is formed at an end of the other tubular member so as to be fitted to the inner circumferential surface of the taper, And a plurality of seal rings are provided on the tapered outer circumferential surface of the other tubular member so that the seal rings elastically contact the inner circumferential surface of the tapered tubular member. In the pipe connection structure having such a configuration, since the seal rings are provided on the tapered outer circumferential surface and the seal rings are brought into contact with the inner circumferential surface of the taper, sealing is performed. Therefore, by the water pressure of the groundwater flowing between the pipe members, Even if the tubular member is slightly out of contact with the other tubular member, the seal rings are released from contact with the inner circumferential surface of the taper (that is, the sealed state by the sealing ring is released) There is a risk that the groundwater will leak.

Patent Document 1: Published Patent No. 10-2010-0104443 Patent Document 2: Registration No. 10-1007732

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is an object of the present invention to provide a groundwater protecting apparatus with improved structure so that assembling and separating operations between pipe members forming a flow path of groundwater can be easily and accurately performed .

In order to achieve the above object, a groundwater canal protection apparatus according to the present invention comprises: a pipe-shaped casing which is installed above a groundwater well provided with an underwater pump and extends in a vertical direction; An outlet pipe disposed in the casing and having a lower end connected to the underwater pump so as to allow groundwater discharged from the underwater pump to flow therein; And a lower end of the connection pipe is fitted to an upper end of the outflow pipe and is connected to the outflow pipe, and a drain pipe connected to the inlet pipe to discharge the groundwater introduced into the inlet pipe to the outside of the casing through the connection pipe and the outflow pipe. And a connection unit for connecting the connection pipe to the outlet pipe, And the locking unit includes a guide member which is provided on the outlet pipe and has a downwardly facing engagement surface and a through hole extending in the up and down direction and is fixed to the connection pipe, A first position in which the contact surface faces the engaging surface in a state of being spaced apart from the engaging surface in a first position and a second position in which the contact surface does not face the engaging surface, And a movable member that is vertically movable and rotatably fitted in the through hole of the guide member so as to be able to move up to a position where the contact surface contacts the engaging surface when in the first position, And fixing means for holding the contact surface in contact with the engagement surface.

According to the present invention, the assembling and separating operation between the pipe members disposed in the casing to form the flow path of the groundwater in the casing installed above the pipe can be performed easily and accurately.

These and other effects will be readily apparent from the description of embodiments of the present invention.

1 is a schematic view for explaining a groundwater flow field.
2 is a schematic cross-sectional view of a groundwater well protection apparatus according to an embodiment of the present invention.
3 is a schematic sectional view of the groundwater canal protection device shown in Fig. 2 taken along line III-III.
FIG. 4 is an enlarged cross-sectional view illustrating a connection portion between the connection pipe and the outlet pipe shown in FIG. 2. FIG.
5 is a schematic enlarged view of the connection unit portion shown in Fig.
FIG. 6 is a view of the connection pipe and the outlet pipe portion shown in FIG. 2 in the "VI" direction.
7 is a schematic cross-sectional view taken along line VII-VII of the movable member portion shown in FIG.
8 is a schematic cross-sectional view taken along line VIII-VIII in FIG.
Fig. 9 is a sectional view showing a state in which the movable member shown in Fig. 8 is prevented from being moved to the second position. Fig.
10 is a schematic cross-sectional view showing a state in which the threaded portion between the male screw portion and the female screw portion female threaded portion of the inflow pipe shown in Fig. 5 is released.
11 is a schematic sectional view for explaining a case where the connection pipe shown in FIG. 4 is inserted into the outflow pipe in an inclined state.
12 to 14 are views for explaining the operation of the locking unit.
15 is a schematic cross-sectional view of a groundwater canal protection apparatus according to another embodiment of the present invention.
16 is a schematic cross-sectional view of the bracket portion shown in Fig.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a groundwater canal protection apparatus according to an embodiment of the present invention will be described in detail with reference to the drawings. For reference, at least a part of the parts shown in the drawings may be shown in a state where a scale, a dimension, and the like are appropriately exaggerated or reduced depending on the situation.

2 is a schematic cross-sectional view of a groundwater well protection apparatus according to an embodiment of the present invention. FIG. 3 is a schematic sectional view of the groundwater pipe protecting apparatus shown in FIG. 2, taken along line III-III of FIG. 2, and FIG. 4 is an enlarged cross-sectional view of a connection portion of the connection pipe and the outlet pipe shown in FIG. FIG. 5 is a schematic enlarged view of the connection unit portion shown in FIG. 2, and FIG. 6 is a view of the connection pipe and the outlet pipe portion shown in FIG. 2 in the "VI" direction. FIG. 7 is a schematic cross-sectional view taken along line VII-VII of the movable member shown in FIG. 6, and FIG. 8 is a schematic sectional view taken along line VIII-VIII of FIG.

