KR102560433B1 - Column pipe device for easy arrangement and installation of submersible pumps - Google Patents

Abstract

The present invention relates to a column pipe device installed in a collecting well and installed to discharge fluids of the collecting well to the outside of the collecting well. The column pipe device for easy arrangement and installation of submersible pumps according to an embodiment of the present invention includes a vertical pipe which is located to be stood in the collecting well and in which a submersible pump is installed, a curved pipe which is connected to a discharge pipe horizontally disposed at an upper part of the vertical pipe, and a flexible pipe which flexibly bends and connects the curved pipe and the vertical pipe to easily change an installation angle of the vertical pipe for the curved pipe and then be arranged. The flexible pipe comprises: a first flange unit which is coupled to an upper end of the vertical pipe; a second flange unit which is connected to the curved pipe facing the vertical pipe; a bending pipe unit which connects the first flange unit and the second flange unit and is flexibly bent; and a spiral reinforcement member which is spirally inserted into the bending pipe unit to prevent the bending pipe unit from being distorted by elasticity. The column pipe device for easy arrangement and installation of submersible pumps includes a hanger connection unit including a plurality of hanger rods that connect the vertical pipe to an upper part of the collecting well to support a weight by hanging the vertical pipe to the collecting well. Accordingly, the present invention can easily arrange and install the vertical pipe.

Description

Column pipe device for easy arrangement and installation of submersible pumps}

The present invention relates to a column pipe device installed in a collecting well to discharge fluid from the collecting well to the outside of the collecting well.

In general, a column pipe for discharging the fluid of the collecting well to the outside is installed in the collecting well, and a submersible pump is installed inside the column pipe to suck in the fluid of the collecting well by the suction and discharge power of the submersible pump and discharge it to the outside of the collecting well.

On the other hand, the column pipe includes a bend pipe bent with a vertical part located at the bottom of the collecting well and a discharge pipe positioned horizontally from the vertical part. Since the vertical part is coupled to the upper part of the collecting well, and the bend pipe is connected to the discharge pipe, if any error occurs in the installation position, there is a problem in that it is difficult to align and install.

In order to solve this problem, Korean Patent Registration No. 10-1605099 (Announced on May 12, 2016) has disclosed a "high-efficiency and long-life vertical pump".

The above-mentioned conventional high-efficiency and long-life vertical pump connects the inlet pipe and the discharge pipe by the first waterproof cover, and configures the position of the discharge pipe to be changed by the height adjusting means, so that the position of the discharge pipe can be easily adjusted and the column pipe can be installed in alignment.

However, in the conventional high-efficiency and long-life vertical pump, since the load of the inlet pipe is applied to the first waterproof cover, not only is the first waterproof cover easily damaged, but also vibration of the inlet pipe is transmitted to the upper part, resulting in damage due to vibration. In addition, when an earthquake occurs, the inlet pipe shakes and the pump is damaged.

The present invention has been devised to solve the above problems, and the problem to be solved by the present invention is to connect the bend pipe and the vertical pipe to each other by a flexible pipe, and connect the vertical pipe to the upper part of the collecting well by the hanger rod, so that the vertical pipe is relatively free to change the position of the vertical pipe in the bend pipe. Not only can the vertical pipe be easily aligned and installed, but also the hanger rod distributes the load applied to the vertical pipe to the top of the collecting well, so it is easy to align and install a submersible pump that can prevent damage to the flexible pipe. It is an object of the present invention to provide a single column pipe device.

In addition, a spiral reinforcing member is installed inside the flexible pipe to prevent the inner diameter from being changed even if the flexible pipe is bent, thereby minimizing the resistance of the discharged fluid, thereby improving the efficiency of the pump. It is an object of the present invention to provide a column pipe device that is easy to align and install.

In addition, an object of the present invention is to provide a column pipe device for easily aligning and installing a submersible pump that can easily adjust the inclination of a vertical pipe in the form of adjusting the height of the hanger rod protruding from the hanger plate by the rod height adjusting member.

In addition, when an earthquake occurs, the vertical pipe suppressing unit operates to connect the vertical pipe and the bend pipe to each other through the hanger rod, thereby minimizing the shaking of the vertical pipe due to the vibration of the earthquake to minimize damage to the submersible pump. It is an object of the present invention to provide a column pipe device that is easy to install.

