JP2019073975A - Fuel supply system and fuel supply method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a fuel supply system and a fuel supply method capable of accurately detecting an abnormality such as a fuel leak. SOLUTION: A fuel transfer pump for transferring fuel in a fuel storage tank in which fuel is stored, a tank for transferring fuel, and whether or not to supply the fuel in the tank to an engine for a drainage pump and a private power generation device. When the oil level of the fuel in the tank drops to the lower limit level based on the valve for switching between the two, the level sensor for detecting the oil level of the fuel in the tank, and the detection result, the pump is started to operate and the pump is operated. If the oil level of the fuel in the tank rises to the upper limit level before the predetermined time limit elapses from the start of operation, the pump is stopped, and the oil level of the fuel in the tank rises to the upper limit from the start of operation of the pump. A fuel supply system comprising a control unit that performs at least one of stopping the pump, closing the valve, and issuing an alarm after the time limit elapses before climbing to a level. [Selection diagram] Fig. 1

Description

  The present invention relates to a fuel supply system and a fuel supply method.

  According to Patent Document 1, in the fuel supply system for supplying fuel from the fuel discharge tank to the load, fuel transfer from the main tank to the fuel discharge tank is started when the oil level in the fuel discharge tank becomes low level, It is disclosed to stop fuel transfer when the oil level in the fuel dispensing tank is at a high level. A similar system is disclosed in Patent Document 2 as well.

JP 10-141163 A Japanese Utility Model Publication No. 61-202677

  In such a fuel supply system, it is important to detect an abnormality such as a fuel leak in order to ensure safety.

  The present invention has been made in view of such problems, and an object of the present invention is to provide a fuel supply system and a fuel supply method capable of detecting an abnormality such as a fuel leak with high accuracy.

  According to one aspect of the present invention, a fuel transfer pump for transferring the fuel in the fuel storage tank where the fuel is stored, a tank to which the fuel from the fuel transfer pump is transferred, and the fuel in the tank are drained. Based on the detection result of the level sensor for detecting the level of the fuel in the tank, a valve for switching whether or not to supply the engine for drainage pump installed in the station and the private power generator, and the detection result by the level sensor When the oil level of the fuel in the tank falls to the lower limit level, the fuel transfer pump is started, and from the start of operation of the fuel transfer pump, the drainage pump engine and / or the private power generator are running or stopped. If the oil level of the fuel in the tank rises to the upper limit level before the time limit according to the time has passed, the fuel transfer pump is stopped, Stopping the fuel transfer pump, closing the valve, and alarming when the time limit has elapsed before the fuel level in the tank rises to the upper limit level from the start of operation of the fuel transfer pump And a controller for performing at least one of the following steps:

  The pipe connecting the fuel transfer pump and the tank has a first portion where the fuel is pumped by the fuel transfer pump, and a second portion where the fuel from the first portion falls into the tank. May be

  In this case, at least a part of the second portion is in the tank and it is desirable that a hole be provided.

  Alternatively, the first portion is provided with a shutoff valve that prevents the fuel from flowing backward from the tank to the fuel transfer pump, and the control unit is configured to control the fuel in the tank from the start of the operation of the fuel transfer pump. The fuel transfer pump may be stopped and the shutoff valve may be closed if the time limit has elapsed before the oil level has risen to the upper limit level.

  According to another aspect of the present invention, there is provided a method of supplying fuel to a drainage pump engine and a private power generator installed in a drainage station, comprising detecting an oil level of the fuel in the tank, and When the oil level of the fuel drops to the lower limit level, the fuel in the fuel storage tank where the fuel is stored is transferred to the tank by starting operation of the fuel transfer pump, and from the start of operation of the fuel transfer pump, the drainage pump The fuel transfer pump is stopped if the oil level of the fuel in the tank rises to the upper limit level before the time limit depending on whether the engine and / or the private power generator is operating or not has elapsed. The fuel transfer pump is stopped when the time limit has elapsed from the start of operation of the fuel transfer pump before the oil level of the fuel in the tank rises to the upper limit level. A fuel supply method for performing at least one of closing a valve for switching whether or not to supply the fuel in the tank to the engine for drainage pump and the in-house power generator, and issuing an alarm Is provided.

  Accurately detect abnormalities such as fuel leaks.

The schematic block diagram of a fuel supply system. The flowchart explaining the setting method of the time limit by the control part 7. FIG. The flowchart which shows an example of the processing operation of a fuel supply system.

  Hereinafter, embodiments according to the present invention will be specifically described with reference to the drawings.

  FIG. 1 is a schematic block diagram of a fuel supply system. The fuel supply system supplies fuel to the fuel supply target 1 in a small amount, and in the following, the fuel supply target 1 is an engine for starting the drainage pump installed at the drainage station (engine for drainage pump 1a) And the in-house power generation apparatus 1b.

