JPS63110195A - Method of maintaining and inspecting underground tank - Google Patents

Abstract

(57) [Abstract] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a method for maintaining and inspecting underground tanks at gas stations and the like.

(Prior Art) Conventionally, after underground tanks, buried tanks, and attached piping in gas stations and the like are buried underground, it is not easy to inspect their condition from underground.

Therefore, to check for oil leaks in buried tanks and piping, etc.
It is considered that the pressurization test or depressurization test is conducted in the following order.

(1) Check for leakage of the liquid phase part.

As shown in Figure 8, a tank (
Float the float (C) on B), thereby opening the measuring port (
Measure the fluctuations in the liquid level for 10 hours or more using a recorder or the like installed in D) to confirm that no fluctuations occur.

(2) Decompression test.

The opening 1 of the tank (B) in Fig. 8, for example, the oil suction pipe (
Close E) and oil supply pipe (F) with valves, etc.

Close the ventilation pipe (G) or the metering port with a blind plate, etc.

Next, measure the amount of hazardous materials in tank CB).

Calculate the space volume and remove the amount necessary to obtain a predetermined reduced pressure value.

A manometer and a pressure recorder (both not shown) are attached to measure pressure fluctuations over a certain period of time.

(3) Investigating whether there is any leakage from underground piping, etc.

Similarly to the above, the opening of the piping is closed with a valve or a blind plate, and a pressurizing device, a pressure gauge, and a pressure recorder are attached.

Next, water or nitrogen gas is filled in, and a pressurizing device is used to
Increase the pressure in the piping to the academic pressure and measure pressure fluctuations.

(Problems to be Solved by the Invention) All of the above-mentioned test methods have been tried experimentally, but there is one problem when it comes to leakage tests of underground tanks already buried in gas stations.

In other words, the workability is poor, and the inspection jig must be manufactured to match the metal fittings of the underground tank, making it difficult to implement. do not have.

Therefore, there is a need for a better method for managing internal inspection, maintenance, etc. of underground tanks themselves.

(Means for Solving the Problems) The present invention enables people to enter the underground tank by digging into the ground and providing an inspection hole in the existing tank so that the interior of the underground tank can be inspected and repaired. This paper attempts to provide a new method for maintenance and inspection of underground tanks that allows maintenance and inspection to be carried out internally.

The underground tank maintenance and inspection method according to the present invention involves draining the oil in the underground tank and injecting water instead to remove gas, and then digging a hole in the ground leading to the underground tank.
Open the bottom end of the water filling cylinder.

It is brought into close contact with the upper surface of the underground tank in a liquid-tight state, and injected into the water-filling cylinder to fill the upper surface of the underground tank with water, and an inspection hole is drilled in the wall surface of the underground tank that becomes the bottom of the water-filling cylinder. After that, water is drained from the underground tank, and an inspector can enter through the inspection hole to inspect the underground tank and attached piping.

(Example) Hereinafter, an example of the present invention will be described in detail based on FIGS. 1 to 7.

(1) shown in Figure 1 is the site of the gas station, and its surface is
Covered with concrete pavement (la), this ground (
A basement (1b) is formed in the basement of 1).

A hollow cylindrical tank (2) for refueling with gasoline, etc. is installed on the floor of the basement (1b).
2) includes a suction pipe (3), a fuel supply pipe (4), a metering port (5), and a ventilation pipe (6) necessary for an underground tank.

Each is connected to a predetermined position.

To inspect this underground tank (2) for oil leaks, etc., first suck all the gasoline in the tank (2) through the suction pipe (3) and empty the tank (2). do.

Next, fresh water (H) is sent into the tank (2) through the oil supply pipe (4) to fill the tank (2).

In order to completely remove residual oil or gas from the tank (2), dry ice is introduced into the tank (2) through the metering port (5), and then the dissipation of the hot gas is carried out through the metering port (5) and In the ventilation pipe (6), measure with a gas detector (oxygen concentration meter),
confirm.