A column pipe device for easy alignment and installation of a submersible pump according to an embodiment of the present invention for achieving the above object is a vertical pipe in which the submersible pump is installed and installed in a collecting well, a bend pipe connected to a discharge pipe disposed horizontally on top of the vertical pipe, and a flexible pipe that flexibly bends and connects the bend pipe and the vertical pipe so as to easily change and align the installation angle of the vertical pipe with respect to the bend pipe. A column pipe device for easy alignment and installation of the submersible pump The flexible pipe includes a first flange part coupled to the upper end of the vertical pipe, a second flange part connected to the bend pipe facing the vertical pipe, a flexible bending pipe connecting the first flange part and the second flange part, and a spiral reinforcing member inserted into the bending pipe part in a spiral form to prevent the bending pipe part from being distorted by elastic force, and suspending the vertical pipe to the collecting well to support the load. It includes a hanger connection portion including a plurality of hanger rods connecting the.

The hanger connecting part may include a hanger plate that is connected to all of the plurality of hanger rods and spans an upper portion of the collecting well.

The hanger connection unit may include a rod height adjusting member for adjusting heights of the plurality of hanger rods in the hanger plate to change an erection angle of the vertical pipe.

The hanger connecting portion may include an elastic support portion supporting the hanger rod by an elastic force so as to buffer an impact applied to the vertical pipe.

It may include a vertical pipe suppressor for fixing the hanger rod on which the vertical pipe is suspended in close contact with the bend pipe so that the vertical pipe hanging from the hanger rod minimizes shaking due to vibration of an earthquake.

The vertical pipe suppressing unit may include a bend pipe flange portion protruding from the circumference of a portion of the bend pipe to which the flexible pipe is connected, a flange pressing portion located below the bend pipe flange portion in the hanger rod and protruding from the hanger rod, and a rod driving mechanism for driving the hanger rod up and down to fix the vertical pipe to the bend pipe by the hanger rod in a form in which the hanger rod is fixed to the bend pipe while the flange pressing portion is pressed to the bend pipe flange portion. there is

According to the present invention, the vertical pipe and the bend pipe are connected to each other through a flexible pipe so that the position of the vertical pipe can be easily changed in a state where the bend pipe is installed in the discharge pipe, so that the submersible pump installed in the vertical pipe can be easily aligned and installed.

In addition, since the vertical pipe is connected to the upper part of the collecting well by the hanger rod, the load of the vertical pipe is distributed by the hanger rod to prevent damage to the flexible pipe due to the load of the vertical pipe, and a spiral reinforcing member is installed in the flexible pipe to prevent the inner diameter from being deformed when the flexible pipe is bent, thereby reducing the resistance of the fluid discharged, thereby improving the efficiency of the pump.

In addition, by adjusting the height of the plurality of hanger rods by the rod height adjusting member to change the inclination of the vertical pipe, the position of the vertical pipe can be changed and installed at various angles.

In addition, when an earthquake occurs, while the hanger rod is lifted upward by the vertical pipe suppressing unit, the bend pipe and the vertical pipe are connected to the hanger rod to prevent shaking of the vertical pipe, thereby preventing damage to the submersible pump.

1 is a side cross-sectional view showing a column pipe device for facilitating arrangement and installation of a submersible pump according to an embodiment of the present invention.
2 is a perspective view showing a flexible pipe of a column pipe device for facilitating arrangement and installation of a submersible pump according to an embodiment of the present invention.
3 is a cross-sectional side view showing a column pipe device for facilitating alignment and installation of a submersible pump according to an embodiment of the present invention, showing a state in which the inclination of the vertical pipe is changed.
Figure 4 is a cross-sectional side view showing a column pipe device for easy arrangement and installation of a submersible pump according to an embodiment of the present invention, showing the operating state of the vertical pipe suppression unit according to the occurrence of an earthquake.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

As shown in FIG. 1 , the column pipe device 100, in which the arrangement and installation of the submersible pump 200 according to an embodiment of the present invention is easy, may include a vertical pipe 110.

The vertical pipe 110 may suck the fluid of the collecting well 250.

The vertical pipe 110 is positioned vertically in the collecting well 250, so that one end may be positioned below the collecting well 250, and the other end may be positioned at a portion where the bend pipe 120 is located.

