JP4953171B2 - Liquid volume measuring device - Google Patents

Description

  The present invention relates to a liquid quantity measuring device for detecting the liquid level of an underground tank for storing oil such as fuel oil at a gas station or the like and measuring the amount of fuel oil or the like stored in the underground tank.

In an oil filling station that supplies fuel oil to an automobile, a liquid amount measuring device is provided for inventory management of fuel oil in an underground tank.
The liquid level measuring means of the liquid amount measuring device is provided in the underground tank, and the liquid level measured by the liquid level measuring means is converted into an electric signal and transmitted to the display means for displaying the liquid amount. Here, the display means is arranged, for example, in a gas station office.
A signal line for transmitting the liquid level signal measured by the liquid level measuring means to the display means is combined with a signal line connected to the display means in a terminal box in the manhole.

In recent years, with the aging of underground tanks, environmental problems have occurred due to leakage and the like.
In order to prevent such environmental problems, an old underground tank is replaced, or in order to detect leakage of fuel oil from the underground tank, the liquid level measuring means is replaced with an existing float type sensor with a high precision magnetostrictive sensor. Have been replaced.

However, when the liquid level measurement means is replaced (so-called “replacement”) (so-called “replacement”), if the manhole inner diameter is small or the manhole height dimension is small, the signal of the liquid level measurement means There are cases where it is difficult to accommodate the wire in a manhole.
In such a case, conventionally, it is necessary to perform not only the replacement of the liquid level measuring means but also the manhole etc., and the work in the construction is complicated and the cost for the construction increases. Had the problem.

As another conventional technique, for example, a tank liquid level measuring device has been proposed in which a configuration relating to temperature correction is provided on the underground tank side and the equipment in the manhole is made compact (Patent Document 1).
However, the related art (Patent Document 1) solves the problem related to accommodating the signal line of the liquid level measuring means in the manhole when the inner diameter dimension of the manhole is small or the height dimension of the manhole is small. Not what you want.

Japanese Patent No. 3307610

  The present invention has been proposed in view of the above-described problems of the prior art, and it is an object of the present invention to provide a liquid amount measuring apparatus that can easily replace the liquid level measuring means and reduce the construction cost. .

  The present invention relates to a liquid level measuring means (7: magnetostrictive sensor 15) for measuring the liquid level in the underground tank (3) and the liquid level based on the liquid level signal of the liquid level measuring means (7: magnetostrictive sensor 15). And a terminal box (12) for connecting the signal line (8) of the liquid level measuring means (7: magnetostrictive sensor 15) and the signal line (18) of the display means (17). The terminal box (12) is arranged in the manhole (11), and the liquid level measuring means (7: magnetostrictive sensor 15) is installed in the region of the rising pipe (9) from the underground tank (3) The signal line (8) of the position measuring means (7: magnetostrictive sensor 15) is led into the manhole (11) through the hole (23) of the flange (10) blocking the upper end of the riser tube (9), and the terminal The box (12) is fixed to the flange (10) and inside the manhole (11) Flange (10) signal lines that exist in the upper region (8) is covered with a protective member (protective cover 13 and the bracket 13B).

  Here, the flange (10) is fixed to the upper end of the rising pipe (9) of the manhole (11) with a bolt (22), and at least one of the bolts (22) for fixing the flange (10) is a protective member. The substrate (24) of the (protective cover 13 and bracket 13B) is fixed, and the support (26) is implanted in the substrate (24), and the terminal box (12) is fixed on the support (26). The bolt (22) for fixing the substrate (24) is covered, and the upper plate of the protective member (protective cover 13 and bracket 13B) covering the signal line (8) (the upper plate 29 of the protective cover 13) is covered with the substrate (24). ) Is preferably attached.

  The protective member (protective cover 13 and bracket 13B) and terminal box (12) are preferably sealed.

The upper plate (the upper plate 29 of the protective cover 13) of the protective member (the protective cover 13 and the bracket 13B) preferably covers a part of the terminal box (12).
Alternatively, a cutout (29d) is formed in the upper plate (the upper plate 29 of the protective cover 13) of the protective member (the protective cover 13 and the bracket 13B), and the upper lid (12a) of the terminal box (12) is exposed. It is preferable.

  Further, a long hole (25) is formed in the substrate (the substrate 24 of the bracket 13B) of the protective member (the protective cover 13 and the bracket 13B), and the long hole (25) has a head (22a) of the bolt (22). It has a large diameter (25a) to pass through and a small diameter (25b) through which the head (22a) does not pass, and the base plate (24) is flanged by a bolt (22) inserted through the small diameter (25b) of the long hole (25). It is preferable to be fixed to (10).