  The drainage pump engine 1a outputs an operation signal indicating an operation state, such as whether the engine itself is stopped or in operation. Similarly, the private power generation apparatus 1b outputs an operation signal indicating an operating state, such as whether it is operating or stopping. It is assumed that the fuel consumption per unit time during stop and operation of the drainage pump engine 1a and the private power generator 1b is known.

  The fuel supply system includes a fuel storage tank 2, a fuel transfer pump 3, a fuel delivery tank 4, a valve 5, an oil level detection float switch 6, and a control unit 7.

  The fuel storage tank 2 and the fuel transfer pump 3 are connected by a pipe 21, and it is desirable that the pipe 21 be provided with a check valve 21a. Further, it is desirable that the fuel transfer pump 3 and the fuel discharge tank 4 are connected by a pipe 22, and the pipe 22 is also provided with a check valve 22a. It is assumed that the pipe 22 in the present embodiment has an inverted U-shape including the vertical portion 22 b on the fuel transfer pump 3 side and the vertical portion 22 c on the fuel discharge tank 4 side. The vertical portion 22 c on the side of the fuel discharge tank 4 penetrates the inlet 4 a provided on the top surface of the fuel discharge tank 4.

  The outlet 4 b provided at the lower part of the fuel delivery tank 4 and the valve 5 are connected by a pipe 23. The valve 5 and the fuel supply target 1 are connected by a pipe 24.

  The fuel storage tank 2 stores the fuel used by the fuel supply target 1 in advance.

  The fuel transfer pump 3 transfers the fuel in the fuel storage tank 2 to the fuel delivery tank 4 via the pipes 21 and 22. More specifically, the fuel transfer pump 3 pumps up the fuel to the upper portion of the vertical portion 22 b of the pipe 21 and the pipe 22 on the fuel transfer pump 3 side. Thereafter, the fuel falls on the vertical portion 22 c on the side of the fuel discharge tank 4 by gravity and reaches the fuel discharge tank 4. The fuel transfer pump 3 is controlled by the controller 7 to operate and stop.

  The fuel delivery tank 4 is a tank for supplying fuel to the fuel supply target 1 for dispensing.

  The valve 5 is, for example, a motor-operated valve, and switches whether to supply the fuel to the fuel supply target 1 or not. More specifically, the valve 5 is normally open and fuel is supplied to the fuel supply target 1 from the fuel discharge tank 4. On the other hand, when the valve 5 is closed, fuel is not supplied from the fuel delivery tank 4 to the fuel supply target 1. The valve 5 is controlled by the control unit 7 to open and close.

  The oil level detection float switch 6 is a kind of level sensor, and detects the oil level level of the fuel in the fuel discharge tank 4. The oil level detection float switch 6 detects that at least the oil level has fallen to a predetermined lower limit level, and that the oil level has risen to a predetermined upper limit level. The detection result is notified to the control unit 7.

  The controller 7 controls the fuel transfer pump 3 in accordance with the level of the fuel in the fuel discharge tank 4. More specifically, when the fuel level of the fuel decreases to the lower limit level, the control unit 7 causes the fuel transfer pump 3 to operate. Thus, the fuel is transferred from the fuel storage tank 2 to the fuel delivery tank 4. Thereafter, when the fuel level rises to the upper limit level, the control unit 7 stops the fuel transfer pump 3.

  By the way, when any part of the pipes 21 to 24, the fuel discharge tank 4 and the fuel supply target 1 is damaged or the like, the fuel leaks to the outside. Therefore, the fuel does not easily accumulate in the fuel delivery tank 4 and the oil level does not rise. Assuming that the fuel transfer pump 3 is not stopped until the oil level reaches the upper limit level, the fuel transfer pump 3 does not stop forever and fuel leakage continues, which is dangerous. In addition, even when the fuel transfer pump 3 and the pipes 21 to 24 are partially clogged or the fuel transfer pump 3 is deteriorated with time and the fuel transfer efficiency is lowered, such an abnormality can not be detected.

  Therefore, the control unit 7 in the present embodiment starts counting from the operation start time of the fuel transfer pump 3 (that is, the time when the oil level decreases to the lower limit level), and the oil level is the upper limit even if a certain time limit has elapsed. If it does not rise to the level, the fuel transfer pump 3 is stopped or the valve 5 is closed.

  Here, since the time required for the fuel to accumulate from the lower limit level to the upper limit level depends on the operation state of the fuel supply target 1, the control unit 7 sets the limit time as follows.

  FIG. 2 is a flow chart for explaining how to set the time limit by the control unit 7. The control unit 7 receives an operation signal from the drainage pump engine 1a and the private power generator 1b (step S1), and determines whether these are in operation or in stop (step S2).

