KR102142131B1 - Submersible axial or flow pumps with column pipe seating sensor - Google Patents

Abstract

The present invention relates to a submersible axial or diagonal flow pump with a seating check sensor, which can check a seating state of a submersible axial or diagonal flow pump inside a column pipe. A submersible axial or diagonal flow pump with a seating check sensor in a column pipe, according to an embodiment of the present invention, is a submersible axial or diagonal flow pump with a seating check sensor in a column pipe, which is inserted into and installed inside the column pipe installed to transfer a fluid stored in a storage tank. The submersible axial or diagonal flow pump comprises: an impeller which rotates to suck and discharge the fluid; a driving motor portion for driving the impeller; a suction cover which surrounds the circumference of the impeller and has a suction port for sucking the fluid and a discharge port for discharging the sucked fluid; a cover flange portion protruding from the circumference of the suction cover and formed over the column pipe; and a plurality of seating check sensors which are installed on the bottom of the cover flange portion at a predetermined interval to generate a seating signal according to whether the cover flange portion is seated on the column pipe. Therefore, the seating state of the submersible axial or diagonal flow pump in the column pipe can be easily identified to prevent efficiency and head of the submersible axial or diagonal flow pump from decreasing due to leakage, and secure quick installation.

Description

Submersible axial or flow pumps with column pipe seating sensor

The present invention relates to an underwater livestock pump having a seating confirmation device capable of confirming a seating state of the underwater livestock pump in the column pipe.

In general, the submersible pump is installed in the reservoir to transfer the fluid stored in the reservoir to the outside through the column pipe.

The submersible pump is divided into an underwater centrifugal pump and an underwater livestock pump according to the type of impeller. The underwater centrifugal pump discharges a relatively small volume of fluid by connecting a column pipe to the discharge casing, and the underwater livestock pump is inside the column pipe. It is installed to discharge a relatively large amount of fluid.

On the other hand, the underwater livestock pump is seated by a self-weight on the column pipe, and when the inflow fluid flows back to the discharge port when the underwater livestock pump is started, or if foreign matter is caught, the underwater livestock pump is lifted from the column pipe, and properly If it is not seated, a gap occurs between the underwater livestock pump and the column pipe.

In addition, when installing the underwater livestock pump to the column pipe, it is difficult to check externally even if a gap occurs between the underwater livestock pump and the column pipe.

As described above, when the underwater livestock pump operates while the space between the underwater livestock pump and the column pipe occurs, a part of the fluid discharged through the underwater livestock pump is discharged at an interval wide open to the bottom of the underwater livestock pump. There is a problem that the head and the efficiency are reduced.

In order to solve this, the "pump horizontal holding device" of Korean Patent Registration No. 10-1970756 (Apr. 2, 2019) has been disclosed.

In the conventional pump horizontal holding device, a tilt sensor is installed in the pump to adjust the position of the pump according to the inclination of the pump, thereby preventing the efficiency of the pump from being lowered.

However, the conventional pump horizontal holding device has a problem in that the efficiency of the pump is reduced due to leakage because it is difficult to accurately check the spaced apart state between the support portion of the column pipe and the pump only by tilting the pump.

In addition, it is difficult to check the state of being seated on the column pipe only by the inclination of the pump, which has a problem that it takes a lot of time to install.

In addition, since the tilt sensor senses the tilt in real time, there is a problem in that power is wasted by the tilt sensor.

The present invention has been devised to solve the above problems, and the problem to be solved by the present invention is to accurately identify the seating state of the column pipe and the underwater livestock pump to prevent leakage between the underwater livestock pump and the column pipe. The purpose of the present invention is to provide an underwater livestock pump equipped with a sensor for confirming the seating of the column pipe, which can not only prevent the efficiency and head from falling, but also shorten the installation time and prevent waste of power. do.

An underwater livestock pump equipped with a sensor for confirming the seating of a column pipe according to an embodiment of the present invention for achieving the above-described problem is a column pipe inserted into and installed inside a column pipe installed to transfer fluid stored in a storage tank. In an underwater livestock pump having a seating confirmation sensor, an impeller that rotates to suck and discharge fluid, a drive motor unit that drives the impeller, and surrounds the periphery of the impeller to discharge fluid and suck the fluid. A suction cover having a discharge port formed thereon, a cover flange portion protruding from the circumference of the suction cover and covering the column pipe, and a plurality of cover flange portions installed at predetermined intervals on the bottom surface of the cover flange portion to be seated on the column pipe It includes a seating confirmation sensor that generates a seating signal depending on whether or not.

