KR101685696B1 - Installing and returning apparatus for monintering probe of underground water - Google Patents

Abstract

The present invention relates to a monitoring probe for providing a position of a groundwater interface between a groundwater and a groundwater, and more particularly to an apparatus for installing or monitoring a monitoring probe on an observation surface of groundwater, A magnet attached thereto; The magnetron is accommodated in the accommodating space in a state that one side of the magnet is exposed, and a pulling line is connected to the other side of the accommodating space to accommodate the monitoring probe through magnetic force of the magnet, A magnet housing separated from the monitoring probe by pressurization of a pull string; And a monitoring probe detachably coupled to the opening of the magnet housing to shield the opening of the magnet housing when the monitoring probe is inserted to weaken the magnetic force of the magnet, And a non-magnetic body housing cover which opens to expose the magnet.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an installation and recovery device for a groundwater monitoring probe,

The present invention relates to an installation and recovery apparatus for a groundwater monitoring probe, and more particularly, to an installation and recovery apparatus for a groundwater monitoring probe that inputs a monitoring probe for providing a location of a groundwater interface between a groundwater and a groundwater, ≪ / RTI >

In general, coastal areas are exposed to the risk of not being able to use ground water for drinking water as well as agricultural water or industrial water because the groundwater level is lowered due to excessive use of groundwater.

Therefore, in the coastal area, a wired or wireless measurement sensor is installed to measure the groundwater level, temperature, electrical conductivity value, and the location of the boundary between the groundwater and groundwater. Is operating.

Here, the location of the phytoplankton interface (the interface between freshwater and saltwater in the groundwater) changes from place to place due to various complex phenomena such as excessive pumping of groundwater, rainfall, tidal phenomena, and rising sea level due to global warming. Accurate monitoring devices are being developed.

As one of such groundwater monitoring probes, there is a pyrophoric water interface position tracking device proposed in Korean Patent Registration No. 10-0977155.

As shown in FIG. 1, the apparatus for detecting the position of the boundary surface of water is formed by a tube having an inner space, a lower portion is sealed, a detachable sealing cap 14 is provided at an upper portion, a through hole 12a is formed at a lower central portion, A metal 15 attached to the magnet material is provided on the sealing cap 14 and a buoyant power source 10 for controlling the buoyancy by adjusting the amount of distilled water accommodated in the inner space 10 )Wow; A radio measurement sensor 20 installed below the buoyant conductor 10; And another pipe 30 installed at a lower portion of the buoyant power source 10 to surround the outside of the wireless measurement sensor 20. [

Herein, the groundwater monitoring probe is fixed to the electromagnet of the retractor (not shown) by the metal (15) installed in the cap (14) and is discharged into the observation vessel or discharged from the observation vessel. The longitudinal direction of the observation vessel It is a configuration to provide the position while ascending and descending.

Specifically, the groundwater monitoring probe is installed in the observatory as magnetic force is applied to the electromagnet of the retractor, and then is inserted into the observatory with the cap 14 attached to the retractor, and then the magnetic force of the electromagnet is released. Lt; / RTI >

However, since the prior art requires power supply and control for the electromagnet in order to install and recover the probe, the configuration is complicated and the manufacturing cost is high. In particular, when the electromagnet control failure occurs, Or lost.

Korean Patent Registration No. 10-0977155

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the prior art as described above, and it is an object of the present invention to provide a permanent magnet which can attract a monitoring probe, And an object of the present invention is to provide an installation and recovery device for a groundwater monitoring probe which can be separated smoothly from a monitoring probe by weakening the magnetic force of the permanent magnet according to the installation of the monitoring probe.

Another object of the present invention is to provide an installation and recovery device for a groundwater monitoring probe which can be separated more smoothly from a monitoring probe through the weight of water by forming a space for water to flow into the lower part of the magnet.

