KR100201345B1 - Refueling device - Google Patents

Abstract

An object of the present invention is a fuel supply device for outputting the driving signal in the order set to each submersible pump, the oil supply device so that even if the abnormality occurs in one of the submersible pump can not be driven, the other side can be supplied to the submersible pump To provide.

In order to achieve this, the present invention provides a submersible pump 2 provided in a plurality of oil storage tanks 1, a plurality of meters 10 connected to a discharge pipe of the submersible pump through a common pipe, and the oil supply request from the meter. In the lubrication device composed of a pump control device 30 for outputting a drive signal in the order set to each submersible pump upon receiving a signal, an abnormality detecting means 21 is provided in the driving circuit of the submersible pump, respectively, and the pump control The apparatus is configured to stop driving the submersible pump abnormally detected by the abnormality detecting means and output a drive signal only to other submersible pumps.

Description

Lubrication device

The present invention relates to a lubrication device in which a submersible pump is provided in each of a plurality of oil storage tanks, and the discharge pipe of the submersible pump is connected to a plurality of meters through a common oil supply pipe.

A submersible pump is provided in each of the plurality of oil storage tanks, and in the oil supply device in which the discharge pipe of the submersible pump is connected to a plurality of meters through a common oil supply pipe, the driving is alternately set when the capacity of each oil storage tank is the same. When the submersible pumps are alternately driven, or when the capacity of the low oil tanks is different, the driving sequence corresponding to the capacity is set and the submersible pumps are driven in the set order so that the oil in each low oil tank is used evenly.

In such a lubrication device, when an abnormality occurs in one of the submersible pumps and becomes inoperable, there is a problem that the lubrication is impossible when the submersible pump is operated in sequence even if the other submersible pump is normal. .

Therefore, the present invention is a fuel supply device for outputting the driving signal in the order set to each submersible pump, when the abnormality occurs in one of the submersible pump is not able to drive the lubrication device that can be supplied from the other submersible underwater pump The purpose is to provide.

In order to achieve the above object, the present invention provides a submersible pump provided in each of a plurality of oil storage tanks, a plurality of meters connected to a discharge pipe of the submersible pump through a common pipe, and each submersible pump when the oil supply request signal is received from the meter. In the lubrication device configured by the pump control device for outputting the drive signal in the order set in the above, the drive circuit of the submersible pump is provided with abnormality detection means, respectively, the pump control device is underwater in the abnormality detected by the abnormality detection means The pump is stopped and the driving signal is output only to other submersible pumps.

Each of the submersible pumps is provided with a return switch, and the pump control apparatus receives abnormality detection signals from the abnormality detection means, determines abnormality, and outputs an abnormality occurrence signal, and an oil supply request signal from the meter. When both are extinguished, the error return means for outputting the abnormal release signal by the return signal from the return switch, and the driving sequence of the submersible pump, receive the error occurrence signal from the error determination means, and store the abnormal state. Drive sequence memory means for receiving an abnormal release signal from the abnormal return means and for erasing the memory of the abnormal state, and outputting drive signals in the order stored in the drive sequence memory means, and stored in the abnormal state; The submersible pump stops running until the abnormal condition is cleared and the other submersible pump is Since the pump drive means which outputs a call is provided, the abnormal release after inspection is performed stably.

1 is an overall view for explaining the pump control apparatus of the present invention.

2 is a block diagram of the pump control apparatus of the present invention.

* Explanation of symbols for main parts of the drawings

1A, 1B: Oil tank 2A, 2B: Submersible pump

3A, 3B: Oil supply pipe 4A, 4B: Leak detection valve

5A, 5B: discharge pipe 6: oil supply pipe

7A, 7B: Branch pipe 10A, 10B: Meter

11A, 11B: Inlet pipe 12: Valve

13: flow pulse generator 14: flow meter

15: oil supply nozzle 16: nozzle switch

18: Lubrication control device 19: Indicator

20: Office 21A, 21B: Abnormal detection means

22: alarm 23A, 23B: return switch

30: pump control device 31: abnormal determination means

32: driving sequence memory means 33: abnormal return means

34: pump driving means

EMBODIMENT OF THE INVENTION Hereinafter, embodiment of this invention is described as an example which connected the water pump provided in two oil storage tanks to several meter. As shown in FIG. 1, two oil storage tanks 1A and 1B are provided in the basement of a gas station, and these oil storage tanks 1A and 1B are respectively provided with oil from a water pump 2A and 2B and a tank furnace cage. Lubrication pipes 3A and 3B are provided.