The seating confirmation sensor measures the current value or resistance value flowing between the pair of contact terminals spaced apart from each other and through which the current flows between the pair of contact terminals as they are contacted or spaced apart from the column pipe to generate a seating signal. It may include a judgment unit.

The seating confirmation sensor is spaced apart from each other, a pair of connection terminals through which electric current flows, and a connection unit that electrically connects the pair of connection terminals to generate a seating signal or electrically disconnects the pair of connection terminals, and the column pipe. When the suction cover is seated, the pressing portion is pressed by the weight of the suction cover to disconnect the connecting portion from the pair of connection terminals, and when the suction cover is spaced apart from the column pipe, the pair of It may include a pressure spring for supporting the pressing portion by an elastic force so that the pressing portion protrudes to the lower portion of the suction cover so that the connecting portion is connected to the connecting terminal to generate a seating signal.

The seating confirmation sensor may include a sensor cover that blocks the inflow of fluid between the pair of connection terminals and the connection portion and the pressing portion.

In accordance with the occurrence of the seating signal, it may include a notification unit for notifying the seating of the column pipe to the outside.

The notification unit includes a seating display unit which is arranged to correspond to the arrangement of the plurality of seating confirmation sensors so that the suction cover is easily separated from the column pipe, and is lit by a seating signal generated by each seating confirmation sensor. can do.

It may include a sensor pipe for connecting the sensor cable electrically connected to the seating confirmation sensor in the direction in which the driving motor is located through the outside of the suction cover.

According to the present invention, the seating confirmation sensor is installed between the column pipe and the suction cover to accurately check the seated state according to mutual contact, thereby preventing the efficiency of the underwater livestock pump from being reduced due to leakage.

In addition, it is possible to easily grasp the seated state of the underwater livestock pump by the seating confirmation sensor and quickly install the underwater livestock pump on the column pipe.

In addition, the seating confirmation sensor can improve power efficiency by consuming electricity only when the underwater livestock pump is separated from the column pipe.

1 is a side view showing a state in which an underwater livestock pump equipped with a sensor for confirming seating of a column pipe is installed in a column pipe according to an embodiment of the present invention.
FIG. 2 is a side view showing a state in which an underwater livestock pump equipped with a sensor for confirming a seating of a column pipe is installed in a column pipe according to an embodiment of the present invention.
3 is a perspective view showing a bottom surface of a suction cover of an underwater livestock pump with a seat confirmation sensor for a column pipe according to an embodiment of the present invention, and is a view schematically showing an installation position of an example seat confirmation sensor.
4 is a view schematically showing a notification unit of an underwater livestock pump having a seat confirmation sensor for a column pipe according to an embodiment of the present invention.
5 is a view showing the operation state by applying another example of the seating confirmation sensor constituting the underwater livestock pump with the seating confirmation sensor of the column pipe according to an embodiment of the present invention, (a) is a seated state, (b) shows the spaced state.

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

An underwater livestock pump 100 equipped with a sensor for confirming the seating of a column pipe according to an embodiment of the present invention is installed in a reservoir and inserted into the column pipe 200 installed to transport fluid stored in the reservoir, and installed in the reservoir. Forced suction of the stored fluid may be transferred to the outside of the reservoir through the column pipe (200).

On the other hand, the lower portion of the column pipe 200 is formed with a column flange portion 210 on which the underwater livestock pump 100 is seated so that the lower portion of the underwater livestock flow pump 100 spans the column flange portion 210. In the form, an underwater livestock pump 100 may be installed in the column pipe 200.

An underwater livestock pump 100 equipped with a sensor for confirming seating of a column pipe according to an embodiment of the present invention may include an impeller 115.

The impeller 115 may generate suction power by rotation to suck and discharge fluid stored in the water storage tank.

The impeller 115 may be implemented as a variety of known axial flow impellers or four-way impellers that suck and discharge fluid in the axial direction in the form of a fan or propeller of a fan.

An underwater livestock pump 100 equipped with a sensor for confirming seating of a column pipe according to an embodiment of the present invention may include a driving motor unit 110.