  When the drain pump engine 1a and the private power generator 1b are both stopped (NO in step S2), the drain pump engine 1a consumes almost no fuel as well. Therefore, the fuel should be collected in a relatively short time in the fuel delivery tank 4. Therefore, the control unit 7 sets the time limit short (step S3).

  More specifically, there is no abnormality in any of the pipes 21 to 24, the fuel transfer pump 3, the fuel delivery tank 4 and the fuel supply target 1, and the drainage pump engine 1a and the private power generator 1b are stopped. In some cases, a time slightly longer than an estimated time for the oil level in the fuel dispensing tank 4 to reach the upper limit level from the lower limit level is set as the time limit.

  On the other hand, when the drainage pump engine 1a or the private power generation apparatus 1b is in operation (YES in step S2), the drainage pump engine 1a or private power generation apparatus 1b consumes fuel also during fuel transfer. Therefore, it takes a relatively long time for the fuel to be accumulated in the fuel delivery tank 4 (relatively). Therefore, the control unit 7 sets the time limit long (step S4).

  More specifically, there is no abnormality in any of the pipes 21 to 24, the fuel transfer pump 3, the fuel delivery tank 4 and the fuel supply target 1, and the drainage pump engine 1a and the private power generation apparatus 1b are known fuels. When operating at the consumption amount, a time slightly longer than the time assumed for the oil level in the fuel discharge tank 4 to reach the upper limit level from the lower limit level is set as the time limit.

  The control unit 7 may set the time limit in consideration of the operation state of only one of the drainage pump engine 1a and the private power generation apparatus 1b, or sets the time limit in consideration of both operation states. May be In the latter case, the time limit can be set in four cases: the case where only the drainage pump engine 1a is in operation, the case where only the private power generator 1b is in operation, the case where both are stopped and the case where both are in operation. .

  FIG. 3 is a flowchart showing an example of the processing operation of the fuel supply system. In the beginning, it is assumed that the fuel level of the fuel in the fuel dispensing tank 4 is between the lower limit level and the upper limit level, and the fuel transfer pump 3 is stopped. Also, it is assumed that the valve 5 is open.

  The oil level detection float switch 6 detects the oil level level of the fuel in the fuel discharge tank 4 and notifies it to the control unit 7 at any time (step S11).

  When the oil level decreases to the lower limit level (YES in step S12), the control unit 7 starts the operation of the fuel transfer pump 3 and starts clocking (step S13). If the oil level rises to the upper limit level (YES in step S14) before the measured time reaches the time limit determined as described above (YES in step S14), the control unit 7 stops the fuel transfer pump 3 (step S15). This is the normal operation when there is no abnormality.

  On the other hand, before the oil level rises to the upper limit level (NO in step S14) and the time limit time elapses (YES in step S16), the control unit 7 stops the fuel transfer pump 3 and sets the valve 5 Close (step S17). Thereby, even if the fuel leaks, the further leak is suppressed. Further, even if the fuel does not leak, it is understood that there is a possibility that the fuel transfer pump 3 and the pipes 21 to 24 may be partially clogged or the fuel transfer pump 3 may be deteriorated with time.

  Here, if the time limit in step S16 is a fixed value that does not depend on the operation state of the fuel supply target 1, the following is feared.

  It is assumed that a short time limit is set on the assumption that the fuel supply target 1 is at a stop. In this case, if the fuel supply target 1 is in operation, the fuel does not rise to the upper limit level of the fuel discharge tank 4 even if there is no abnormality, and the fuel transfer pump 3 is erroneously stopped. And the valve 5 is closed.

  On the other hand, it is assumed that a longer time limit is set on the assumption that the fuel supply target 1 is in operation. In this case, if the fuel supply target 1 is stopped, it is delayed to stop the fuel transfer pump 3 or close the valve 5 when there is an abnormality, which may lead to a large amount of fuel leakage.

  On the other hand, in the present embodiment, the time limit is set according to the operation state of the fuel supply target 1. Therefore, even if the fuel target supply target 1 is in operation or in stop, control such as stop of the fuel transfer pump 3 can be appropriately performed.

  In step S17, the controller 7 may issue an alarm in addition to / in place of stopping the fuel transfer pump 3 and closing the valve 5. There is no particular limitation on the manner of the alarm, and for example, a remote operator or a terminal owned by the operator may be notified via a network such as the Internet. Such an alarm makes it possible to early recognize that some abnormality has occurred.

  In step S17, the control unit 7 may perform at least one of the stopping of the fuel transfer pump 3 and the closing of the valve 5. When the fuel leaks from the pipe 24 downstream of the valve 5 and the fuel supply target 1, the fuel leak can be suppressed only by closing the valve 5.