The effects of the present invention are listed below.
(1) The signal lines (8, 18) of the liquid level measuring means (7: magnetostrictive sensor 15) and the display means (17) are led out into the manhole (11), and the terminal box (12 Since the signal lines (8, 18) are connected in (), the wiring of the liquid quantity measuring device (1) is facilitated, and the work efficiency at the time of installation, replacement of sensors, etc., and maintenance inspection is improved.
(2) If the signal line (8) of the liquid level measuring means (7: magnetostrictive sensor 15) is covered with a protective member (protective cover 13 and bracket 13B), a signal is required for installation, replacement of the sensor, etc. It is possible to prevent the line (8) from being damaged. Furthermore, the signal line (8) can be made more compact than when the signal line (8) is passed through a flexible metal tube.
(3) If the signal line (8) can be exposed by removing the protective member (protective cover 13), when the liquid level measuring means (7: magnetostrictive sensor 15) is inclined, the signal line (8 ) To easily return the liquid level measuring means (7: magnetostrictive sensor 15) to a vertical state.
(4) If at least one of the bolts (22) for fixing the flange (10) fixes the protective member substrate (the substrate 24 of the bracket 13B) and is covered with the terminal box (12), the terminal The flange (10) cannot be removed from the riser (9) unless the box (12) is removed. Therefore, an unauthorized person can be prevented from handling the liquid level measuring means (7: magnetostrictive sensor 15), and the accuracy of the liquid amount measuring device can be ensured.
(5) Since the upper plate of the protective member (the upper plate 29 of the protective cover 13) covers a part of the terminal box (12), unless the upper plate (the upper plate 29 of the protective cover 13) is removed, the terminal box The internal mechanism (12) cannot be operated. Therefore, it is possible to prevent an unauthorized operation on the liquid level measuring means by removing the upper cover of the terminal box.
(6) If the protective member (protective cover 13) and the terminal box (12) are configured to be sealed (31), the seal (31) is broken to protect the protective member (protective cover 13) and the terminal box (12). Unless removed, the flange (10) cannot be removed from the riser tube (9). For this reason, maintenance and inspection by an unauthorized person can be prevented more firmly.
(7) A notch (29d) is formed in the upper plate of the protective member (the upper plate 29 of the protective cover 13) where the terminal box (12) is located to expose the upper lid (12a) of the terminal box (12). For example, it is possible to easily perform maintenance and inspection work of the terminal box (12) by removing the upper cover of the terminal box (12) without removing the upper plate (29).
(8) A bolt (22) in which a long hole (25) having a large diameter (25a) and a small diameter (25b) is formed in the protective member substrate (substrate 24 of the bracket 13B), and the small diameter portion (25b) of the long hole is inserted. ), The bolt (22) is slightly loosened to slightly displace the relative position with the substrate (24), and the bolt (22) has a large diameter. If it is located in the portion (22a), the substrate (24) can be easily removed from the flange (10), and labor required for maintenance and inspection work is reduced.

It is a schematic diagram of the gas station which installed the liquid quantity measuring device which concerns on 1st Embodiment. It is sectional drawing which shows the principal part of the liquid quantity measuring device which concerns on 1st Embodiment. It is a top view which shows the principal part of the liquid quantity measuring device which concerns on 1st Embodiment. It is a perspective view which shows the principal part of the liquid quantity measuring device which concerns on 1st Embodiment. It is a top view which shows the principal part of the liquid quantity measuring device which concerns on 2nd Embodiment.

Embodiments of the present invention will be described below with reference to the accompanying drawings.
1 to 4 show a first embodiment of the present invention.
In FIG. 1, the state which installed the liquid quantity measuring device 1 which concerns on 1st Embodiment in the gas station 2 is shown typically.

In FIG. 1, an underground tank 3 is embedded in the gas station 2. The fuel oil 4 in the underground tank 3 is supplied to a fuel tank of an automobile (not shown) by a measuring machine 5.
The fuel oil 4 in the underground tank 3 is replenished from the lubrication pipe 6 when the amount of the fuel oil 4 is reduced, and the amount of liquid in the underground tank 3 is detected in order to manage the amount of fuel oil 4 in the underground tank 3 A liquid amount measuring device 1 is provided.

