JPS624317B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a safety device that automatically stops discharging when a designated liquid in a tank lorry and a liquid discharged from the tank do not match.

Conventional tank trucks store different types of liquids (e.g. gasoline, kerosene, diesel oil, etc.) in different chambers within the tank, open the bottom valve of the chamber containing the required liquid, and pour the liquid into the storage chamber at a gas station, etc. It is designed to be expelled. However, it is difficult for workers to identify from the outside which liquid is in each chamber of the tank, and due to misunderstandings on the part of the worker, liquid that does not match the liquid stored in the storage chamber may be discharged from the tank. However, there is no means to detect such erroneous operation, and the current situation is that it is only noticed after the entire amount has been drained from the tank.

In order to solve the above-mentioned problems, the present invention has the following features:
By utilizing the differences in specific gravity of various liquids, when liquid other than the specified liquid is discharged from the tank, the discharge pipe is automatically shut off to prevent any more liquid from being discharged.

The embodiment will be described below with reference to the drawings. Reference numeral 1 denotes a tank mounted on a vehicle body (not shown), and the tank 1 is divided into three chambers 2, each chamber 2 containing a different liquid. For example, it is formed in a sealed shape so that it can contain gasoline, kerosene, light oil, etc.

Each chamber 2 has a bottom valve 3 at its bottom.
. . . are provided, and the bottom valve 3 . . . can be opened and closed using a handle 4 . Reference numeral 5 denotes a discharge pipe that leads the liquid in the tank 1 to a storage room (not shown) of a gas station or the like, and the discharge pipe 5 is connected to a branch pipe 6 extending from each of the bottom valves 3 and each branch. It is composed of a main pipe 7 to which pipes 6...... are connected. A safety device 8, which will be described later, is provided in the middle of the main pipe 7, which can shut off the main pipe 7 if the specified liquid and the liquid flowing through the main pipe 7 do not match, and an on-off valve 9 is provided at the tip. be.

8 is a safety device composed of a foreign liquid detection device 10, an automatic opening/closing valve 11, and an operating circuit 12; the foreign liquid detection device 10 detects the liquid flowing inside the discharge pipe 5 by using the specific gravity of the liquid; If the detected liquid and the liquid specified by the operator in the operating circuit 12 do not match, the automatic on-off valve 11 is operated to discharge the discharge pipe 5.
It has become possible to block out

First, the foreign liquid detection device 10 will be explained with reference to FIG. 2. 13 is a storage chamber expanded downward in the middle of the main pipe 7. A float 14 having a small specific gravity is also installed inside.

On the other hand, a shaft 15 passing through the side wall is rotatably supported on the side wall of the main pipe 7 behind the float 14,
A rod 16 is provided between the end of the shaft 15 inside the main pipe 7 and the float 14, so that when the float 14 moves up and down, the shaft 15 rotates.

Further, an arm 17 is fixed to the shaft 15 on the outside of the main pipe 7, and the free end of the arm 17 and the main pipe 7 are connected to each other.
A spring 18 is provided between the float 14 and the float 14 so that the float 14 is always below the liquid level.

Furthermore, the end of the shaft 15 outside the main pipe 7 is connected to the shaft 20 of the rotary switch 19 on the same axis. 21 is a drain valve provided at the lower part of the storage chamber 13.

The automatic opening/closing valve 11 is composed of a valve body 22 provided in the main pipe 7 in front of the foreign liquid detection device 10 and a solenoid 23 that controls the valve body 22. Under normal conditions, the valve body 22 protrudes from the main pipe 7. When the main pipe 7 is opened and the solenoid 23 is energized, the valve body 22 is inserted into the main pipe 7 and shuts off the main pipe 7.

Next, the operating circuit 12 will be described. Reference numeral 24 is a main circuit that communicates between the power source 25 and the solenoid 23. A rotary switch 19 is interposed on the main circuit 24. The main circuit 24 on the power supply 25 side is connected to the shaft 20, and the chamber 2 of the tank 1 is connected to the outer periphery.
The same number of contacts 26, 26', 26'' are provided, and each contact 26, 26', 26'' is provided by rotating the needle 27 fixed to the shaft 20 by the vertical movement of the float 14 of the foreign liquid detection device 10. 26'' are respectively energized. In addition, a part of the main circuit 24 has the same number of branch lines 28 and 2 as the chamber 2 of the tank 1.
8', 28'' is formed, one end of each branch line 28, 28', 28'' is concentrated into one, and the other end is connected to the contact point 26, 26', 26'', respectively. Furthermore, each branch line 28, 28', 28'' is provided with a liquid designation operation switch 3, which is a liquid designation device 31.
0, 30', 30'', and the corresponding switch 3
0, 30', and 30'' are normally maintained in a "contact" state.

FIG. 4 shows another embodiment of the liquid specifying device, with operation switches 32, 32', 32'' and relays R ₁ , R ₂ , R ₃
Main circuits 33, 33', 33'' connected in series are provided in parallel, and each main circuit 33, 33', 33'' has a relay switch corresponding to each relay R ₁ , R ₂ , R ₃ .
Interposed self-holding circuits 34, ₃ of r ₁ , r ₂ , r 3
4', 34'' are connected, and each of the above relays
Relay switch corresponding to R ₁ , R ₂ , R ₃ r ₁ , r ₂ , r ₃
Auxiliary circuits 36, 36', 36'' are provided in parallel with lamps 35, 35', 35'' connected in series.