Next, in order to perform drilling work for the tank (2), drilling work is performed on the concrete pavement (1a).

Determine the hole location for the manhole (7) on the top surface of the tank (2), and excavate the concrete pavement (1a) and the ceiling of the basement (tb) corresponding to the hole hole location from above to form a 1. Drill a 2 m rectangular hole (8). Also,
A rectangular frame (9) made of channel material is fitted into the opening of the concrete pavement (la) and reinforced.

(lO) shown in Fig. 2 is a cylinder for filling with water, which has a rectangular cylinder shape with open upper and lower surfaces, and its front and rear plates (10a) (fo
The lower edge of b) is notched in an arc shape when viewed from the front so as to have the same radius of curvature as the outer peripheral surface of the tank (2).

A frame-shaped backing (11) made of rubber or the like is fitted to the lower opening edge of the water filling cylinder (10).

This water filling cylinder (lO) is inserted through the rectangular hole (8).
and temporarily place it on the top of the tank (2).

Next, use the drilling machine (12) shown in FIGS. 3 and 4.

Attach to the stand (18).

The vertical cylindrical main body (12a) of the drilling machine (12)
) is provided with a motor (13) at the upper end, and a pneumatic cylinder (14) is provided at the lower end of the main body (12a).

A rotatable and vertically movable shaft (15) projects downward.

The lower end of the shaft (15) has a center drill (16) in the center.
), and a corrugated blade (
17a) is attached.

The main body (12a) of the drilling machine (12) has a mounting bracket (18
b).

Reference numeral (19) shown in FIG. 4 is a push bolt, and a male thread provided on the outer periphery of its upper end is screwed into the bracket (20) of the pedestal (18).

The lower end surface of the push bolt (19) as described above.

After making contact with the upper end surface of the temporarily placed water-filled cylinder (10), rotate the push bolt (19) and press the water-filled cylinder (10) with its lower end, and the water-filled cylinder (10) will be released. The lower end surface is brought into close contact with the upper surface of the tank (2) in a liquid-tight manner.

Next, the operation of drilling an inspection hole (21) in the tank (2) will be explained.

After injecting water into the water filling cylinder (10) using a water supply hose (not shown) and filling it with water, drive the motor (13),
Rotate the center drill (16) and the blade (17).

Operate the operating handle (14a) of the pneumatic cylinder (14) to lower the shaft (15) and open the center drill (16).
Make a hole in the center of the opening with the blade (17a).
) to cut the top surface of the tank (2) and drill a 5-point hole (21).

In the embodiment, the inspection hole (21) is a round hole with a diameter of 45 cm.

After drilling the inspection hole (21), the drilling machine (12)
, the pedestal (18) is removed from the rectangular frame (9), and the water-filled cylinder (10) is also carried outside.

Next, the water in the tank (2) is drained, the air in the tank (2) is replaced, and the inside is cleaned.

Finally, the inspector enters the tank (2) through the inspection hole (21), visually inspects the interior, measures the plate thickness of the tank and piping, and
Perform various maintenance inspections such as pressure tests to check for leaks in tank piping.

As a result of the maintenance inspection, if necessary, paint the inside of the underground tank or repair the underground pipes, and if it is determined that the tank is not durable, replace the underground tank with a new one.

After the maintenance inspection and repair are completed, the manhole (7) is installed in the inspection hole (21) as shown in FIG.

The manhole (7) is a cylindrical part (7a) with open upper and lower surfaces.
, a flange (7b) horizontally protruding from the outer edge of the upper opening of the cylindrical portion (7a), and a flange (7b) attached to the lower outer peripheral surface of the cylindrical portion (7a) and complementary to the outer surface of the tank (2). The branch-like attachment consists of a ring (7c).