Referring to FIGS. 2 to 8 together with FIG. 1, the groundwater pipe protecting apparatus 100 of the present embodiment is installed above the groundwater pipe 1, such as the groundwater pipe protecting apparatus K shown in FIG. 1 will be.

This groundwater guide protecting apparatus 100 is provided with a casing 10, an outlet pipe 20, an inlet pipe 30, a connecting pipe 40, a connecting unit, and a locking unit.

The casing (10) is formed in a pipe shape extending in the vertical direction, and is installed above the pipe pipe (1). An outward flange portion 11 protruding from the outer circumferential surface of the casing 10 over the entire circumference of the casing 10 for screwing the casing 10 to the upper end flange 1a of the tubular pipe 1 is provided at the lower end of the casing 10, And an inward flange portion 12 protruding from the inner circumferential surface of the casing 10 so as to support and support the inflow pipe 30 to be described later. A flange portion 13 for coupling with the cover 10a is formed at the upper end of the casing 10. The cover 10a is coupled to the flange portion 13 of the casing 10 by bolts and nuts to protect the inside of the casing 10. [ The casing 10 is further provided with an air vent 15 for discharging the air in the casing 10 and a wire passage hole 19 for supplying electric power to the underwater pump 2 .

The outlet pipe (20) is arranged such that its upper end is open upward in the casing (10) and its lower end is located outside the casing (10). The lower end of the outflow pipe 20 is fixed to the casing 10 by, for example, a welding method or a bolt fixing method. The lower end of the outflow pipe 20 is connected to a groundwater supply pipe SL extending to the place where the groundwater is required. At the upper end of the outlet pipe 20, a coupling section A (see FIG. 4) having a predetermined length in the vertical direction is provided. The inner diameter of the coupling section A is the same throughout the entire length of the coupling section A in the vertical direction.

The inflow pipe 30 is disposed in the casing 10 and connected to the submerged pump 2 through the pumping pipe 3. The lower end of the pumping pipe 3 is connected to the discharge port of the submerged pump 2. The lower end 31 of the inflow pipe 30 is screwed to the male thread 3a formed on the outer periphery of the upper end of the pumping tube 3 And a female screw portion 31a is formed. A hook 33 is provided on the outer peripheral surface of the lower end of the inflow pipe 30 so as to protrude over the inward flange portion 12 of the casing 10. When the inflow pipe 30 is connected to the pumping pipe 3, the groundwater discharged from the underwater pump 2 can be introduced into the inflow pipe 30 through the pumping pipe 3. The upper end portion 32 (hereinafter, the upper end portion of the inflow pipe is sometimes referred to as a "first end portion 32") of the inflow pipe 30 extends in the horizontal direction. A male threaded portion 321 is formed on the outer periphery of the first end portion 32 (upper end portion) of the inflow pipe 30. The water inlet pipe 30 is connected to a water meter 301 for measuring the underground water passing through the inlet pipe 30.

The connection pipe 40 is disposed in the casing 10 and the lower end portion 41 of the connection pipe 40 is connected to the inside of the upper end portion of the outflow pipe 20 (specifically, And is connected to the outlet pipe 20.

A plurality of (in this embodiment, a pair of) annular mounting grooves 45 are vertically arranged on the outer peripheral surface of the lower end portion of the connector pipe 40. A plurality of ring-shaped seal members 411 are mounted on the respective mounting grooves 45. Each seal member 411 is made of an elastic material such as rubber and has the same size as the seal member 411. The seal member 411 is in close contact with the inner circumferential surface of the coupling section A of the outflow tube 20, 40 are sealed. When the groundwater flows from the connection pipe 40 into the outlet pipe 20 in a state where the connection pipe 40 is fitted in the outlet pipe 20 and the outer circumferential surface of the connection pipe 40 Leakage of the groundwater between the inner circumferential surfaces of the outflow pipe 20 is prevented.

On the other hand, between the pair of mounting grooves 45 of the connecting pipe 40, the small diameter portion S1 is provided over a predetermined length L1 in the vertical direction. The outer diameter of the small diameter portion S1 in the present embodiment is gradually reduced toward the upper side. The outer circumferential surface of the small diameter portion S1 is indicated by distinguishing the lower mounting groove and the upper mounting groove as '45a' and '45b' in the lower mounting groove (in FIG. 4, (Hereinafter referred to as " 45a " and " 45b " in the reference numeral of the mounting groove on the upper side) may be formed in a spherical surface having a center of curvature . It is preferable that the small diameter portion S1 is formed so as to extend to the lower mounting groove 45a.