The submersible pump 200 is installed in the vertical pipe 110 to suck fluid collected in the collecting well 250 at the lower end of the vertical pipe 110 and discharge it to the opposite end.

Here, the submersible pump 200 may be in the form of an impeller installed by a driving motor, and the impeller may be wrapped in a casing to suction and discharge fluid in the direction of the drive shaft.

The submersible pump 200 may be installed inside the vertical pipe 110, is connected to a cable from the top of the collecting well 250 and is lifted, or supplied with electricity to a drive motor through a cable, and can be controlled by sending and receiving control signals.

As shown in FIG. 1 , the column pipe device 100 in which the arrangement and installation of the submersible pump 200 according to an embodiment of the present invention is easy may include a bend pipe 120.

The bend pipe 120 is connected to the vertical pipe 110 and is connected to the discharge pipe 130 positioned horizontally above the collecting well 250, and is discharged through the submersible pump 200 installed in the vertical pipe 110. Fluid of the collecting well 250 can be received from the vertical pipe 110 and delivered to the discharge pipe 130.

One end of the bend pipe 120 faces the vertical pipe 110, and the other end may be bent in a 90° direction with respect to one end of the bend pipe 120 and coupled to the end of the discharge pipe 130.

A vertical pipe flange portion 111 may be formed around the upper portion of the vertical pipe 110, and a bend pipe flange portion 121 may be formed around the lower portion of the bend pipe 120 facing the vertical pipe 110.

As shown in FIGS. 2 to 4 , the column pipe device 100 in which the arrangement and installation of the submersible pump 200 according to an embodiment of the present invention is easy may include a flexible pipe 140 .

The flexible pipe 140 may be located between the vertical pipe 110 and the bend pipe 120, and the flexible pipe 140 may be partially eccentric with respect to the bend pipe 120 of the collecting well 250, or may be bent to adjust the angle at which the vertical pipe 110 is erected.

The flexible pipe 140 may include a first flange portion 141, a second flange portion 143, and a bendable pipe portion 145, and the flexible pipe 140 may be easily bent and elastically restored. It may be formed of a material having elasticity, such as synthetic rubber, natural rubber, or synthetic resin.

The first flange portion 141 protrudes from the circumference of the lower end of the flexible pipe 140 and overlaps with the vertical pipe flange portion 111 of the vertical pipe 110 located at the lower portion, such as bolts and nuts or rivets. It can be fastened and coupled to each other by a fastening member.

The second flange portion 143 protrudes from the circumference of the upper end of the flexible pipe 140 and is coupled to each other by fastening members such as bolts and nuts or rivets in a state with the bend pipe flange portion 121 located above the second flange portion 143.

Meanwhile, a simplate for reinforcing rigidity of the first flange portion 141 and the second flange portion 143 may be inserted and installed inside the first flange portion 141 and the second flange portion 143 .

The simplate is formed in the form of a ring plate corresponding to the first flange portion 141 and the second flange portion 143, and is stronger than the first flange portion 141 and the second flange portion 143. It may be formed of metal or synthetic resin.

The bent pipe portion 145 is formed in a cylindrical shape to allow fluid to pass therethrough, and the inner diameter of the bent pipe portion 145 may have an inner diameter corresponding to that of the vertical pipe 110 and the bend pipe 120. The bend pipe portion 145 may connect the first flange portion 141 and the second flange portion 143, and may be flexibly bent with elasticity.

When the bent tube portion 145 is bent left and right while permitting contraction in the vertical direction, a spiral reinforcing member 147 in a spiral shape may be inserted along the circumference of the bent tube portion 145 to prevent the bending tube portion 145 from being distorted.

The spiral reinforcing member 147 may be formed of a metal having rigidity like a spring, and the spiral reinforcing member 147 may be elastically deformed to be restored to an initial shape in a deformed state like a spring.

When the flexible tube 140 is bent, the spiral reinforcing member 147 maintains the inner diameter without being distorted by the rigidity of the spiral reinforcing member 147, thereby reducing the resistance of the fluid passing through the inner circumference of the flexible tube 140 to improve the efficiency of the pump.

As shown in FIGS. 3 and 4 , the column pipe device 100 in which the arrangement and installation of the submersible pump 200 according to an embodiment of the present invention is easy may include a hanger connection part 150 .