  When the fuel transfer pump 3 is stopped, if there is a failure (for example, a portion indicated by arrow A) in the vertical portion 22b of the pipe 22 on the fuel transfer pump 3 side, the fuel in the fuel dispensing tank 4 by the siphon principle It is also conceivable that the fuel flows backward in the pipe 22 until the oil level of the oil coincides with the broken part A and the fuel leaks from the broken part A. Therefore, a small hole is formed in a part (for example, a portion indicated by arrow B) in the fuel discharge tank 4 at the vertical portion 22c on the fuel discharge tank 4 side to prevent backflow by the siphon principle. desirable. Alternatively, an emergency shutoff valve is installed on the upper portion (for example, a portion indicated by arrow C) of the vertical portion 22b on the fuel transfer pump 3 side, and the fuel transfer pump 3 is stopped in step S17 and the emergency shutoff valve is closed. You may try to prevent backflow.

  As described above, in the present embodiment, the fuel transfer pump is used when the oil level does not reach the upper limit level even after a predetermined time limit has elapsed since fuel transfer from the fuel storage tank 2 to the fuel discharge tank 4 is started. Stop 3 or close the valve 5 or issue an alarm. Therefore, fuel leakage can be suppressed, or fuel leakage can be grasped at an early stage, improving safety. Then, by setting the time limit according to the operation state of the fuel supply target 1, it is possible to more reliably suppress the fuel leakage, or to more reliably grasp the fuel leakage, and the safety is further improved. .

  The embodiments described above are described for the purpose of enabling one skilled in the art to which the present invention belongs to to practice the present invention. Various modifications of the above-described embodiment can naturally be made by those skilled in the art, and the technical idea of the present invention can also be applied to other embodiments. Therefore, the present invention should not be limited to the described embodiments, but should be the broadest scope in accordance with the technical idea defined by the claims.

1 Fuel supply target 1a Drain pump engine 1b Private generator 2 Fuel storage tank 3 Fuel transfer pump 4 Fuel discharge tank 4a Inlet 4b Outlet 5 Valve 6 Oil level detection float switch 7 Control section 21-24 Piping 21a, 22a Reverse Vertical part of valves 22b and 22c

Claims (5)

A fuel transfer pump for transferring fuel in a fuel storage tank in which fuel is stored;
A tank to which the fuel from the fuel transfer pump is transferred;
A valve for switching whether or not the fuel in the tank is supplied to a drainage pump engine installed in a drainage station and a private power generator;
A level sensor for detecting an oil level of fuel in the tank;
When the oil level of the fuel in the tank falls to the lower limit level based on the detection result by the level sensor, the fuel transfer pump is started,
From the start of operation of the fuel transfer pump, the oil level of the fuel in the tank is at an upper limit before the time limit according to whether the drainage pump engine and / or the private power generator is operating or not has elapsed. If it rises to the level, stop the fuel transfer pump,
When the time limit has elapsed from the start of operation of the fuel transfer pump before the oil level of the fuel in the tank rises to the upper limit level,
Stopping the fuel transfer pump;
Closing the valve, and
Issuing an alarm,
A control unit that performs at least one of the following: The piping connecting the fuel transfer pump and the tank is
A first portion in which the fuel is pumped by the fuel transfer pump;
The fuel supply system according to claim 1, further comprising: a second portion from which the fuel from the first portion falls into the tank.   The fuel supply system according to claim 2, wherein at least a part of the second portion is in the tank and a hole is provided. The first portion is provided with a shutoff valve that prevents fuel from flowing backward from the tank to the fuel transfer pump;
The control unit stops the fuel transfer pump and stops the fuel transfer pump when the time limit has elapsed from the start of operation of the fuel transfer pump before the oil level of fuel in the tank rises to the upper limit level. The fuel supply system according to claim 2, which closes. A method for supplying fuel to an engine for drainage pump installed in a drainage station and a private power generator,
Detect the level of fuel in the tank,
When the fuel level in the tank drops to the lower limit level, the fuel transfer pump is started to transfer the fuel in the fuel storage tank where the fuel is stored to the tank,
From the start of operation of the fuel transfer pump, the oil level of the fuel in the tank is at an upper limit before the time limit according to whether the drainage pump engine and / or the private power generator is operating or not has elapsed. If it rises to the level, stop the fuel transfer pump,
When the time limit has elapsed from the start of operation of the fuel transfer pump before the oil level of the fuel in the tank rises to the upper limit level,
Stopping the fuel transfer pump;
Closing a valve for switching whether or not the fuel in the tank is supplied to the drainage pump engine and the private power generator;
Issuing an alarm,
The fuel supply method to perform at least one of: