KR100552241B1 - An installing device of simple pipe well for monitering underground water - Google Patents

Abstract

The present invention relates to a device for installing a simple well for monitoring groundwater, and in installing a well for sampling water for periodically inspecting the groundwater level or collecting groundwater for water quality inspection, after digging soil, embedding pipes and returning soil. To solve the shortcomings of the existing method of bar bar, steel pipe 10, inserted into the lower portion of the steel pipe consumable conical drilling rod 20 of the structure and detachable structure, the blow fitted to the upper portion of the steel pipe Including the adapter 30 for the consumable conical drilling rod 20 and the impact adapter 30 in the lower and upper parts of the steel pipe, respectively, using the hammer or electric hammer at the position to install the well (G) Drive to the groundwater level (W) and when the bottom of the steel pipe reaches below the groundwater level, lift the steel pipe lightly using the lever 40, etc. As the conical drilling rod 20 is separated from the steel pipe, groundwater flows into the steel pipe 10 through the slit 26 formed in the neck 24 of the consumable conical drilling rod 20, and the water level inspection and / or water quality inspection It is now possible to collect groundwater for.

Groundwater, monitoring, simple wells, steel pipes, consumable conical drilling rods, impact adapters, slits, water level, sampling

Description

Simple installing well for monitoring underground water {An installing device of simple pipe well for monitering underground water}

1 is an exploded perspective view of a simple pipe installation apparatus according to the present invention,

2 is a perspective view of the combination of FIG.

Figure 3 is an exploded cross-sectional view of the simplified well installation apparatus according to the present invention,

4 is a cross-sectional view sequentially illustrating the installation process of a simple well according to the present invention.

* Explanation of symbols for main parts of the drawings

10: steel pipe 12: female thread

20: consumable conical drilling rod 22: head

23: top 24: neck

26: slit 30: hitting adapter

32: male thread portion 34: hitting portion

40: lever G: underground

 W: underground water surface

The present invention relates to a device for installing a simple well for monitoring groundwater, and in particular, in installing a sampling well for periodically inspecting the groundwater level or collecting groundwater for water quality inspection, embeds pipes and reloads soil after excavating soil. It eliminated the hassle and inconvenience of the existing method and installed simple wells quickly and easily.

In general, groundwater is lumped or flowing between the permeable and impervious layers of the strata, and the saturated part of the groundwater is called the saturation zone, and the part filled with air above it is called the ventilation zone. The upper surface saturated with groundwater is also called groundwater. In the groundwater layer, alluvial layer consisting of sand layer, gravel layer, sand and gravel, red rock layer formed by sedimentation in the ice age, and rock aquifer layer flowing through the cracks formed in the rock layer, mother rock There is a weathering bed that flows between these weathered and relaxed particles. Groundwater is classified as stratified water saturated in alluvial, lamellar, and tertiary strata, and bleeding blood that moves in a vein to cracks or bleeding in the rock. The groundwater is divided into free surface groundwater and pressurized groundwater. In addition, as a kind of free ground water, main water and river water, which exist on a small scale on an independent impermeable layer, are osmotic water flowing through the basement.

The quality of groundwater is affected by lipids, and the amount of dissolved substances is generally higher than that of surface water. Sodium, potassium, calcium, magnesium, sulfuric acid, iron, sodium bicarbonate, and silicic acid are less and oxygen is low. Also, depending on the depth, the hydrogen ion concentration changes from weakly acidic to alkaline. Water temperature in groundwater is affected by temperature and varies with latitude and altitude. The effect of temperature is indirect, but the influence of geothermal is direct. In Korea, the deep groundwater temperature is 17-18 ° C at 100m and 19-20 ° C at 200m. In comparison, shallow groundwater temperatures are high in summer and low in winter.

As an agricultural country, Korea developed groundwater early and used it for agricultural water. In modern times, in 1936, during the period of Japanese colonial rule, several central sites were surveyed for the purpose of developing industrial water.In 40-44, a five-year agricultural groundwater development plan was established and groundwater was investigated. Stopped. The groundwater survey for agriculture began again in 64 years, and as a part of the development of all-weather agricultural water sources in 65 years, the 5-year groundwater development for 7485 ha was established, which led to the systematization of groundwater research technology and the introduction of research and development equipment and technology. . With the creation of the Groundwater Development Corporation in 1987, groundwater, which was an auxiliary water, was developed as main water. Among the total water use in Korea in 225 billion ㎥ in 1985, the amount of groundwater used was 1.4 billion ㎥, 6.4% of the total amount, of which 10.5 billion ㎥ was used for agricultural water and 3.5 billion ㎥ was used for industrial water, domestic water and emergency water. Appeared.