The driving motor unit 110 may provide a driving force capable of rotating the impeller 115, and the driving motor unit 110 includes a rotor and a stator installed inside the pump casing, and an impeller 115 on the rotor. ) Is coupled, the impeller 115 may rotate by the rotation of the rotor.

The driving motor unit 110 may have the same structure as an electric motor.

On the other hand, the drive motor unit 110 is located inside the pump casing can block the flow of fluid from the reservoir to the drive motor unit 110, the drive motor unit 110 and the impeller 115 are connected in the pump casing A mechanical seal that prevents the inflow of fluid may be installed between the rotating shafts passing through the pump casing.

In addition, an oil chamber for supplying oil for preventing and lubricating fluid may be formed in a portion of the pump casing where the mechanical seal is installed.

In addition, a tow hook for towing the underwater livestock pump 100 to the inside of the column pipe 200 with a crane is installed at the upper part of the pump casing to install the underwater livestock pump 100 to the column pipe 200. Can.

In addition, at the upper part of the pump casing, power cables for supplying power to the drive motor unit 110, signal cables for transmitting control signals, etc. are connected to the outside of the reservoir, and cables for transmission or supply extend to the outside of the reservoir. Can be connected.

An underwater livestock pump 100 equipped with a confirmation sensor for seating of a column pipe according to an embodiment of the present invention may include a suction cover 120.

The suction cover 120 may wrap the periphery of the impeller 115 to form a movement path of the fluid, and the suction cover 120 has a suction port 121 through which fluid flows and a discharge port 123 through which the sucked fluid is discharged. Can be formed.

The suction port 121 may be formed at the lower portion of the suction cover 120, and the discharge port 123 is formed at the upper portion of the suction cover 120, and the suction port formed at the lower portion of the suction cover 120 when the impeller 115 is rotated. Suction through the 121, the sucked fluid is discharged through the discharge port 123 formed on the upper portion of the suction cover 120 may transfer the fluid stored in the reservoir through the column pipe 200 to the outside.

A cover flange portion 125 for seating and installing the underwater livestock pump 100 on the column pipe 200 may be formed on the outer circumference of the suction cover 120 to protrude.

Here, a column flange portion 210 in which the cover flange portion 125 of the suction cover 120 is seated may be formed at a lower portion of the column pipe 200.

In the drawing, the cover flange portion 125 is shown as being located at the bottom of the suction cover 120, but the cover flange portion 125 is upper, lower, or middle of the suction cover 120 so as to span the column flange portion 210. It can be formed in various positions such as parts.

On the other hand, the cover cover portion may be formed on the suction cover 120 to protrude radially, the inner cover of the column pipe 200 is formed by sliding the cover fitting portion is sliding by sliding from the upper portion of the drive motor portion 110 It is possible to prevent the underwater livestock pump 100 from rotating according to the rotation.

The underwater livestock pump 100 equipped with the seat confirmation sensor of the column pipe according to the embodiment of the present invention may include the seat confirmation sensor 130.

The seating confirmation sensor 130 may detect the seated state of the underwater livestock pump 100 in the column pipe 200 to determine the seated state in the column pipe 200.

The seating confirmation sensor 130 generates a seating signal according to whether or not the underwater livestock pump 100 is seated on the column pipe 200, and the seating of the underwater livestock pump 100 of the column pipe 200 according to the seating signal. I can grasp the state.

For example, when installing the underwater livestock pump 100, the crane is installed by moving downward from the top of the column pipe 200 to the inside of the column pipe 200 using a crane, the column flange portion of the column pipe 200 The cover flange portion 125 of the suction cover 120 must be seated so as to be in close contact without being spaced apart, so that the fluid discharged from the suction cover 120 can suck and discharge the fluid without leakage.

However, since the underwater livestock pump 100 is installed inside the column pipe 200, it is difficult to grasp the seated condition from the outside, and even if it is seated to be in close contact, a sudden impact when the underwater livestock pump 100 starts. For example, when a foreign material is blocked in the suction port 121 momentarily, the underwater livestock pump 100 is lifted from the column pipe 200 and is not properly seated, so that it is between the column pipe 200 and the underwater livestock pump 100. There is a problem that a gap occurs.

If a gap occurs between the column pipe 200 and the underwater livestock pump 100 in this way, the underwater livestock pump 100 is lifted with a crane and then reinstalled. In particular, when a gap is stored in the reservoir, There is a problem that the occurrence is not easy to check.

Accordingly, the present invention according to the seating signal generated by installing the seating confirmation sensor 130 on the cover flange portion 125 of the suction cover 120 in close contact with the column pipe 200, the seating of the underwater livestock pump 100 The state can be easily grasped.

A plurality of seating confirmation sensors 130 may be installed spaced apart from the bottom surface of the cover flange portion 125 of the suction cover 120.

In the embodiment, four seating confirmation sensors 130 are installed at equal intervals on the bottom surface of the cover flange portion 125 so as to grasp the seating state in four directions of the underwater livestock pump 100.

An example of the seating confirmation sensor 130 may include a contact terminal 131 and a seating determination unit 135.

The contact terminal 131 may be installed on the bottom surface of the cover flange portion 125 so that a pair is spaced apart from each other, and power is supplied to one of the contact terminals 131 of the pair of contact terminals 131, and the other In the contact terminal 131, the current value or resistance value of the power supplied from one contact terminal 131 may be measured.

When the pair of contact terminals 131 are connected to the column flange portion 210 of the column pipe 200, current may flow through the column flange portion 210 as a conductor.

The seating determination unit 135 may determine whether seating is based on a current value or a resistance value flowing through the pair of contact terminals 131.

The seating determination unit 135 may measure a change in the current value or resistance value that is initially supplied to determine the seating state of the underwater livestock pump 100 in the column pipe 200 to determine the seating signal according to the seating status. .

Here, when a current is supplied to the pair of contact terminals 131, the two are spaced apart from each other, so that electricity does not pass to each other, but the pair of contact terminals 131 are connected to the column pipe 200 to flow electricity. In the case, the current value or resistance value that is initially supplied is changed while passing through the column pipe 200.

Accordingly, the seating determination unit 135 may generate a seating signal according to a difference in the change value by measuring a resistance value or a current value that is changed compared to a current value or resistance value that is initially supplied as it is connected to the column pipe 200.

At this time, even if the pair of contact terminals 131 is energized by the fluid, the difference between the current value or resistance value changed while passing through the fluid and the current value or resistance value due to connection by the column pipe 200 is largely different. Since it can be easily determined whether or not the seat, it is natural that the column pipe 200 is a conductor.

Of course, the seating judgment unit 135 presets a range of a difference between a current supplied current value or a resistance value, a measured current value or a resistance value, and if a difference between the current value or the resistance value occurs within a preset range, the underwater stall It may be determined that the flow pump 100 is seated on the column pipe 200 and generate a seating signal.

For example, when a current of 1A is supplied from one of the pair of contact terminals 131, the current value is not measured in the other contact terminal 131, or the current value is slightly measured by the fluid, When the pair of contact terminals 131 are connected to the column pipe 200, the current value measured as the pair of contact terminals 131 is energized through the column pipe 200, which is a conductor, is significantly increased and measured to less than 1A. Can be.

The seating confirmation sensor 180 of another example may generate a seating signal by pressing.

The seating confirmation sensor 180 may include a pressing portion 181, a connection terminal 183, and a connection portion 185.

The pressurizing portion 181 is disposed on the bottom surface of the cover flange portion 125 of the suction cover 120 and can be pressurized when the underwater livestock pump 100 is seated on the column pipe 200.

In addition, the connection terminal 183 may be installed on the upper surface of the cover flange portion 125, and the connection terminal 183 may be disposed so that a pair is spaced from each other.

An electric device may be supplied to any one of the pair of connection terminals 183, and a seating signal may be generated when energized with each other.

The connection portion 185 may be located on the upper portion of the connection terminal 183, and the connection portion 185 may contact a pair of connection terminals 183 to energize a pair of connection terminals 183, or a pair of The connection terminals 183 can be separated from each other and shorted.

Then, the pressing portion 181 and the connecting portion 185 are connected to each other by a connecting portion, and when the pressing portion 181 is pressed, the connecting portion 185 is separated from the connecting terminal 183 and shorted, and when the pressing is released, the connecting portion is released. When 185 is connected to the connection terminal 183 and the pressure is released, a connection signal may be generated by being connected to the connection terminal 183 and energizing.