In addition, each branch line 28, 28', 2 of the main circuit 24
Relay switches r ₁ , r ₂ , r ₃ corresponding to the respective relays R ₁ , R ₂ , R ₃ are provided on the 8″ and are normally in the “contact” state. Now, when any of the operation switches 32, 32', 32'' is turned on, the relay
R ₁ , R ₂ , R ₃ are energized, and the auxiliary circuits 36, 36', 3
Relay switches r ₁ , r ₂ , r ₃ on branch lines 28, 28', 28'' become ``disconnected'' and relay switches r <sub>1</sub> , r <sub>2</sub> , r <sub>3</sub> on branch lines 28, 28', 28'' become ``disconnected'' and the specified Lamps 35, 3 corresponding to switches 32, 32', 32''
5' and 35'' light up, allowing you to know at a glance what the specified liquid is.

Note that although the foreign liquid detection device of the embodiment detects liquid by using a difference in specific gravity of the liquid, a device that detects liquid by using a difference in density of the liquid may have the same function and effect. be.

The present invention has the above-mentioned structure, and its operation will be explained next. First, gasoline kerosene and light oil are separately stored in each chamber 2 of the tank 1 and transported to a discharge location. When arriving at the discharge location, if the liquid to be discharged is, for example, light oil, the operating switch 30 of the left branch line 28 of the main circuit parallel section 29 in FIG. 2 is turned off. Next, when the bottom valve 3 of the chamber 2 containing light oil is opened, the discharge pipe 5 and the storage chamber 13 are filled with light oil because the on-off valve 9 is closed.
Then, since the specific gravity of light oil (0.85) is greater than the specific gravity of other liquids (gasoline...0.75, kerosene...0.80), the float 14 resists the force of the spring 18 and moves below the liquid level. When the float 14 rises to the highest point (three-dot chain line), the rod 1
6. The needle 27 is rotated counterclockwise via the shafts 15 and 20, passing through the contact point 26'' of the right branch line 28'' and the contact point 26' of the intermediate branch line 28', respectively, and reaching the contact point 26 of the left branch line 28. It stops at the position where it touches. At this time, when the needle 27 comes into contact with the contacts 26'' and 26', the operation switches 30'' and 30' are temporarily in the "contact" state, so the main circuit 24 is energized, and the valve body 22 shuts off the mains.

However, since the needle 27 immediately passes through the contacts 26'' and 26', the solenoid 23 is de-energized and the valve body 22 rises again to open the main pipe 7.

When the needle 27 comes into contact with the contact point 26, the operating switch 30 of the left branch line 28 is turned off, so the solenoid 23 is not activated and the main pipe 7 is maintained in an open state.

Therefore, by opening the on-off valve 9, the required liquid can be accurately discharged.

Next, let us explain the case where diesel oil is specified as the liquid to be discharged but gasoline is discharged due to operator error.Since the specific gravity of gasoline is lower than other liquids, the float 14 will rise to the dashed line in Figure 2. At the same time, the hand 27 rotates counterclockwise and stops at a position where it touches the contact point 26'' of the right branch line 28''. Then, since the operation switch 30'' of the right branch line 28'' is maintained in the "closed" state, the main circuit 24 is energized, and the valve body 22 shuts off the main pipe 7 by the operation of the solenoid 23.

Therefore, even if the on-off valve 9 is opened, gasoline will not be discharged, thereby reliably preventing unnecessary liquid from being discharged.

After that, the bottom valve 3 on the gasoline side is closed, and the drain valve 21 is opened to discharge the gasoline in the discharge pipe 5. As the float 14 descends, the energization to the solenoid 23 is stopped, and the valve body 22 rises. and open main pipe 7. Then, the light oil bottom valve 3 is opened and the required liquid is accurately discharged.

In the embodiment, the automatic on-off valve is normally open and is closed when a liquid different from the specified liquid flows, but the liquid specifying device is normally turned off and when necessary. If the structure is designed so that the valve is in "contact" at times, it is possible to keep the automatic on-off valve open at normal times and open it when the specified liquid and the discharged liquid match. It is.

As described above, the present invention automatically stops discharging when there is a mismatch between the specified liquid and the liquid discharged from the tank. Therefore, even if an operator makes an incorrect operation when discharging liquid, this can be avoided in advance. This eliminates the risk of discharging unnecessary liquid as in the past.

[Brief explanation of the drawing]

FIG. 1 is an overall view of the tank lorry, FIG. 2 is an overall view of the safety device, FIG. 3 is a sectional view taken along line A-A in FIG. 2, and FIG. 4 is another embodiment of the liquid designation device. 1 is a tank, 3 is a bottom valve, 5 is a discharge pipe, 8 is a safety device, 10 is a foreign liquid detection device, 11 is an automatic opening/closing valve,
12 is an operating circuit.

Claims (1)

[Claims] 1. In a tank truck in which the inside of the tank is divided into a plurality of chambers, a bottom valve is provided at the bottom of each chamber, and the liquid can be discharged through a discharge pipe by opening the bottom valve, a foreign liquid is detected for the liquid in the discharge pipe. It is composed of at least a detection device, a liquid designation device that designates the liquid to be discharged, and an automatic on-off valve that closes the discharge pipe, and the liquid designated by the liquid designation device and the foreign liquid detection device are detected. A tank truck safety device in which an automatic opening/closing valve closes the discharge pipe when there is a mismatch between the discharged liquid and the discharged liquid.