According to another aspect of the present invention, there is provided an installation and recovery device for a groundwater monitoring probe, comprising: a monitoring probe for providing a position of a boundary surface of groundwater, A magnet attached to the monitoring probe while providing a magnetic force to a metal body provided at an upper end of the probe; The magnetron is accommodated in the accommodating space in a state that one side of the magnet is exposed, and a pulling line is connected to the other side of the accommodating space to accommodate the monitoring probe through magnetic force of the magnet, A magnet housing separated from the monitoring probe by pressurization of a pull string; And a monitoring probe detachably coupled to the opening of the magnet housing to shield the opening of the magnet housing when the monitoring probe is inserted to weaken the magnetic force of the magnet, And a non-magnetic body housing cover which opens to expose the magnet.

In addition, the housing cover can be shielded by screwing the magnet housing into the magnet housing.

The housing cover shields the opening and can be spaced apart from the magnet.

In addition, the housing cover may be formed at both sides of the spacing space to form an inflow hole for allowing water in the observation space to flow into the spacing space.

In addition, the housing cover may be formed on a bottom surface of the spacing space, and may be formed with a communication hole communicating the water introduced into the inflow hole while facing the monitoring probe.

Also, the magnet may be made of a neodymium magnet.

The installation and recovery device for a groundwater monitoring probe according to the present invention by means of the above-mentioned solution pulls the monitoring probe through the permanent magnetic force of the magnet, so that the electrical construction is simplified and the manufacturing cost can be reduced. Can be solved.

Further, since the magnet cover is detachably coupled to the magnet housing to weaken the magnetic force of the magnet, the monitoring probe attached to the housing cover can be smoothly separated by the pushing (pulling) of the pulling string when the monitoring probe is turned on.

Further, since the spacing space is formed in the housing cover, the monitoring probe can be separated more smoothly by weighting by inserting the weight into the spacing space, and the magnetic force of the magnet is further weakened by inserting the non- It is possible.

Since the inflow hole and the communication hole are formed in the housing cover, the monitoring probe can be smoothly separated since water is introduced into the separation space of the housing cover and the weight of the monitoring probe is released. After the monitoring probe is separated, The magnet housing can be recovered from the observation tube in a light weight state.

1 is an exploded perspective view showing a monitoring probe at a common saltwater interface;
2 is an exploded perspective view showing an installation and recovery device for a groundwater monitoring probe according to the present invention;
3 is a longitudinal sectional view showing an installation and recovery apparatus for a groundwater monitoring probe according to the present invention.
4 is a longitudinal sectional view showing another embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted.

Embodiments in accordance with the concepts of the present invention can make various changes and have various forms, so that specific embodiments are illustrated in the drawings and described in detail in this specification or application. It is to be understood, however, that it is not intended to limit the embodiments according to the concepts of the present invention to the particular forms of disclosure, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

It is to be understood that when an element is referred to as being "connected" or "connected" to another element, it may be directly connected or connected to the other element, . On the other hand, when an element is referred to as being "directly connected" or "directly connected" to another element, it should be understood that there are no other elements in between. Other expressions that describe the relationship between components, such as "between" and "between" or "neighboring to" and "directly adjacent to" should be interpreted as well.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The singular expressions include plural expressions unless the context clearly dictates otherwise. In this specification, the terms "comprises ",or" having ", or the like, specify that there is a stated feature, number, step, operation, , Steps, operations, components, parts, or combinations thereof, as a matter of principle.

The installation and recovery device 10 for a groundwater monitoring probe according to the present invention comprises a magnet 100, a magnet housing 200 and a housing cover 300 as shown in FIG.

The magnet 100 is a component that provides a magnetic force to provide a clamping force attached to the groundwater monitoring probe 1. [

The magnet 100 may be made of, for example, a neodymium magnet.

Neodymium magnets are made of rare earth elements and have the highest energy potential among the permanent magnets. They have a magnetic force more than 10 times that of a normal permanent magnet.

The groundwater monitoring probe 1 to which the present invention is applied monitors the position of the interface between the groundwater and the groundwater by monitoring the position of the groundwater. The metal body 1a, which can be fixed by the magnetic force of the magnet 100, Any configuration is acceptable if it is provided.

The magnet housing 200 is a component that accommodates the magnet 100 and provides a connecting portion of the retractor not shown.