Meanwhile, the pressing portion 181 may form a through hole in the cover flange portion 125 and penetrate the through hole of the cover flange portion 125 to be connected to the connection portion 185.

At this time, an airtight seal may be installed between the pressing portion 181 and the through hole.

In addition, the connection portion 185 and the connection terminal 183 and the pressure spring 187 positioned on the upper portion of the cover flange portion 125 may be covered by a sensor cover 189 that prevents the inflow of fluid.

A pressure spring 187 may be installed between the sensor cover 189 and the connecting portion 185.

The pressure spring 187 may support the connection portion 185 by an elastic force in a direction in which the connection terminal 183 is located so that the connection portion 185 is in close contact with the connection terminal 183 and energized.

Another example of the seating confirmation sensor 180 configured as described above is installed in the pressurized spring 187 positioned between the sensor cover 189 and the connecting portion 185 before installing the underwater livestock pump 100 in the column pipe 200. Pressed by the pressing portion 181 protrudes to the lower portion of the cover flange portion 125, the connection portion 185 is connected to energize the pair of connection terminals 183 to generate a seating signal.

In addition, when the cover flange portion 125 is seated on the column flange portion 210 of the column pipe 200, the pressing portion 181 is pressed, and the connecting portion 185 is separated from the pair of connecting terminals 183 and disconnected. To stop the generation of a seating signal.

An underwater livestock pump 100 equipped with a sensor for confirming seating of a column pipe according to an embodiment of the present invention may include a notification unit 150.

The notification unit 150 may inform the outside of the state in which the underwater livestock pump 100 is seated on the column pipe 200.

The notification unit 150 may operate according to the seating signal generated by the seating confirmation sensors 130 and 180, and the notification unit 150 may be located on the control panel 230 that controls the underwater livestock pump 100. .

The notification unit 150 may be implemented as a speaker that outputs a sound according to a seating signal or an LED lamp that lights up according to the seating signal.

The notification unit 150 may include a seating display unit.

The seating display unit may be installed on the control panel 230, and the seating display unit may be used to identify the seating confirmation sensors 130 and 180, which generate seating signals, among the plurality of seating confirmation sensors 130 and 180, respectively. It may be configured to include a plurality of LED lamps that light up according to the seating signal generated in (130).

At this time, a plurality of LED lamps are arranged to correspond to the arrangement of the seating confirmation sensor 130, so that the part where the seating signal is generated in the underwater livestock pump 100 can be easily identified.

An underwater livestock pump 100 equipped with a sensor for confirming seating of a column pipe according to an embodiment of the present invention may include a sensor pipe 140.

The sensor pipe 140 may collect the cables electrically connected to the plurality of seating confirmation sensors 130 and 180 installed in the cover flange unit 125 and provide them to the driving motor unit 110.

Meanwhile, the sensor pipe 140 may be installed outside the suction cover 120 to prevent damage to the sensor cable due to suction and discharge fluid.

The sensor pipe 140 converts the direction from the outside of the suction cover 120 to the vertical portion positioned from the bottom to the top of the suction cover 120 and the direction in which the driving motor portion 110 is located at the upper end of the vertical portion. It may be configured to include a horizontal portion for guiding the sensor cable to the interior of the pump casing.

The horizontal portion may be installed at a position corresponding to a guide vane formed on the suction cover 120 or a support portion for connecting the outside and the inside of the suction cover 120 to reduce resistance to the discharged fluid.

On the other hand, the sensor cable introduced into the drive motor unit 110 through the sensor pipe 140 is located at the top of the water storage tank together with the power cable connected to the outside of the water storage tank through the junction box portion located at the top of the drive motor unit 110. It can be connected to the control panel 230 to provide a seating signal of the seat confirmation sensor 130 to the control panel 230.

If the sensor pipe 140 is not configured, a foreign substance may be caught in the sensor cable, or the sensor cable may be disconnected due to resistance to suction by the fluid, so that the sensor pipe 140 may be extended to the upper portion of the water storage tank through the outside of the column pipe 200. It is desirable to install.

It will be described the effect and effect between each configuration described above.

An underwater livestock pump 100 equipped with a sensor for confirming the seating of a column pipe according to an embodiment of the present invention has an impeller 115 coupled to a driving shaft of the driving motor unit 110, and the driving motor unit 110 is pump casing Wrapped in, the impeller 115 is wrapped by a suction cover 120 to form a suction port 121 through which the fluid flows to the bottom, and forms a discharge port 123 through which the fluid is discharged.