In addition, the groundwater is cheaper to develop than the surface water, and unlike the reservoir, the groundwater can produce a lot of water, and there is less water pollution and a stable quantity of water can be obtained by short-term construction. The water temperature is about 15 ° C, which is suitable for producing grassland for field crops, pastures, etc., and is particularly suitable for raising cold fish species such as trout and heatfish. Nowadays, it is also widely used as industrial water. Groundwater well management should be thoroughly managed by first designating a manager in charge of each well and giving responsibility for the facilities so that the water quality, water quality and water temperature are always kept in mind. In the 1990s, when groundwater contamination became severe due to the inflow of sewage through closed wells, and in 1996, vocational technology was developed to fill the wells.

On the other hand, when installing a well for investigation of groundwater level and groundwater quality inspection, excavate the soil to a certain depth by using the excavation equipment mounted on the vehicle until now, outer casing (usually galvanized steel pipe of 300mm diameter) and inner casing (usually 200 mm diameter stainless steel pipe) was installed, and the cement was cured by grouting between the inner and outer casings as cement containing bentonite. This method, as well as the cost of using the excavation equipment, there was a problem that the site accessibility difficulties and manpower and time consuming to install the well.

The present invention has been made in order to solve the above-mentioned conventional problems, an object of the present invention is to provide a means that can be installed quickly and easily, without effort, simple wells for the investigation of the groundwater level or the quality of the groundwater. have.                         

In order to achieve the above object, the present invention consists of a steel pipe, a consumable conical drilling rod that is inserted into the lower portion of the steel pipe and detachable from the steel pipe, and a blow adapter that is fitted to the upper portion of the steel pipe, respectively. At the position where the well is to be installed in the lower part and the upper part of the pipe, drive the groundwater level using a hammer or electric hammer, and when the bottom of the steel pipe reaches the groundwater level, lift the steel pipe lightly using a lever, etc. As the drilling rod is spaced apart from the steel pipe, the groundwater flows into the steel pipe through the slit of the consumable conical drilling rod, and provides a simple well installation device for groundwater monitoring, which enables the inspection of the groundwater level and / or the extraction of groundwater.

In the present invention, the consumable conical drilling rod is a conical head portion of the bottom pointed to facilitate the steel pipe in the ground, and the neck portion is formed to be inserted into the steel pipe on the upper portion of the head portion, the neck portion slit penetrated in and out Is formed, the top diameter of the head portion is formed larger than the outer diameter of the steel pipe is raised to the bottom of the steel pipe to the bottom of the ground water to raise the steel pipe consumable conical excavation rod is separated from the steel pipe groundwater flows into the steel pipe through the slit It is supposed to be.

In addition, in the present invention, the impact adapter is a male screw portion is formed to be screwed to the female screw portion formed on the upper inner surface of the steel pipe, the upper portion is formed with a thick blow portion that is hit by a hammer or electric hammer.

Hereinafter, with reference to the accompanying drawings, preferred embodiments that do not limit the present invention will be described in detail.

1 is an exploded perspective view of the simplified well installation device according to the present invention, Figure 2 is a perspective view of the combination of Figure 1, Figure 3 is an exploded cross-sectional view of the simplified well installation device according to the present invention.

As shown in FIG. 1 to FIG. 3, the present invention consists of a steel pipe 10, a consumable conical drilling rod 20, and an impact adapter 30.

The steel pipe 10 may be made of a single tube as shown in the drawing or may be manufactured in a structure that can be continuously connected to enable the extension of the length, the upper and lower ends of the steel pipe 10, respectively, the consumable conical Excavation rod 20 and the impact adapter 30 is detachably coupled.

In the accompanying drawings, the length is shown to be short, but in fact, the length of the steel pipe 10 in the present invention is manufactured to the length that can be driven to the ground water surface of the position to install the well.

Consumable conical drilling rod 20 coupled to the lower end of the steel pipe 10 has a conical head portion 22 having a lower end pointed so that the steel pipe is well embedded when driven into the ground, the head portion ( A neck 24 is formed at the upper portion of the upper part 22 so as to be inserted into the steel pipe 10, and the neck 24 has a plurality of slits 26 penetrating into and out of the neck 24.

Diameter of the upper end 23 of the head portion 22 of the consumable conical drilling rod 20 is formed larger than the outer diameter of the steel pipe 10, the reason is that the steel pipe 10 after being embedded in the ground using a lever or the like When lifting, the upper end 23 of the head 22 is caught in the ground so as to prevent the consumable conical drilling rod 20 from coming up with the steel pipe 10. This consumable conical drilling rod 20 is Once used, it is not recovered.