2 and 3, the magnet housing 200 is formed in a container shape and a receiving space 210 having an opening 211 is formed at one side of the magnet housing 200, so that the magnet 100 is inserted into the receiving space 210, Lt; / RTI >

The magnet housing 200 is provided with a fastening ring 220 at an upper end thereof, and a pull string of an unillustrated retractor is connected.

That is, the magnet housing 200 is raised or lowered by a retractor connected to the fastening ring 220, and is put into or taken out of the observing chamber.

When the monitoring probe 1 is withdrawn from the observation table, the magnet housing 200 is exposed to one side of the magnet 100 while the other side of the magnet 100 is exposed to the upper side of the monitoring probe 1 through the magnetic force of the magnet 100, And then the monitoring probe 1 is discharged from the observation through the traction of the retractor.

The housing cover 300 is a member for smoothly separating the monitoring probe 1 after the monitoring probe 1 is inserted by weakening the magnetic force of the magnet 100 when the monitoring probe 1 is installed on the observation platform.

The housing cover 300 is detachably coupled to the magnet housing 200 as shown in FIGS. 2 and 3 to shield the opening 211 of the magnet housing 200.

Since the housing cover 300 is made of a non-metallic material such as a synthetic resin material, the housing cover 300 is interposed between the magnet 100 and the monitoring probe 1 to weaken the magnetic force of the magnet 100.

After the monitoring probe 1 is completely inserted, the housing cover 300 separates the monitoring probe 1 by momentarily pulling (pushing) the towline.

That is, the magnet housing 200 is attached to the monitoring probe 1 in a state where the housing cover 300 is engaged when the monitoring probe 1 is put in. When the monitoring probe 1 is inserted into the monitoring probe 1, After the injection is completed, the monitoring probe 1 is installed on the observation platform while being separated from the monitoring probe 1 by momentary pulling (pressing) of the towline.

When the monitoring probe 1 is recovered, the magnet housing 200 is inserted into the observation chamber while the magnet cover 100 is exposed while the housing cover 300 is removed. The magnet housing 200 is lowered by the pull string and the magnetic force of the magnet 100 The monitoring probe 1 is attached to the upper end of the monitoring probe 1 and then ascended by the traction of the towline to collect the monitoring probe 1 at the observation point.

Meanwhile, the housing cover 300 and the magnet housing 200 may be detachably coupled with each other by forming threaded portions 250 having male and female structures and being screwed to each other.

The housing cover 300 may be configured to cover the magnet space 100 and the spacing space 310 while shielding the opening 211 of the magnet housing 200 as shown in FIG.

That is, the housing cover 300 may have a space 310 spaced apart from the magnet 100 while being elongated.

The weight of the magnet housing 200 is increased by inserting a weight (not shown) in the spacing space 310 so that the monitoring probe 1 can be smoothly separated by the pulling of the pulling string.

Alternatively, the magnetic force of the magnet 100 may be further weakened by inserting a non-metallic material not shown in the spacing space 310.

Here, the housing cover 300 may be formed with an inflow hole 320 as shown in FIG.

The inlet holes 320 may be formed on both sides of the housing cover 300 as shown to allow the water of the observation port to flow into the spacing space 310.

That is, the magnet housing 100 may be weighted as the water flows into the spacing space 310 of the housing cover 300 through the inflow hole 320 while being inserted into the observation fixture, And can be smoothly separated from the monitoring probe 1.

In addition, the housing cover 300 may be formed with a communication hole 330 as shown in FIG.

The communication hole 330 is formed on the bottom surface of the separation space 310 so as to communicate the water introduced into the separation space 310 while facing the monitoring probe 1 as shown in the figure.

That is, the communication hole 330 is shielded by the monitoring probe 1 attached to the housing cover 300 and receives the water introduced into the spacing space 310 to increase the weight of the magnet housing 200, After the monitoring probe 1 is separated by pressurization, the weight of the magnet housing 200 is reduced while discharging the water in the spacing space 310.

A method and an operation of the installation and recovery device 10 for a groundwater monitoring probe according to the present invention including the above-described components will be described.