A ring-shaped packing (22) made of asbestos is installed between the mounting ring (7c) and the periphery of the inspection hole (24) of the tank (2).
) and attach them to the bolt (23) and nut (2).
4) by tightening them together, the manhole (
7) is fixed to the periphery of the inspection hole (21) of the tank (2) in an airtight manner.

In addition, the flange (7b) of the manhole (7) and the cover plate (2
5) is 1. By sandwiching the packing (26) made of asbestos joint sheet between the two and tightening them together with the bolt (27) and Nara I- (28),
The opening of the manhole (7) is hermetically closed with a cover plate (25).

Finally, restoration work is carried out around the rectangular hole (8) in the concrete pavement (1a), and a manhole cover (33) is installed to allow vehicle passage and to enable re-maintenance inspection.

That is, the flange cylinder (30) is fitted and fixed into the opening in the ceiling of the basement (1b), and the flange cylinder (30) is erected at the top of the tank (2) so as to surround the manhole (7). The upper parts of the provided cylinders (31) are fitted so that they slide relative to each other in the vertical direction, so that no trouble occurs even if only the tank (2) sinks.

A cocrete board (32) is fitted into the rectangular hole (8) in the concrete pavement (1a), and the concrete board (32)
) A manhole cover (33) is provided in the center of the area.

(Modified Example) In the above-described embodiment, the case where the tank is installed in the basement has been described, but the same procedure can be applied to the case where the tank is a buried tank buried underground.

Furthermore, although the manhole is fastened to the underground tank with bolts and nuts, instead of this, the manhole may be welded to the underground tank or may be fixed with adhesive or the like.

(Effects of the Invention) As described in detail above, according to the present invention, when drilling an inspection hole in a tank, water is filled above and below the tank hole.
When the center drill and blade of the drilling machine cut the outer wall surface of the tank, there is no risk of ignition of residual gas caused by heat or sparks, which is highly safe.

In addition, by providing inspection holes in underground tanks, it becomes possible for people to directly inspect the inside of the tank, making it easier to perform leakage tests on underground tanks, buried tanks, and their piping, which have been left unattended for many years. Useful for safe management of underground tanks and safe operation of gas stations, etc.

[Brief explanation of the drawing]

FIG. 1 is a longitudinal cross-sectional view of an underground tank to explain the work process of drilling an inspection hole in carrying out the present invention. Fig. 2 is a partially cutaway perspective view showing water filling work, Fig. 3 is a partially cutaway perspective view similarly showing drilling work, Fig. 4 is a central vertical sectional view of Fig. 3, and Fig. 5 is a partially cutaway perspective view showing water filling work. , an exploded longitudinal cross-sectional view showing the work of installing a manhole in an underground tank, Fig. 6 is a partial plan view showing the concrete pavement surface after restoration work, and Fig. 7 is a longitudinal cross-section taken along the line ■-■ in Fig. 6. The plan view and FIG. 8 are longitudinal cross-sectional views of a buried tank for explaining a conventional buried tank leakage test method. (1) Site (1a) Concrete pavement (1
b) Basement (2) Tank (3) Suction pipe
(4) Oil supply pipe (5) Measuring port (6) Ventilation pipe (7) Manhole (10) Water filling cylinder (11)
Packing (12) Drilling machine (16) Center drill (17) Blade (18) Mount (19) Push bolt (21) Inspection hole (22) (26)
Packing (25) Cover plate (32) Concrete plate (33) Manhole cover Figure 2 Figure 6 '32 Figure 7

Claims (1)

[Claims] After draining the oil in the underground tank and injecting water instead to release the gas, dig a hole in the ground that leads to the underground tank, and then insert the lower end opening of the water filling cylinder into the top surface of the underground tank. The upper surface of the underground tank is filled with water by injecting water into the cylinder in a liquid-tight manner, and an inspection hole is drilled in the wall surface of the underground tank, which is the bottom of the water-filling cylinder. 1. A method for maintenance and inspection of an underground tank, characterized in that an inspector can enter through the inspection hole to inspect the underground tank and attached piping.