The hanger connection part 150 may suspend the vertical pipe 110 to the collecting well 250 to distribute the load applied to the vertical pipe 110 to the collecting well 250 .

The hanger connection part 150 may include a hanger plate 153 and a hanger rod 151 .

The hanger plate 153 may be formed in a plate shape, and the hanger plate 153 may span an upper end of the collecting well 250 .

The hanger plate 153 can span the upper end of the collecting well 250 located above where the bend pipe 120 is installed in the collecting well 250, and the hanger plate 153 can support the load of the vertical pipe 110 in the collecting well 250.

In the hanger plate 153 , hanger holes into which hanger rods 151 , which will be described below, may pass through and be inserted, and a plurality of hanger holes may be radially formed around the vertical pipe 110 .

A plurality of hanger rods 151 are radially arranged around the vertical pipe 110 so that the vertical pipe 110 can be suspended from the collecting well 250 .

The hanger rod 151 may be formed in a bar shape and may be vertically erected and disposed with respect to the collecting well 250, and threads may be formed at portions of both ends of the hanger rod 151.

The hanger rod 151 is positioned perpendicularly to the collecting well 250 so that the vertical pipe 110 can be suspended from the collecting well 250 so that the vertical pipe 110 is aligned by its own weight. It can be located through the hanger hole of (153).

At this time, the vertical pipe flange portion 111 is formed to have a larger diameter than the first flange portion 141 of the flexible pipe 140, and the hanger rod 151 may be formed in a circumferential portion that protrudes more than the first flange portion 141. A rod fixing hole 113 through which 151 penetrates and is coupled can be formed.

The hanger connection part 150 may include a rod height adjusting member 155 and an elastic support part 157.

The rod height adjusting member 155 is coupled to the end exposed through the hanger hole of the hanger plate 153 in the hanger rod 151 to adjust the protruding height of the hanger rod 151 from the hanger plate 153. The angle at which the vertical pipe 110 is erected in the collecting well 250 can be adjusted.

The bar height adjusting member 155 is installed in the form of screw fastening to the screw thread of the hanger bar 151 located through the hanger hole, and adjusts the position of the bar height adjusting member 155 by screw fastening. The vertical tube 110 can be aligned in the form of adjusting the height of the hanger bar 151 penetrating the hanger hole.

For example, the upright pipe 110 hangs on the hanger rod 151 and is vertically positioned in the collecting well 250 by its own weight. However, when the upright pipe 110 needs to be tilted at a preset angle and installed as necessary, the length of the hanger rod 151 in the direction to be tilted through the rod height adjusting member 155 among the plurality of hanger rods 151 is relatively shorter or longer than the length of the other hanger rods 151, due to the length difference. The vertical tube 110 may be installed by aligning it in an inclined shape.

The elastic supporting part 157 is located between the bar height adjusting member 155 and the hanger plate 153 in each hanger bar 151, and supports the hanger bar 151 by the elastic force in the hanger plate 153. Vibration generated in the vertical tube 110 can be prevented from being transmitted to the hanger plate 153.

Of course, the elastic support part 157 may perform a function of buffering while the hanger rod 151 presses the elastic support part 157 when shaking occurs in the vertical tube 110 .

The elastic supporting portion 157 may be formed of a material that can be elastically deformed, such as rubber, urethane, silicone, or synthetic resin.

As shown in FIGS. 3 and 4 , the column pipe device 100 in which the arrangement and installation of the submersible pump 200 according to an embodiment of the present invention is easy may include a vertical pipe suppressing unit 160 .

When an earthquake occurs, the vertical pipe suppressing unit 160 is connected to the vertical pipe 110 connected to the flexible pipe 140 through the hanger rod 151 and the bend pipe 120 to be fixedly installed so that the vertical pipe 110 is shaken by the vibration of the earthquake. It can be minimized.

The vertical pipe suppressing unit 160 fixes the hanger rod 151 supporting the vertical pipe 110 to the bend pipe 120 fixedly installed in the collecting well 250 so that the vertical pipe 110 minimizes shaking when an earthquake occurs. The vertical pipe 110 and the bend pipe 120 are connected by the hanger rod 151 to prevent shaking of the vertical pipe 110.

The vertical pipe suppressing portion 160 may include a bend pipe flange portion 121 and a flange pressing portion 163 .