In the lower portion of the lower mounting groove 45a in the connection pipe 40, the outer diameter reduction portion S2 is provided over a predetermined length L2 in the vertical direction. The outer diameter reduction portion S2 is formed up to the lower end of the connecting pipe 40, and is formed so that its outer diameter becomes smaller toward the lower side. In the present embodiment, the outer circumferential surface of the outer diameter reduction portion S2 is a spherical surface having the center point CP of the lower mounting groove 45a as the center of curvature.

A first large diameter portion B1 is provided between the lower mounting groove 45a and the small diameter portion S1 and an outer diameter of the first large diameter portion B1 is larger than an outer diameter of the small diameter portion S1. The second large diameter portion B2 is provided between the lower mounting groove 45a and the outer diameter reduction portion S2 and the outer diameter of the second large diameter portion B2 is larger than the outer diameter of the first large diameter portion B1 And is formed to be larger than the outer diameter of the outer diameter reduction portion S2. The outer diameter of the second larger diameter portion B2 and the outer diameter of the first larger diameter portion B1 are formed to be slightly smaller than the inner diameter of the coupling section A of the outflow pipe 20. The difference in dimension between the outer diameters of the first large diameter portion B1 and the second large diameter portion B2 and the inner diameter of the coupling section A of the outlet pipe 20 is set so as to flow from the connection pipe 40 to the outlet pipe 20 It is set as small as possible in order to prevent leakage of groundwater.

The length L3 (the length in the vertical direction) of the first large diameter portion B1 and the length L4 (the length in the vertical direction) of the second large diameter portion B2 are preferably 1 to 4 mm. If the length L3 of the first large diameter portion B1 and the length L4 of the second large diameter portion B2 are each less than 1 mm, the first large diameter portion B1 and the second large diameter portion B2 If the length L3 of the first large-diameter portion B1 and the length L4 of the second large-diameter portion B2 are larger than 4 mm, respectively, the outlet pipe The ease of operation (the ease of this operation will be described later) of the lower end of the connecting pipe 40 is likely to be drastically lowered.

The length L1 of the small diameter portion S1 (the length in the vertical direction) is preferably 10 to 70 mm. If the length L1 of the small diameter portion S1 is smaller than 10 mm, the ease of operation when inserting the connection pipe 40 into the outlet pipe 20 is likely to be drastically reduced, and the length of the small diameter portion S1 The total length of the outflow pipe 20 is unnecessarily long and the length of the outflow pipe 20 is unnecessarily long so long as the length L1 of the outlet pipe 20 is larger than 70 mm, The possibility of being lost) can be drastically increased.

The upper end portion 42 of the connection pipe 40 may be referred to as a second end portion in the horizontal direction toward the first end portion 32 of the inflow pipe 30 Extended. The connection pipe 40 is connected to the first valve 201, the check valve 202, and the pressure gauge 401. The first valve 201 is provided to selectively block the flow of groundwater from the connection pipe 40 to the outside of the casing 10 through the outflow pipe 20, 1 valve < RTI ID = 0.0 > 201 < / RTI > The check valve 202 allows the flow of groundwater from the connecting pipe 40 to the outside of the casing 10 through the outlet pipe 20 (that is, the flow toward the groundwater supply pipe SL) It is installed to prevent groundwater flow in the opposite direction. The pressure gauge 401 measures the pressure of the groundwater in the connection pipe 40.

The connection unit is provided to detachably connect the inlet pipe 30 and the connection pipe 40. In this embodiment, the connection unit includes a female screw member 50, a stopper portion 421, a seal ring 59 ).

The female screw member 50 is installed at the second end 42 of the connecting pipe 40. Specifically, the female screw member 50 loosely fits into the second end portion 42 of the connection pipe 40, and the female screw member 50 is loosely fitted to the second end portion 42 in a horizontal direction (a direction approaching and separating to the first end portion 32 side ). ≪ / RTI > The female screw member 50 is formed with a female screw portion 51 which can be fastened to the male screw portion 321 formed at the first end portion 32 of the inflow pipe 30. Therefore, when the female screw member 50 is rotated while being fastened to the male screw portion 321 in a state in which the first end portion 32 and the second end portion 42 are opposed to each other, The first end portion 32 of the inflow pipe 30 and the second end portion 42 of the connection pipe 32 are coupled to each other while the internal thread portion 51 and the internal thread portion 51 are screwed together.