In addition, a plurality of seating confirmation sensors 130 and 180 are installed on the cover flange unit 125 of the suction cover 120, and the seating confirmation sensor 130 provides a seating signal to the notification unit 150.

The underwater livestock pump 100 equipped with the sensor for confirming the seating of the column pipe according to the embodiment of the present invention configured as described above is a column flange portion of the column pipe 200 through a crane at the top of the column pipe 200 of the reservoir. The cover flange portion 125 of the suction cover 120 is installed in 210.

Then, when the suction cover 120 is seated on the column flange unit 210, the seating confirmation sensor 130 senses and generates a seating signal according to whether it is seated, and is seated by the notification unit 150 according to the occurrence of the seating signal. Whether or not to inform the outside.

For example, when an example of the seating confirmation sensor 130 is applied, when the suction cover 120 is seated on the column flange portion 210, a pair of contact terminals 131 are energized with each other through the column flange portion 210. , The seating determination unit 135 compares the current value or resistance value that is initially supplied with the current value or resistance value according to energization, and generates a seating signal when it is included in a current value or resistance value in a preset range. According to the notification unit 150 may operate to inform the seating state to the outside.

Here, when the underwater livestock pump 100 is seated on the column pipe 200, when the foreign matter flows into the suction cover 120 when the underwater livestock flow pump 100 is started, or flows into the inside, the underwater livestock pump While the impact is applied to the (100), the suction cover 120 is not properly seated on the column flange portion 210 and is spaced apart, thereby causing leakage.

When the suction cover 120 is spaced apart from the column flange portion 210, a disconnection occurs in a pair of contact terminals 131 of the seating confirmation sensor 130, and the seating determination portion 135 changes the resistance value. According to the current value, the seating determination unit 135 no longer generates a seating signal, and thus the operation of the notification unit 150 is stopped.

In this way, through the presence or absence of notification of the notification unit 150, the administrator determines whether or not the separation is from the suction cover 120 and the column flange unit 210 according to the notification status of the notification unit 150, and the suction cover 120 and the column. When the flange portion 210 is spaced, the underwater livestock pump 100 is re-seated to the column pipe 200 through a crane to prevent the suction head pump from dropping or efficiency due to leakage. Can be.

In the embodiment, although the example of the seat confirmation sensor 130 is described as operating the notification unit 150 by generating a seating signal when the suction cover 120 is seated on the column flange unit 210, the column flange unit 210 is described. Of course, when the suction cover 120 is spaced apart, a seating signal is generated to operate the notification unit 150.

When the seating confirmation sensor 180 of another example is applied, when electricity is supplied to the first seating confirmation sensor 180, a seating signal is generated by the seating confirmation sensor 180, and the lamp is turned on in the notification unit 150.

In addition, the end of the suction cover 120 is seated on the column flange portion 210 of the column pipe 200 by lowering the underwater livestock pump 100 into the interior of the column pipe 200 through a crane.

On the other hand, when the suction cover 120 is seated on the column flange part 210, the pressing part 181 of the seating confirmation sensor 130 is pressurized, and the connecting part 185 electrically connecting a pair of connecting terminals 183 ) Is disconnected from the pair of connection terminals 183, and the seating signal generated when the short circuit is interrupted is turned off.

In addition, when the underwater livestock pump 100 starts, the fluid discharged to the discharge port 123 flows backward from the outside of the suction cupr 120, or a foreign object is instantaneously caught and the shock is applied to the underwater livestock pump 100. Accordingly, when the underwater livestock pump 100 is spaced apart from the column pipe 200, the connection part 185 of the seating confirmation sensor 180 is pressed by the elastic force of the pressure spring 187, a pair of connection terminals 183 Is electrically connected to generate a seating signal, and the lamp of the notification unit 150 is turned on according to the occurrence of the seating signal to inform the outside that it is spaced apart.

As described above, when displayed on the notification unit 150, the manager mobilizes the crane to re-secure the underwater livestock pump 100 to the column pipe 200, while the pressing unit 181 is pressed again, a pair of connections As the connecting portion 185 is separated from the terminal 183, generation of the seating signal is stopped and the lamp that has been lit is turned off.