The bend pipe flange portion 121 may be the bend pipe flange portion 121 formed on the bend pipe 120, and may have a larger diameter than the second flange portion 143 while the second flange portion 143 of the flexible pipe 140 is coupled, and the bend pipe flange portion 121 protruding more than the second flange portion 143 has a hanger rod ( A suppression hole 123 through which 151 passes may be formed.

The suppression hole 123 may be formed to have a larger diameter than the diameter of the hanger rod 151 so that the hanger rod 151 can move freely.

In addition, the flange pressing portion 163 may be formed by protruding from the hanger rod 151 penetrating the suppression hole 123 of the bend pipe flange portion 121, and the flange pressing portion 163 may be located at the position of each hanger rod 151 spaced apart from the suppression hole 123 downward.

The flange pressing portion 163 may be formed in a conical shape with a diameter gradually widening toward the bottom, and the flange pressing portion 163 is inserted into the suppression hole 123 when the hanger rod 151 moves upward, while the hanger rod 151 to which the vertical pipe 110 is connected is fixed to the bend pipe flange portion 121, and the vertical pipe 110 is bent by the hanger rod 151 to the bend pipe 120. can be connected to

The vertical pipe suppressing unit 160 may include a rod driving mechanism 161 .

The rod driving mechanism 161 forcibly drives the hanger rod 151 up and down at the top of the collecting well 250 so that the flange pressing portion 163 moves upward and is fixed to the flange pressing portion 163, or while the flange pressing portion 163 moves downward, the fixation of the flange pressing portion 163 can be released.

The rod driving mechanism 161 can move the plurality of hanger rods 151 up and down at once in a form of lifting or lowering the hanger plate 153 to which the plurality of hanger rods 151 are connected from the collecting well 250.

The rod driving mechanism 161 may be implemented as a pneumatic or hydraulic cylinder, and the rod driving mechanism 161 may be implemented as a mechanical mechanism capable of moving the hanger plate 153 up and down in various forms, such as driving a wire and a pulley, driving a rack gear and a driving motor, or rotating a driving motor of a screw rod.

The rod driving mechanism 161 may operate when an earthquake is detected by an earthquake sensor.

When the rod drive mechanism 161 moves the hanger plate 153 upward, the hanger rod 151 connected to the hanger plate 153 moves upward, the vertical pipe 110 is lifted upward, and the flange pressing portion 163 formed in the hanger rod 151 is inserted into the suppression hole 123 formed in the bend pipe flange portion 121 and fixed, the bend pipe 1 by the hanger rod 151. 20) and the vertical tube 110 are connected to prevent shaking of the vertical tube 110.

Hereinafter, actions and effects between each component will be described.

In the column pipe device 100 in which the submersible pump 200 can be easily aligned and installed according to the embodiment of the present invention, the bend pipe 120 is located on the top of the collecting well 250 so that the vertical pipe 110 is positioned toward the bottom of the collecting well 250, and the horizontal end of the bend pipe 120 is connected to the discharge pipe 130 for discharging the fluid of the collecting well 250 to the outside.

A vertical pipe 110 is located inside the collecting well 250, and a submersible pump 200 is installed inside the vertical pipe 110.

In the flexible pipe 140, the first flange portion 141 is coupled to the vertical pipe flange portion 111 formed at the upper end of the vertical pipe 110, and the second flange portion 143 is coupled to the bend pipe flange portion 121 formed at the lower end of the bend pipe 120. When the flexible tube 140 is bent, a spiral reinforcing member 147 is inserted to maintain a cylindrical shape.

In addition, simplates for reinforcing rigidity may be inserted into the first flange portion 141 and the second flange portion 143 .

Meanwhile, the vertical pipe 110 may be installed in a form hanging from the top of the collecting well 250 by the hanger connection part 150, and in the hanger connection part 150, a plurality of hanger rods 151 are disposed around the vertical pipe 110 so that one end of the hanger rod 151 is inserted into and fixed to the rod fixing hole 113 of the vertical pipe flange portion 111, and the other end of the hanger rod 151 passes through the hanger hole of the hanger plate 153 mounted on the top of the collecting well 250.

At this time, the other end of the hanger rod 151 passes through the suppression hole 123 of the bend pipe flange portion 121 and is positioned through the hanger hole of the hanger plate 153.