The stopper portion 421 is formed on the outer circumferential surface of the second end portion 42 of the connection pipe 40 so as to protrude over the entire circumference of the second end portion 42 thereof. When the female screw member 50 is caught by the stopper portion 421 while the female screw member 50 is moved toward the first end portion 32 side with respect to the second end portion 42 of the connection pipe 40, And the approach movement to the side of the second arm 32 is stopped.

The seal ring 59 is a ring-shaped member made of an elastic material such as rubber or the like and has a second end portion 42 of the connection pipe 40 so as to be positioned between the end surface of the stopper portion 421 and the first end portion 32 As shown in Fig. When the inlet pipe 30 and the connecting pipe 40 are connected to each other, the seal ring 59 elastically contacts the end surface of the first end portion 32, the outer circumferential surface of the second end portion 42 and the stopper portion 421 Thereby sealing the first end portion 32 and the second end portion 42. As a result, leakage of groundwater flowing from the inflow pipe 30 to the connection pipe 40 is prevented.

When the inlet pipe 30 and the connecting pipe 40 are connected by the connecting unit (that is, when the female screw member 50 is fastened to the male screw portion 321 and the first end portion 32 The groundwater introduced from the submerged pump 2 into the inflow pipe 30 flows through the connecting pipe 40 and the outflow pipe 20 to the outside of the casing 10 It can flow into the groundwater supply pipe SL.

The locking unit is provided to prevent the connection pipe 40 fitted in the outflow pipe 20 from flowing upward due to the water pressure of the groundwater in the outflow pipe 20 and includes the engagement surface 25a A guide member 60, a movable member 70, and fixing means.

The catching surface 25a is provided on the outflow pipe 20 and faces downward. The outflow pipe 20 in the present embodiment has a pipe body portion 24 having a path through which groundwater flows and a protruding piece portion 25 protruding from the outer circumferential surface of the pipe body portion 24 And the lower surface of the projecting piece portion 25 serves as the engagement surface 25a. The projecting piece portion 25 can be provided, for example, by fixing a plate-like member to the tube main body portion 24 by welding or the like.

The guide member 60 is fixed to the connection pipe 40 by welding or the like, and is provided with a plurality (in the present embodiment, a pair) so as to be spaced apart in the vertical direction. Each guide member (60) has a through hole (61) extending in the vertical direction.

The movable member 70 has a rod shape extending in the up-and-down direction and is fitted in the through-hole 61 of each guide member 60. The movable member 70 is moved in the vertical direction with respect to the guide member 60 and the movable member 70 in the state of being fitted in the through hole 61 of the guide member 60, And has an outer diameter slightly smaller than the diameter of the through hole 61 of the guide member 60 so as to be rotatable about the center axis as the rotation center.

An upwardly facing contact surface 71 is provided at the lower end of the movable member 70. The movable member 70 is moved in the vertical direction with the engagement surface 25a of the outlet pipe 20 by the rotation of the guide member 60 as shown in Fig. And the second position in which the contact surface 71 does not face the engagement surface 25a as shown in Fig. The contact surface 71 of the movable member 70 comes into contact with the engagement surface 25a of the outflow pipe when the movable member 70 is raised in the first position.

On the other hand, when the contact surface 71 of the movable member 70 is in contact with the engagement surface 25a of the outflow pipe 20, the movable member 70 is rotated to the second position unintentionally, In order to prevent the contact state with the engagement surface 25a from being released, the engagement portion 25b and the rotation preventing portion 72 are provided. In this embodiment, one side surface of the side surface facing the engaging surface 25a of the projecting piece portion 25 is the engaging portion 25b. The rotation preventing portion 72 is provided on the movable member 70 and is formed so as to protrude upward with respect to the contact surface 71. 7 and 8) in which the contact surface 71 of the movable member 70 is in contact with the engagement surface 25a of the outlet pipe 20, The rotation preventing portion 72 is caught by the engaging portion 25b to prevent the movable member 70 from being rotated to the second position even if a rotational force to the second position is applied .

6 and 7, the fixing means is arranged such that the contact surface 71 of the movable member 70 is in contact with the engagement surface 25a of the outflow pipe 20 (specifically, the projecting piece portion 25) The movable member 70 includes a male screw portion 76 formed at an upper end portion of the movable member 70 and a nut member 80 fastened to the male screw portion 76. [ The nut member (80) is provided with a female screw portion that is screwed to the male screw portion (76) of the movable member (70). The nut member 80 is in contact with the upper surface of the uppermost guide member of the guide members 60 when the contact surface 71 of the movable member 70 is in contact with the engagement surface 25a of the outflow tube 20 do. If an intermediate member (not shown) such as a washer is interposed between the uppermost guide member 60 and the nut member 80, the lower surface of the intermediate member is brought into contact with the uppermost guide member 60 The case where the nut member 80 contacts the upper surface of the intermediate member is also included in the meaning of "the nut member contacts the upper surface of the uppermost guide member").