In addition, the outer diameter of the neck portion 24 of the consumable conical drilling rod 20 is formed to be smaller than the inner diameter of the lower portion of the steel pipe 10 to drive the steel pipe to the ground below the ground water level and then lift the consumable conical drilling rod when lifting the steel pipe 10 20 can be easily lifted from the bottom of the steel pipe without being lifted with the steel pipe (10).

In addition, the upper end of the steel pipe 10 in the present invention, the female threaded portion 12 is formed on the inner surface to facilitate coupling and separation of the impact adapter 30, the lower outer surface of the impact adapter 30 can be The threaded portion 32 is formed so as to be coupled and separated by mutual screwing.

The upper part of the hitting adapter 30, the hitting portion 34 that is in direct contact with the hammer or electric hammer so as to prevent the upper end of the steel pipe 10 is damaged when hitting the steel pipe 10 in the ground Is formed thickly, the side of the hitting portion 34 is formed in the shape of a polygon to facilitate the separation of the hitting adapter 30 for the investigation of the groundwater level or sampling of the groundwater after driving the steel pipe in or on this side It is preferable to form a tool groove or the like for inserting and rotating the tool.

The process of installing the simple well by using the simple well installation apparatus of the present invention configured as described above will be described sequentially.

4 is a cross-sectional view sequentially showing the installation process of the present invention, the operation proceeds sequentially from left to right

First, the upper and lower ends of the steel pipe 10, respectively, the impact adapter 30 and consumable conical drilling rods 20 are combined. In this state, hitting the adapter 30 for the upper portion of the steel pipe 10 to the position where the well is to be installed, the hammer or electric hammer, such as not shown to drive the steel pipe 10 into the ground (G).

In the above blow process, as shown in the middle figure of FIG. 4, the lower end of the steel pipe 10 must be driven to the bottom of the groundwater surface W, and thereafter, the blow adapter 30 coupled to the upper portion of the steel pipe 10. ).

After removing the hitting adapter 30 and reconfirming that the steel pipe 10 is embedded below the groundwater level, the steel pipe 10 is slightly lifted up using the lever 40 or the like on the ground as shown in the right figure of FIG. When raised, the consumable conical drilling rod 20 fitted to the bottom of the steel pipe 10 is spaced apart from the bottom of the steel pipe 10 while the upper end 23 of the head 22 is caught by the soil in the ground and can not be lifted up. By this, groundwater is introduced into the steel pipe 10 through the slit 26 formed in the neck 24 of the consumable conical drilling rod 20, and the groundwater sampling and measurement of the groundwater level are performed through the steel pipe 10 from the ground. It becomes possible.

When the groundwater level and / or groundwater sampling is completed, the impact adapter 30 or a separate closing cap (not shown) is coupled to the upper portion of the steel pipe 10 to seal the groundwater contamination due to the inflow of contaminated water. This can be prevented, and it can be separated and inspected at a later time for sampling for groundwater or water quality inspection.

As described above, the present invention is to dig the existing land to dig the steel pipe and re-fill the soil to avoid the hassle of the work method and to install the well in the state of the impact adapter and consumable conical drilling rods respectively fitted to the upper and lower parts of the steel pipe By hitting the position of the steel pipe to lift the steel pipe by slightly lifting the conical conical drilling rods inserted into the lower portion of the steel pipe through the slit formed in the neck of the consumable conical drilling rod, the ground water is introduced into the steel pipe, according to the present invention It has a useful effect that can be installed easily and quickly.

Claims (2)

Steel pipe 10, the consumable conical drilling rod 20 is detachably coupled to the bottom of the steel pipe 10, made of a blow adapter 30 detachably coupled to the top of the steel pipe 10, the Consumable conical drilling rod 20 has a conical head portion 22 having a pointed bottom is formed at the bottom, the neck portion 24 is formed to be inserted into the steel pipe 10 in the upper portion of the head portion 22 The neck 24 is formed with a slit 26 penetrating in and out, and the diameter of the upper end 23 of the head portion 22 is larger than the outer diameter of the steel pipe 10, the neck 24 of the Outer diameter is a simple pipe installation device for monitoring groundwater, characterized in that formed smaller than the inner diameter of the lower portion of the steel pipe (10). The method according to claim 1, Female screw portion 12 is formed on the inner surface of the upper end of the steel pipe 10, the male screw portion 32 is a simple pipe installation device for groundwater monitoring, characterized in that the male thread portion 32 is formed on the lower periphery of the hitting adapter (30).

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