In addition, the end of the hanger rod 151 penetrating the hanger hole of the hanger plate 153 is fastened by the rod height adjusting member 155, and between the rod height adjusting member 155 and the hanger plate 153 An elastic support portion 157 is installed to block vibration of the vertical pipe 110 from being transmitted through each hanger rod 151.

On the other hand, the hanger rod 151 is configured with a vertical pipe suppressing portion 160 for suppressing the shaking of the vertical pipe 110 when an earthquake occurs, and the vertical pipe suppressing portion 160 has a flange pressing portion 163 protruding in a conical shape from the hanger rod 151 at the bottom of the bend pipe flange portion 121, and a rod driving mechanism 161 for moving the hanger rod 151 up and down. It is configured on the upper part of the collecting well 250 to move the hanger plate 153 located on the upper part of the quartz crystal 250 up and down.

In the column pipe device 100, in which the arrangement and installation of the submersible pump 200 according to the embodiment of the present invention configured as described above is facilitated, when the submersible pump 200 installed in the vertical pipe 110 starts, the fluid in the collecting well 250 is sucked from the lower end of the vertical pipe 110, and the collection well 250 passes through the flexible pipe 140 and the bend pipe 120 through the discharge pipe 130 connected to the bend pipe 120. Fluid can be transported to the outside.

On the other hand, since the vertical pipe 110 in the bend pipe 120 is connected by the flexible pipe 140 and the vertical pipe 110 is connected by a plurality of hanger rods 151 in the column pipe device 100 in which the submersible pump 200 is easily arranged and installed according to the embodiment, when the vertical pipe 110 is installed in the collecting well 250, a part of the vertical pipe 110 is connected to the bend pipe 120. Even if the flexible pipe 140 is slightly misaligned, since the position of the vertical pipe 110 in the bend pipe 120 can be adjusted while the flexible pipe 140 is bent, the position of the vertical pipe 110 can be easily aligned and installed.

Here, when the vertical pipe 110 is installed inclined at a preset angle, the position of the rod height adjusting member 155 coupled to the upper end of the hanger rod 151 located on the upper part of the collecting well 250 is adjusted for screw fastening. By adjusting the length of the plurality of hanger rods 151, the vertical pipe 110 can be aligned and arranged inclined at a preset angle with respect to the bottom of the collecting well 250.

In addition, when vibration occurs in the vertical pipe 110, the elastic force of the elastic support part 157 between the hanger rod 151 and the hanger plate 153 buffers the vibration, and at the same time, even if vibration occurs due to the movement of the water flow inside the water collection well 250 in the vertical pipe 110, the elastic support part 157 can buffer the vibration.

On the other hand, when the occurrence of an earthquake is detected by the earthquake sensor, the rod driving mechanism 161 of the vertical pipe suppressing unit 160 operates to minimize shaking of the vertical pipe 110.

The rod drive mechanism 161 moves the hanger plate 153 upward, and when the hanger plate 153 moves upward, the hanger rod 151 moves upward, moving the vertical pipe 110 upward, and the flexible pipe 140 located between the vertical pipe 110 and the bend pipe 120 is elastically deformed and compressed.

At the same time, as the flange pressing portion 163 formed on the hanger rod 151 is inserted into the suppression hole 123 of the bend pipe flange portion 121, and the vertical pipe 110 and the bend pipe 120 are connected to each other by the hanger rod 151, when vibration of an earthquake occurs, the vertical pipe 110 suspended from the hanger rod 151 is fixed to the bend pipe 120 to prevent shaking of the vertical pipe 110. damage can be minimized.

On the other hand, if the earthquake is not detected by the earthquake sensor while the vertical pipe 110 is fixed by the vertical pipe suppressing part 160, the rod driving mechanism 161 moves the hanger plate 153 downward again to the initial position, and the flange pressing part 163 of the hanger rod 151 is spaced apart from the suppressing hole 123 of the plate portion of the bend pipe 120 while the hanger rod 151 moves downward together. The vertical pipe 110 is suspended from the hanger rod 151 and aligned to an initial position.

Therefore, the column pipe device 100 in which the submersible pump 200 can be easily aligned and installed according to the embodiment of the present invention connects the vertical pipe 110 and the bend pipe 120 to each other by the flexible pipe 140, and installs the vertical pipe 110 in the collecting well 250 in the form of hanging it by the hanger rod 151, thereby easily changing the position of the vertical pipe 110 with respect to the bend pipe 120 and installing the alignment. You can.