The groundwater canal protection apparatus 100 further includes an auxiliary pipe 90 branched upward from the connection pipe 40 and an auxiliary pipe 90 for selectively blocking the flow of groundwater in the auxiliary pipe 90. [ And a second valve 901 connected to the second valve 901. A known ball valve may be employed as the second valve 901. The auxiliary pipe 90 is connected to the groundwater supply pipe SL connected to the outlet pipe 20 so that the groundwater can not flow out through the outlet pipe 20, The water flowing into the connection pipe 40 from the inflow pipe 30 is discharged through the outflow pipe 20 without passing through the outflow pipe 20 when the inflow pipe 30 is frozen or the groundwater supply pipe SL is damaged, And can be discharged to the outside of the casing (10). When the groundwater pumped by the submersible pump 2 is normally flowed out through the connection pipe 40 and the outlet pipe 20, the second valve 901 is closed to close the auxiliary pipe 90, The second valve 901 is opened to open the auxiliary pipe 90 and the auxiliary pipe 90 is connected to a separate pipe (not shown) To supply the groundwater discharged through the auxiliary pipe 90 to a desired place.

The connection pipe 40 is provided with a drain port (not shown) provided in the casing 10 for discharging the groundwater introduced into the connection pipe 40 from the casing 10 without passing through the outflow pipe 20 or the auxiliary pipe 90 17 is provided with a discharge port 47 connected by a hose H. The drain port 17 is provided with a third valve 171 such as a ball valve so that the drain port 17 can be opened and closed by the operation of the third valve 171. The third valve 171 is normally closed and the third valve 171 is opened to open the drain port 17 to collect the groundwater in the connection pipe 40 for water quality inspection, ) Can be obtained through the drain port (17).

Hereinafter, an example of a process of installing the groundwater well protection device 100 of the present embodiment above the canal will be described.

First, the casing 10 to which the outlet pipe 20 is fixed is connected to the upper end of the pipe pipe 1 by using a bolt and a nut. Thereafter, the inlet pipe 30 connected to the meter 301 and connected to the underwater pump 2 through the water pipe 3 is connected to the inlet pipe 30 at the lower end of the inlet pipe 30, Is placed in the casing (10) in a state in which it extends over the inward flange portion (12) at the lower end of the casing (10). The connection pipe 40 provided with the first valve 201, the check valve 202, the pressure gauge 401 and the movable member 70 is connected to the outflow pipe 20 in a posture perpendicular to the axis The lower end portion 42 of the connection pipe 40 is inserted into the upper end portion of the outlet pipe 20 while maintaining the position and the posture as shown by the solid line in FIG.

On the other hand, when the lower end portion 42 of the connection pipe 40 is inserted into the upper end portion of the outflow pipe 20 and the connection pipe 40 is inserted in the outflow pipe 20 with a slight deviation in the horizontal direction Or even when the connecting pipe 40 is inserted with a slight inclination with respect to the outlet pipe 20 as shown by the imaginary line in Fig. 11, the lower part of the lower fitting groove 45a Since the outer diameter reducing portion S2 is provided on the lower mounting groove 45a, the displacement of the connecting pipe relative to the outlet pipe as described above and the tilting thereof are allowed by the outer diameter reducing portion S2, (411) is inserted into the coupling section (A). Since the small diameter portion S1 having a spherical shape is provided between the lower mounting groove 45a and the upper mounting groove 45b, the connecting pipe 40 is slightly inclined as shown by the imaginary line in FIG. 11 The sealing member 411 mounted on the mounting groove 45b on the upper side is inserted into the coupling section A of the outlet pipe 20 while the inclined portion is allowed by the small diameter portion S1 It is inserted easily to the position just before being inserted.

When the seal member 411 mounted on the upper mounting groove 45b is inserted to a position just before insertion into the coupling section A of the outlet pipe 20, When the posture of the connection pipe 40 is adjusted to be vertical and inserted so that the member 411 can enter into the connection section A of the outlet pipe 20, So that the lower end surface is inserted exactly until it touches the bottom surface 20a of the outflow pipe 20. When the insertion of the coupling pipe 40 is completed and the sealing member 411 mounted on the upper mounting groove 45b is positioned within the coupling section A of the outlet pipe 20, And sealing the gap between the connection pipe 40 and the outlet pipe 20 while elastically contacting the inner circumferential surface of the outlet pipe 20 in the coupling section A of the outlet pipe 20.