The liquid level of the fuel oil 4 in the underground tank 3 is measured by the liquid level measuring means 7 of the liquid amount measuring device 1, and the liquid level measuring means 7 is installed in the underground tank 3.
The signal line 8 of the liquid level measuring means 7 passes through a tank side pipe 35 provided at the top of the tank 3 (so-called “tank top”), and through a rising pipe 9 and a flange 10 that closes the upper end thereof. It is led out into the manhole 11 and introduced into the terminal box 12 fixed to the flange 10.
In the manhole 11, in the region above the flange 10, the signal line 8 is covered with a protective cover 13 and a bracket 13B. Here, in FIGS. 1 to 3, the protective cover 13 and the bracket 13 </ b> B may be comprehensively expressed by reference numeral 13.

The liquid level measuring means 7 can be constituted by a magnetostrictive sensor 15 or a sensor having a magnetosensitive element disposed in a measuring tube.
In the illustrated embodiment, a magnetostrictive sensor 15 is used as the liquid level measuring means 7.
In other words, in this specification, the “liquid level measuring means 7” is a comprehensive expression including the magnetostrictive sensor 15.

In FIG. 1, the display unit 17 of the liquid amount measuring device 1 is provided in the office 16 of the gas station 2 or the like. The signal line 18 of the display means 17 is disposed in the protective tube 19 and led out into the manhole 11.
The signal line 18 led out into the manhole 11 is introduced into the terminal box 12, and in the terminal box 12, the signal lines 8 and 18 are connected so that an electric signal can be transmitted.

In the gas station 2 described with reference to FIG. 1, the liquid level of the fuel oil 4 in the underground tank 3 is measured by the magnetostrictive sensor 15 and transmitted to the display means 17 via the signal lines 8 and 18.
In the display means 17, the amount of liquid in the underground tank 3 is calculated based on the liquid level measured by the magnetostrictive sensor 15, and the calculation result is displayed on the display 20.
Thereby, it is comprised so that inventory control of the fuel oil 4 may be made.

FIG. 2 shows a cross section of the main part of the liquid amount measuring device 1, the plan shape of the main part is shown in FIG. 3, and the arrangement of the main components constituting the main part is shown in FIG. ing.
2 to 4, the upper part of the riser 9 is exposed in the manhole 11. The opening at the upper end of the rising tube 9 is closed by a flange 10, and the flange 10 is fixed by a bolt 22.
The signal line 8 of the magnetostrictive sensor 15 is led out into the manhole 11 through the hole 23 in the center of the flange 10. The gap between the hole 23 and the signal line 8 is sealed in a known manner.
Since the opening of the riser 9 is closed by the flange 10 and the hole 23 of the flange 10 through which the signal line 8 is inserted is sealed, the vapor of the fuel oil 4 in the underground tank 3 flows into the manhole 11. There is no safety.

A long hole 25 is formed in the substrate 24 of the bracket 13B, and a large diameter 25a and a small diameter 25b are formed in the long hole 25. The large diameter 25a has a diameter that allows the head portion 22a of the bolt 22 to pass through, and the small diameter 25b has a diameter that allows the shaft portion of the bolt 22 to pass through but cannot pass the head portion 22a. Is set.
The substrate 24 of the bracket 13B is fixed to the flange 10 by a bolt 22 inserted through the small diameter 25b of the long hole 25.
Since the board 24 is fixed to the flange 10 by the bolts 22 inserted through the long holes 25 formed therein, the bolts 22 are slightly loosened and the board 24 is moved slightly so that the position of the large diameter 25a is moved to the bolts 22. The substrate 24 can be removed from the flange 10.

A support 26 is fixed to the board 24 of the bracket 13B so as to surround the long hole 25, and the terminal box 12 is fixed to the support 26 by a bolt 27.
As a result, since the terminal box 12 is attached at a position directly above the bolt 22 communicated with the long hole 25, the flange 10 cannot be removed from the rising tube 9 unless the terminal box 12 is removed. That is, unless the terminal box 12 is removed, the flange 10 cannot be removed from the rising tube 9.
Here, since the vertical position of the terminal box 12 can be set corresponding to the protective tube 19 by selecting the length of the support 26, the installation and replacement work of the terminal box 12 is facilitated.

The upper cover 12 a of the terminal box 12 is fixed with bolts 28.
In order to connect the signal line 8 and the signal line 18 in an electrical signal manner, the bolt 28 is released, the upper cover 12a is removed, and the signal line 8 is introduced into the terminal box 12.
And the upper board 29 of the protective cover 13 is being fixed to the board | substrate 24 of the bracket 13B with the volt | bolt 30 in the state which covers a part of upper cover of the terminal box 12 (refer FIG. 3).
The shapes and dimensions of the protective cover 13 and the bracket 13B should be determined on a case-by-case basis due to the shape and dimensions of the manhole 11, the dimensions of the flange 10, and the like.