In this way, the seating confirmation sensor 180 of the other embodiment does not consume electricity for detecting the separation because the seating signal is generated only when it is installed and when it is separated, thereby operating the notification unit 150.

On the other hand, the notification unit 150 has an advantage that it is possible to easily identify the spaced part by indicating that the spaced apart from the position corresponding to the seating confirmation sensor 130.

Therefore, the underwater livestock pump 100 equipped with the sensor for confirming the seating of the column pipe according to the embodiment of the present invention can easily grasp the seated state of the underwater livestock pump 100 in the column pipe 200 from the outside. Thereby, it is possible to prevent dropping or efficiency of the underwater livestock pump 100 due to leakage.

In addition, it is possible to easily check the seating state of the underwater livestock pump 100 in the column pipe 200, thereby reducing the installation time of the livestock livestock pump 100.

In addition, when another example of the seat confirmation sensor 180 is applied, electricity is consumed only in a spaced state to generate a seating signal, thereby preventing waste of electricity, thereby improving electric consumption efficiency.

Although the embodiments of the present invention have been described above, the scope of rights of the present invention is not limited to this, and it is easily changed and equalized by those skilled in the art from the embodiments of the present invention. Includes all changes and modifications to the extent possible.

100: underwater livestock pump 110: drive motor unit
115: impeller 120: suction cover
121: inlet 123: outlet
125: cover flange unit 130,180: seating confirmation sensor
131: contact terminal 135: seating judgment portion
140: sensor pipe 150: notification unit
181: pressing portion 183: connecting terminal
185: connection 187: pressurized spring
189: sensor cover 200: column pipe
210: column flange 230: control panel

Claims (7)

In the underwater livestock pump equipped with a sensor for confirming the seating of the column pipe inserted into the column pipe installed to transfer the fluid stored in the reservoir,
An impeller that rotates to suck and discharge fluid,
A driving motor unit for driving the impeller,
A suction cover is formed around the periphery of the impeller and a suction port through which the fluid is sucked and a discharge port through which the fluid is sucked is formed.
A cover flange portion protruding from the circumference of the suction cover and covering the column pipe, and
Equipped with a seating confirmation sensor for the column pipe, characterized in that a plurality of installed at a predetermined interval on the bottom surface of the cover flange portion comprises a seating confirmation sensor that generates a seating signal according to whether or not the cover flange portion is seated on the column pipe. An underwater livestock pump. According to claim 1,
The seating confirmation sensor
A pair of contact terminals spaced apart from each other and through which current flows, and
An underwater livestock pump having a seating confirmation sensor of a column pipe including a seating judgment unit that generates a seating signal by measuring a current value or a resistance value flowing between the pair of contact terminals as they are contacted or separated from the column pipe. According to claim 1,
The seating confirmation sensor
A pair of connection terminals that are spaced apart from each other and through which current flows,
A connection unit for generating a seating signal by electrically connecting the pair of connection terminals, or electrically disconnecting the pair of connection terminals,
When the suction cover is seated on the column pipe, the pressing portion is pressed by the weight of the suction cover to disconnect the connecting portion from the pair of connection terminals, and
When the suction cover is spaced apart from the column pipe, the connecting portion is connected to the pair of connection terminals to generate a seating signal, so that the pressing portion is supported by an elastic force so that the pressing portion protrudes below the suction cover to generate a seating signal. An underwater livestock pump with a seating confirmation sensor for a column pipe, comprising a. According to claim 3,
The seating confirmation sensor
An underwater livestock pump equipped with a sensor for confirming seating of a column pipe, comprising a sensor cover for blocking the inflow of fluid between the pair of connection terminals and the connection part and the pressing part. According to claim 1,
An underwater livestock pump having a seating confirmation sensor for a column pipe, comprising a notification unit for notifying the seating of the column pipe to the outside according to the occurrence of the seating signal. The method of claim 5,
The notification unit
The suction cover is arranged so as to correspond to the arrangement of the plurality of seating confirmation sensors so as to easily grasp the part spaced from the column pipe, and includes a seating display unit that is lit by a seating signal generated by each seating confirmation sensor. Underwater livestock pump equipped with a sensor for confirming the seating of the column pipe. According to claim 1,
And a sensor pipe connecting a sensor cable electrically connected to the seat confirmation sensor in a direction in which the driving motor is located through the outside of the suction cover. Pump.

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