As described above, in the present embodiment, even if insertion of the connecting pipe 40 into the outlet pipe 20 proceeds in a posture inclined at a slightly larger angle with respect to the vertical direction, the sealing member 411 is inserted into the outlet pipe 20, the connecting pipe 40 is easily inserted, so that the sealing member 411 mounted to the mounting groove 45a from the beginning or at least on the lower side is inserted into the outlet pipe 20 As compared with the case where the sealing member 411 mounted on the upper mounting groove 45b is inserted while maintaining the vertical posture of the connecting pipe 40 until immediately before the sealing member 411 is inserted into the outlet pipe 20, The inserting operation of the inserting portion 40 can be performed very easily and quickly and accurately.

When the insertion of the connection pipe 40 into the outlet pipe 20 is completed as described above, the upward movement of the connection pipe 40 is prevented by using the locking unit. This will be described in detail as follows.

First, when the insertion of the connection pipe 40 into the outlet pipe 20 is completed, the movable member 70 is positioned at the second position below the projecting piece portion 25 as shown in Fig. 12 The movable member 70 is moved in advance so that the movable member 70 does not interfere with the projecting piece 25 of the outlet pipe 20 before or during the inserting operation of the connection pipe 40, Is held at the second position and the insertion operation of the connection pipe 40 is continued). The movable member 70 is held in the hand while the movable member 70 is located at the second position and the central axis of the movable member 70 is rotated in the through hole 61 The movable member 70 is placed in the first position as shown in Fig. The contact surface 71 provided at the lower end of the movable member 70 faces the engagement surface 25a below the engagement surface 25a provided on the projecting piece 25 of the outflow pipe 20. [

The movable member 70 is pulled upward so that the contact surface 71 of the movable member 70 is brought into contact with the engagement surface 25a of the outlet pipe as shown in Fig. Is brought into contact with the upper surface of the guide member 60 on the upper side as shown in Fig. The nut member 80 fastened to the male screw portion 79 of the movable member 70 is caught by the upper surface of the upper guide member 60 to prevent the movable member 70 from falling down, (71) is prevented from falling off the engagement surface (25a) of the outflow pipe (20) accurately and reliably. That is, the coupling state of the connection pipe 40 with respect to the outflow pipe 20 is accurately and reliably maintained.

Since the contact surface 71 of the movable member 70 provided on the connection pipe 40 is firmly held in contact with the engagement surface 25a of the outlet pipe 20 as described above, The connection pipe 40 inserted into the upper end of the outlet pipe 20 is reliably prevented from flowing upward from the outlet pipe 20 by, for example, water pressure in the outlet pipe 20. [

10, after the inlet pipe 30 and the connection pipe 40 are disposed at predetermined positions in the casing 10, the first end portion 32 of the inlet pipe 30 and the connection pipe 40 are connected to each other, The female screw member 50 is rotated while being moved toward the first end portion 32 in a state where the second end portion 42 of the first end portion 32 faces the male screw portion 321 of the first end portion 32, Conclude. The first end portion 32 of the inflow pipe 30 and the second end portion 42 of the connection pipe 40 are connected to the seal ring 59 by the fastening of the female screw member 50 to the male screw portion 321 So that the groundwater in the inlet pipe 30 can flow into the connecting pipe 40. [0050]

The outflow pipe 20 is connected to the groundwater supply pipe SL by using bolts and nuts and the discharge port 47 and the drain pipe 17 are connected by a hose H.

The first valve 201 is opened and the second valve 901 and the third valve 171 are closed so that the groundwater introduced into the inflow pipe 30 by the underwater pump 2 flows into the outflow pipe 20, A power supply line (not shown) connected to the submersible pump 2 is drawn out to the outside of the casing 10 through the wire insertion hole 19 and connected to the power source, (10) is closed, the installation of the groundwater well protection device (100) is completed.

As described above, the groundwater pipe protecting apparatus 100 of the present embodiment has the male threaded portion 321 formed on the outer peripheral surface of the upper end portion (first end portion) 32 of the inlet pipe 30, The connecting pipe 40 is connected to the inlet pipe 30 by a connecting unit including a female screw member 50 and the like which are provided at the second end 42 and fastened to the male threaded portion. The inlet pipe 30 and the connecting pipe 40 can be connected to each other using the connecting unit after the inlet pipe 30 and the connecting pipe 40 are separated from each other in the casing 10, The inlet pipe 30 and the connecting pipe 40 can be accurately positioned in the casing 10 in comparison with the case where the heavy structure in which the inlet pipe 30 and the connection pipe 40 are connected is arranged in the narrow casing 10 The work of disposing can be made easily.