As described above, in the region above the flange 10 in the manhole 11, the signal line 8 is surrounded by the protective cover 13 and the bracket 13B. More specifically, the signal line 8 is surrounded and protected by the rising portion 24a of the substrate 24 of the bracket 13B and the legs 29a, 29b, and 29c of the upper plate 29 of the protective cover 13.
Therefore, it is possible to prevent an unillustrated worker from stepping on the signal line 8 during various operations (for example, installation and maintenance / inspection work) in the manhole 11, and to prevent the signal line 8 from being damaged.

When the upper plate 29 of the protective cover 13 is removed, the signal line 8 is exposed.
For example, even if the magnetostrictive sensor 15 is slightly tilted with respect to the vertical (vertical) axis due to the addition of an earthquake, external vibration, or other reasons, it is easy to follow the vertical (vertical) axis. It can be returned to the state.
As clearly shown in FIG. 2, the outer diameter of the flange portion 15 </ b> C of the magnetostrictive sensor 15 is set to be slightly smaller than the inner diameter of the rising tube 9. Therefore, the outer edge portion of the collar portion 15 </ b> C contacts the inner wall of the rising tube 9, so that the magnetostrictive sensor 15 is held in a state of being arranged along the vertical axis.
If the magnetostrictive sensor 15 is slightly tilted with respect to the vertical (vertical direction) axis due to the addition of an earthquake, external vibration, or any other reason, the signal line 8 is slightly pulled up to slightly move the magnetostrictive sensor 15 The signal line 8 is sent downward and the liquid level measuring means 7 is lowered, and if necessary, the signal line 8 is pulled up and sent downward to repeat the simple operation of repeating the outer edge of the collar portion 15C. And the inner wall of the rising tube 9 are in contact with each other in an appropriate state. As a result, the magnetostrictive sensor 15 returns to a state along the vertical (vertical direction) axis.

Here, when the distance (vertical direction distance) from the uppermost part of the underground tank 3 (so-called “tank top”) to the flange 10 is short and the riser tube 9 is short, the flange portion 15C of the magnetostrictive sensor 15 is shown in FIG. In this way, it is not located in the rising pipe 9 but is located in the tank side pipe 35 below it.
As apparent from FIG. 2, the inner diameter of the tank side pipe 35 is much larger than the outer diameter of the collar portion 15C of the magnetostrictive sensor 15, so that the outer edge of the collar portion 15C and the inner wall of the rising pipe 9 are in an appropriate state. Does not touch. Therefore, when the strain sensor 15 is slightly inclined with respect to the vertical (vertical direction) axis, even if the signal line 8 is pulled in from above the flange 10 in the above-described manner, the magnetostrictive sensor 15 is moved in the vertical direction ( (Vertical direction) Cannot return to the state along the axis.
That is, the distance (vertical direction distance) from the uppermost part of the underground tank 3 (so-called “tank top”) to the flange 10 is at least the flange portion 15C of the magnetostrictive sensor 15 (as shown in FIG. 2). It needs to be set to be located within.

In the first embodiment of FIGS. 1 to 4, the signal line 18 of the display means 17 is introduced into the terminal box 12 in the region above the flange 10 in the manhole 11, and the protective tube 19 of the signal line 18 is connected to the terminal box 12. It is connected to the. The signal line 18 is connected in the terminal box 12, and the upper lid 12 a is fixed with a bolt 28. Thus, since the signal line 18 is protected by the protective tube 19, it is possible to prevent the signal line 18 from being damaged during installation and maintenance inspection work.
Surrounding the signal line 8 with the protective cover 13 and the bracket 13B to protect it from damage causes a necessary structure as compared with a method of protecting the signal line 8 by inserting it into a flexible metal tube. It is compact, and as described above, the return operation when the magnetostrictive sensor 15 is slightly inclined with respect to the vertical (vertical) axis is extremely easy.

In 1st Embodiment of FIGS. 1-4, the protective cover 13 and the terminal box 12 are sealed by the sealing 31 (a seal | sticker, a wire, etc.).
As described above, the flange 10 cannot be removed from the riser tube 9 unless the terminal box 12 is removed, and the terminal box 12 cannot be removed unless the protective cover 13 is removed. When working, it is essential to remove the protective cover 13.
Here, if the seal 35 is provided as described above, even if an unauthorized person tries to perform maintenance and inspection work of the magnetostrictive sensor 15, the flange 10 is raised as long as the seal 35 is not broken and the protective cover 13 is not removed. Cannot be removed from 9. In other words, the seal 35 prevents maintenance work of the magnetostrictive sensor 15 by an unauthorized person.
Note that a sealing sticker may be attached instead of the sealing wire 31 for sealing.