In addition, the flexible pipe 140 is connected between the vertical pipe 110 and the bend pipe 120 so that the vibration transmitted between the vertical pipe 110 and the bend pipe 120 can be buffered by the flexible pipe 140, and the hanger rod 151 is elastically supported by the elastic support part 157 and can buffer the vibration applied to the vertical pipe 110.

In addition, the spiral reinforcing member 147 is installed inside the flexible pipe 140 to prevent the inner diameter from being distorted when the flexible pipe 140 is bent, thereby minimizing the deformation of the inner diameter even when the flexible pipe 140 is bent, thereby improving the efficiency of the pump.

In addition, the height of the hanger rod 151 is adjusted on the hanger plate 153 by the rod height adjusting member 155, and the length of the hanger rod 151 supporting the vertical pipe 110 is changed to adjust the position of the vertical pipe 110 to a desired angle. It can be aligned and installed.

In addition, when an earthquake occurs, the hanger rod 151 connects the vertical pipe 110 and the bend pipe 120 by the vertical pipe suppressing unit 160 to improve the bearing capacity of the vertical pipe 110, thereby preventing the vertical pipe 110 from being shaken and damaged.

In the above, the embodiments of the present invention have been described, but the scope of the present invention is not limited thereto, and is easily changed by those skilled in the art from the embodiments of the present invention to which the present invention belongs and is recognized as equivalent All changes and modifications within the range are included.

100: column pipe device 110: vertical pipe
111: vertical pipe flange portion 113: bongo hole
120: bend pipe 121: bend pipe flange part
123: suppression hole 130: discharge pipe
140: flexible pipe 141: first flange
143: second flange portion 145: bent pipe portion
147: spiral reinforcing member 150: hanger connection
151: hanger rod 153: hanger plate
155: bar height adjusting member 157: elastic support
160: vertical pipe suppression unit 161: sewing mechanism
163: flange pressing unit 200: submersible pump
250: collection well

Claims (6)

A vertical pipe installed in a collecting well and having a submersible pump installed therein, a bend pipe connected to a discharge pipe disposed horizontally above the vertical pipe, and a flexible pipe that flexibly bends and connects the bend pipe and the vertical pipe so as to easily change and align the installation angle of the vertical pipe with respect to the bend pipe. A column pipe device for easy alignment installation of a submersible pump,
The flexible tube
A first flange portion coupled to the upper end of the vertical pipe;
A second flange portion connected to the bend pipe facing the vertical pipe;
A bendable pipe portion that connects the first flange portion and the second flange portion and is flexibly bent, and
A spiral reinforcing member inserted into the bent tube portion in a spiral form to prevent the bent tube portion from being distorted by an elastic force,
A hanger connection part including a plurality of hanger rods connecting the vertical pipe to an upper part of the collecting well to support a load by suspending the vertical pipe to the collecting well,
The hanger connection part
The plurality of hanger rods are all connected and include a hanger plate spanning the upper portion of the collecting well, and an elastic support part supporting the hanger rod by an elastic force to buffer an impact applied to the vertical pipe. Column pipe device for easy installation. delete According to claim 1,
The hanger connection part
A column pipe device for easy alignment and installation of a submersible pump, characterized in that it comprises a rod height adjusting member for adjusting the height of the plurality of hanger rods on the hanger plate to change the erection angle of the vertical pipe. delete According to claim 1,
A column pipe device for easy alignment and installation of a water pump, characterized in that it comprises a vertical pipe suppression unit for fixing the hanger rod suspended by the vertical pipe in close contact with the bend pipe so that the vertical pipe hanging from the hanger rod minimizes shaking by vibration of an earthquake. According to claim 5,
The vertical pipe suppression part
A bend pipe flange portion protruding from the circumference of a portion of the bend pipe to which the flexible pipe is connected;
A flange pressing part located below the bend flange part in the hanger rod and protruding from the hanger rod, and
A rod driving mechanism for driving the hanger rod up and down so that the vertical pipe is fixed to the bend pipe by the hanger rod in a form in which the hanger rod is fixed to the bend pipe while the flange pressing part is pressed on the bend pipe flange portion. Column pipe device for easy alignment installation of a submersible pump, characterized in that.

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