On the other hand, when repairing or replacing the pressure gauge 401 or the like provided on the connection pipe 40 or the connection pipe 40 is required, the female screw member 50 fastened to the male screw member 321 is shown in Fig. 10 The first end 32 of the inlet pipe 30 and the second end 42 of the connection pipe 40 are separated by relaxing as shown. Then, the nut member 80 in contact with the upper surface of the upper guide member 60 is rotated to lower the movable member 70 as shown in Fig. 13, and again, So that the contact surface 71 does not face the engagement surface 25a. Thereafter, the inlet pipe 20 is not removed but only the connecting pipe 40 is taken out of the casing 10 to perform the repairing or replacing operation as described above, and then the connecting pipe 40 is inserted into the casing 10 again And the connecting pipe 40 can be firmly fixed with respect to the inlet pipe 30 and the outlet pipe 20 by the connecting unit and the locking unit so that the above- The entire operation for replacement can be easily performed. Therefore, even if the inside of the casing 10 is narrow, the connecting pipe 40 can be easily separated, and therefore, it is advantageous in downsizing the casing 10, and further miniaturizing the whole apparatus.

Meanwhile, it is needless to say that the installation of the groundwater canal protection apparatus 100 is not necessarily performed only in the order as described above, and the order may be appropriately changed according to circumstances.

In this embodiment, the male screw portion 321 is provided on the upper end of the upper end of the inlet pipe 30 and the female screw member 50 and the stopper portion 421 are provided on the connecting pipe 40. That is, Is provided on the inlet pipe 30 and the second end is provided on the connecting pipe 40. The first end portion 32 is formed in the inlet pipe 30 and the second end portion is provided in the connection pipe 40. [ However, the connection pipe 40 may have a first end and the inlet pipe 30 may have a second end. That is, the male screw portion may be formed on the outer periphery of the upper end of the connecting pipe 40, and the female screw member and the stopper portion may be provided on the upper end of the inlet pipe 30.

In this embodiment, the outer circumferential surface of the small diameter portion S1 is spherical, but in some cases, it may be formed as a funnel-shaped tapered surface (conical surface) having a smaller diameter toward the upper side, The portion S2 may also be formed as a tapered surface whose diameter decreases toward the lower side. Even in this case, the operation of inserting the connection pipe 40 into the outlet pipe 20 or disconnecting the connection pipe 40 from the outlet pipe 20 can be easily performed.

Fig. 15 shows a groundwater well protection device 101 according to another embodiment. The groundwater pipe protecting apparatus 101 is connected to the connecting pipe (not shown) by a connecting unit (female thread member 50 or the like) among the respective portions of the inlet pipe 30 as compared with the groundwater pipe protecting apparatus 100 of the above- 40 is fixed to the connecting pipe 40. The lower portion of the connecting pipe 40 is fixed to the connecting pipe 40. [ In this embodiment, as shown in Figs. 15 and 16, brackets 39 and 49 are fixed to the inlet pipe 30 and the connecting pipe 40, respectively, and the bolts 39 and 49, which pass through the brackets 39 and 49, The inlet pipe 30 and the connecting pipe 40 are also fixed below the portion connected by the connecting unit by the bolts 39a and the nuts 39b fastened to the respective bolts 39a. The relative position between the lower end portion 32 of the inlet pipe 30 connected to the pumping pipe 3 and the lower end portion 42 of the connecting pipe 40 connected to the outlet pipe 20 can be more reliably fixed As a result, when the inlet pipe 30 and the connecting pipe 40 are installed in the casing 10 while being connected to the outside of the casing 10 by the connecting unit in advance, It can be more firmly fixed with respect to the pipe 30 so that the installation work of the assembly of the inlet pipe 30 and the connecting pipe 40 can be performed easily and accurately.

The other constitution of the groundwater channel protecting apparatus 101 of this embodiment is the same as the constitution of the groundwater channel protecting apparatus 100 described with reference to Figs. 1 to 14, and therefore, the constitution shown in Figs. 1 to 14 The same reference numerals are given to the same members, and detailed descriptions of the respective members and parts are omitted.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but variations and modifications may be made without departing from the scope of the invention. Can be implemented.