Furthermore, according to the liquid amount measuring apparatus 1 according to the first embodiment, the signal lines 8 and 18 of the magnetostrictive sensor 15 and the display unit 17 are led out into the manhole 11 and the signal lines 8 and 18 are connected in the terminal box 12. Therefore, the working efficiency in wiring or installation of the signal lines 8 and 18 can be increased.
When the existing float type sensor is replaced with the high-precision magnetostrictive sensor 15, only the float type sensor is replaced with the magnetostrictive sensor 15, and the display means 17 and the signal line 18 can be reused, which is economical. .

FIG. 5 shows a second embodiment of the present invention.
In the liquid amount measuring apparatus 1 shown in FIG. 5, a notch 29 d is formed in the upper plate 29 of the protective cover 13. And the upper cover 12a of the terminal box 12 is exposed by providing the notch 29d.
Since the upper cover 12a of the terminal box 12 is exposed, the upper cover 12a of the terminal box 12 can be opened without removing the upper plate 29 of the protective cover 13. Therefore, the maintenance and inspection work of the terminal box 12 becomes easy, and the work efficiency in the maintenance and inspection work of the terminal box 12 can be improved.
Other configurations and operational effects in the second embodiment of FIG. 5 are the same as those of the first embodiment of FIGS.

The illustrated embodiment is merely an example, and is not intended to limit the technical scope of the present invention.
For example, the illustrated embodiment describes the installation of a liquid level measuring device that detects the liquid level of an underground tank in a gas station, and the construction work when replacing the liquid level measuring means is easy and the construction cost is reduced. Although the liquid amount measuring device that can be used is described, the illustrated embodiment can be applied to other types of liquid amount measuring devices.

DESCRIPTION OF SYMBOLS 1 ... Liquid quantity measuring device 2 ... Filling station 3 ... Underground tank 4 ... Fuel oil 5 ... Metering machine 6 ... Lubrication pipe 7 ... Liquid level measuring means 8, 18, ..Signal wire 9 ... rise tube 10, 21 ... flange 11 ... manhole 12 ... terminal box 13 ... protective cover 13B ... bracket 14 ... float 15 ... magnetostrictive sensor 15C ... Magnetostrictive sensor flange 16 ... Office 17 ... Display means 19 ... Protection tube 20 ... Indicators 22, 27, 28, 30 ... Bolt 23 ... Hole 24 ... Substrate 25 ... Elongated hole 26 ... Post 29 ... Upper plate 31 ... Sealing 35 ... Tank side piping

Claims (6)

A liquid level measuring means for measuring the liquid level in the underground tank, a display means for displaying a liquid amount based on a liquid level signal of the liquid level measuring means, a signal line for the liquid level measuring means, and a signal line for the display means; The terminal box is arranged in a manhole, the liquid level measuring means is installed in the region of the riser pipe from the underground tank, and the signal line of the liquid level measurement means is connected to the upper end of the riser pipe. The liquid amount is introduced into the manhole through the hole of the closing flange, the terminal box is fixed to the flange, and the signal wire existing in the region above the flange in the manhole is covered with a protective member. Measuring device. The flange is fixed to the upper end of the riser pipe of the manhole with a bolt, and at least one of the bolts fixing the flange is fixing a substrate of a protective member, and a post is implanted on the substrate, and the terminal box is 2. The liquid amount measuring apparatus according to claim 1, wherein a bolt for fixing the substrate fixed on the support is covered, and an upper plate of a protective member for covering the signal line is attached to the substrate. The liquid quantity measuring device according to claim 2, wherein the protective member and the terminal box are sealed. The liquid quantity measuring device according to claim 2, wherein the upper plate of the protective member covers a part of the terminal box. The liquid amount measuring device according to claim 2, wherein a notch is formed in the upper plate of the protective member, and an upper lid of the terminal box is exposed. A long hole is formed in the substrate of the protective member, the long hole has a large diameter that passes the head of the bolt and a small diameter that does not pass the head, and the substrate is a flange with a bolt inserted through the small diameter of the long hole. The liquid quantity measuring device according to any one of claims 2 to 5, which is fixed to the water.

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