When the monitoring probe 1 is installed on the observation table of the groundwater, the user inserts the monitoring cover 300 on the surface of the housing cover 300 while shielding the magnet 100 by connecting the housing cover 300 to the magnet housing 200. ) Is attached.

Then, the user tightens the pulling string to the fastening ring 220 provided in the magnet housing 200, activates the retractor, and puts the monitoring probe 1 together with the magnet housing 200 into the observation platform.

Then, after the monitoring probe 1 is put in the set position, the user pulls the towing line momentarily to release the monitoring probe 1 from the housing cover 300 to complete the installation of the monitoring probe 1.

The user removes the housing cover 300 from the magnet housing 200 to operate the retractor with the magnet 100 exposed and inserts the magnet housing 200 into the observation chamber do.

Accordingly, the monitoring probe 1 is fixed while being attached to the magnet 100 of the magnet housing 200, which is inserted into the observation chamber.

Then, the user retracts the magnet housing 200 by operating the retractor to recover the monitoring probe 1 from the observations.

As described above, according to the installation and recovery apparatus for a groundwater monitoring probe according to the present invention, since the monitoring probe 1 is pulled through the permanent magnetic force of the magnet 100, the electrical construction is simplified, So that the problem of malfunction can be solved.

In addition, since the housing cover 300 is detachably coupled to the magnet housing 200 to weaken the magnetic force of the magnet 100, the monitoring probe 1 attached to the housing cover 300 at the time of inserting the monitoring probe 1 And can be smoothly separated by pressing (pulling) of the pull string.

In addition, since the spacing 310 is formed in the housing cover 300, the monitoring probe 1 can be separated more smoothly by weighting by inserting the weight into the spacing space 310, The magnetic force of the magnet 100 may be further weakened.

In addition, since the inflow hole 320 and the communication hole 330 are formed in the housing cover 300, water is introduced into the spacing space 310 of the housing cover 300, And the water in the spacing space 310 is discharged to the communication hole 330 after the monitoring probe 1 is detached so that the magnet housing 200 can be recovered in a weight-reduced state .

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. It will be apparent to those skilled in the art that various changes, substitutions, and alterations can be made therein without departing from the spirit of the invention.

1: Groundwater monitoring probe
10: Installation and recovery device for monitoring probe
100: Magnet 200: Magnet housing
210: accommodation space 211: opening
220: fastening ring 250: threaded portion
300: housing cover 310: spacing space
320: inflow ball 330: communication ball

Claims (6)

A monitoring probe for providing a position of the interface between the groundwater and the pyrolysis water is installed or recovered from the observation tank,
A magnet attached to the monitoring probe while providing magnetic force to the metal body provided at the upper end of the monitoring probe;
The magnetron is accommodated in the accommodating space in a state that one side of the magnet is exposed, and a pulling line is connected to the other side of the accommodating space to accommodate the monitoring probe through magnetic force of the magnet, A magnet housing separated from the monitoring probe by pressurization of a pull string; And
Wherein the monitoring probe is detachably attached to the opening of the magnet housing and shields the opening of the magnet housing when the monitoring probe is inserted to weaken the magnetic force of the magnet, Magnetic body housing cover for exposing the magnet,
The housing cover
A space is formed between the magnet and the opening while shielding the opening,
An inflow hole is formed on both sides to introduce water in the observation well into the spacing space,
A communication hole facing the monitoring probe is formed on the bottom surface to communicate water introduced into the spacing space,
A magnetic material is inserted into the spacing space to weaken the magnetic force of the magnet,
The communication hole
The weight of the magnet housing is weighted by receiving water introduced into the spacing space through the inflow hole while being shielded by the monitoring probe,
Wherein the weight of the magnet housing is reduced while discharging the water in the spacing space after the monitoring probe is separated by the pressure of the pull string.
The method according to claim 1,
The housing cover
And the opening is shielded while being screwed to the magnet housing.
delete delete delete The method according to claim 1 or 2,
Wherein the magnet is made of a neodymium magnet.

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