1 ... pipe 2 ... submersible pump
10 ... casing 20 ... outlet pipe
25 ... protruding piece portion 25a ... engaging surface
30 ... inlet pipe 40 ... connector
45 ... mounting groove 411 ... seal member
60 ... guide member 70 ... movable member
71 ... contact surface 72 ... rotation preventing portion
79 ... male thread portion 80 ... nut member
S1 ... small diameter portion S2 ... outer diameter reduction portion
100, 101 ... Groundwater protection system

Claims (5)

delete A casing in the form of a pipe, which is installed above the groundwater well in which the submerged pump is installed and extends in the vertical direction,
An outlet pipe fixed to the casing and having an upper end opened upward in the casing and a lower end located outside the casing;
An inlet pipe disposed in the casing and having a lower end connected to the submersible pump so that groundwater discharged from the submerged pump flows,
A connection pipe disposed in the casing and having a lower end portion fitted to an upper end portion of the outflow pipe and connected to the outflow pipe,
A connecting unit connecting the inlet pipe and the connecting pipe so as to allow the groundwater introduced into the inlet pipe to flow out of the casing through the connecting pipe and the outlet pipe;
And a locking unit for preventing a connection pipe fitted in the outlet pipe from flowing upward from the outlet pipe,
The locking unit includes:
A catching surface provided on the outflow pipe and facing downward,
A guide member having a through-hole extending in the vertical direction and fixed to the connection pipe,
A first position in which the contact surface faces the engagement surface in a state of being spaced apart from the engagement surface in a first position and a second position in which the contact surface does not face the engagement surface, A movable member which is vertically movable and rotatably fitted in the through hole of the guide member so as to be able to move up to a position where the contact surface contacts the engaging surface when in the first position,
And fixing means for holding the contact surface in contact with the engagement surface,
A plurality of guide members are vertically spaced apart from each other,
Wherein,
A male screw portion formed at an upper end of the movable member,
And a nut member having a female threaded portion that is screwed to the male threaded portion and contacting the upper surface of the uppermost guide member of the plurality of guide members when the contacted surface is in contact with the engagement surface, Device. The method of claim 2,
Wherein the outlet pipe has a latching portion,
Wherein the movable member is engaged with the engaging portion when the movable member is about to rotate to the second position in a state where the contact surface is in contact with the engaging surface so as to prevent rotation of the movable member to the second position Wherein the control unit is further provided with a prevention unit. The method of claim 3,
Wherein the outflow pipe has a tube main body portion having a path through which groundwater flows and a protruding piece portion protruding from the outer circumferential surface of the tube main body portion,
Wherein a bottom surface of the projecting piece portion is the engagement surface, and one side surface of the projecting piece portion is the engagement portion,
Wherein the rotation preventing portion is formed to protrude upward with respect to the contact surface. A casing in the form of a pipe, which is installed above the groundwater well in which the submerged pump is installed and extends in the vertical direction,
An outlet pipe fixed to the casing and having an upper end opened upward in the casing and a lower end located outside the casing;
An inlet pipe disposed in the casing and having a lower end connected to the submersible pump so that groundwater discharged from the submerged pump flows,
A connection pipe disposed in the casing and having a lower end portion fitted to an upper end portion of the outflow pipe and connected to the outflow pipe,
A connecting unit connecting the inlet pipe and the connecting pipe so as to allow the groundwater introduced into the inlet pipe to flow out of the casing through the connecting pipe and the outlet pipe;
And a locking unit for preventing a connection pipe fitted in the outlet pipe from flowing upward from the outlet pipe,
The locking unit includes:
A catching surface provided on the outflow pipe and facing downward,
A guide member having a through-hole extending in the vertical direction and fixed to the connection pipe,
A first position in which the contact surface faces the engagement surface in a state of being spaced apart from the engagement surface in a first position and a second position in which the contact surface does not face the engagement surface, A movable member which is vertically movable and rotatably fitted in the through hole of the guide member so as to be able to move up to a position where the contact surface contacts the engaging surface when in the first position,
And fixing means for holding the contact surface in contact with the engagement surface,
Wherein one of the inflow pipe and the connection pipe is provided with a first end having a male screw portion on the outer periphery thereof,
And the other end of the inlet pipe and the connection pipe is provided with a second end,
The connection unit includes:
A female screw member provided on the second end so as to be movable in a direction approaching and separating from the first end side and having a female screw portion engageable with the male screw portion;
And the female screw member is engaged with the female screw member while the female screw member is moved closer to the first end side with respect to the second end portion by the engagement of the female screw member with the female screw member in the direction approaching the first end side, A stopper portion for preventing movement of the member,
And a seal ring which is supported by the outer periphery of the second end to be interposed between the end face of the first end and the stopper of the second end and performs sealing between the first end and the second end,
And the female screw member is fastened to the male threaded portion so that the first end and the second end are connected to each other to be connected to each other and sealing is performed between the first end and the second end by the seal ring. Groundwater protection equipment.

Images