At the outlet of the submersible pumps 2A and 2B, leak detection valves 4A and 4B are provided. As shown in JP-A-8-34498, for example, as shown in Japanese Patent Application Laid-Open No. 8-34498, the leak detection valves 4A and 4B open the main valve to secure a large flow path when no oil flows to the outlet side. If there is oil flow to the side, the main valve is not opened, so that only the ownership is secured.

The discharge pipes 5A and 5B of the submersible pumps 2A and 2B are connected to a common oil supply pipe 6, and the oil supply pipes 6 are provided with a plurality of branch pipes 7A and 7B. It is branched to-and is connected to each inlet pipe 11A (11B) ------ of each meter 10A (10B).

A valve 12 and a flow meter 14 are attached to the inlet pipe 11A of the meter 10A, and a hose 16 to which an oil supply nozzle 15 is attached to the front end is connected, and a nozzle for hanging the oil supply nozzle 15 is connected. The hanger is provided with a nozzle switch 17.

The oil supply control device 18 provided in the meter 10A receives the signal from the nozzle switch 17, outputs the oil supply request signal to the pump control device 30 described later, and displays the preceding oil supply displayed on the display system 19. The oil supply amount at the time is returned to zero, and a valve opening signal is output to the valve 12. In addition, the fuel cell has a function of counting pulses from the flow rate pulse generator 13 of the flowmeter 14 and displaying them on the display 19.

Other meter 10B ----- The structure of the same shape as the meter 10A, and description is abbreviate | omitted.

On the other hand, in the office 20, the pump control apparatus 30 connected to the submersible pump 2A (2B) and the meter 10A (10B) ------ by a signal line is provided. In the drive circuits of the submersible pumps 2A and 2B, abnormal detection means 21A and 21B, such as a current sensor, are provided, and when abnormal current flows through the drive circuit of the submersible pump, the abnormal detection means 21A ( The detection signal output from 21B) is input to the pump control device. Then, an alarm 22 for notifying occurrence of an abnormality and return switches 23A and 23B for returning to normal after checking the abnormal state are provided.

As shown in FIG. 2, the pump control apparatus 30 receives the detection signal from the abnormality detection means 21A and 21B, determines an abnormality, and outputs the abnormality generation signal to the drive order determination means 32. In addition, when all of the abnormality determination means 31 which outputs an alarm signal to the alarm 22 and the oil supply request signal from the meter 10A (10B) ----- are extinguished, the return switch 23A ( The abnormal return means 33 for outputting the abnormal release signal to the driving sequence determination means 32 by the return signal from 23B), and the driving sequence of the submersible pump, and the abnormal occurrence signal from the abnormal determination means 31 Drive sequence storage means 32 for storing the abnormal state signal by receiving the abnormal release signal from the abnormal return means 33, and the order stored in the drive sequence memory means 32; Outputs driving signal to submersible pump It is provided with a pump driving means 34 for outputting a drive signal except for driving the submersible pump and outputting a drive signal to both submersible pumps when a predetermined number of oil supply request signals are simultaneously received.

Next, the operation of the oil supply apparatus will be described.

The driving order of the submersible pumps 2A and 2B is stored in the driving order storage means 32 of the pump control device 30. For example, when the capacity of the oil storage tanks 1A and 1B is the same, the driving signals are alternately outputted to the submersible pumps 2A and 2B, and when the capacity of the storage oil tanks 1A and 1B are different, The driving sequence is stored so as to continuously output the drive signal to the low oil storage tank having a large capacity according to the ratio of the capacity, and then output the drive signal to the low storage oil tank having a small capacity.

When the oil supply nozzle 15 is removed from the nozzle hanger for oil supply, the closing signal from the nozzle switch 17 is inputted to the oil supply control device 18 so that the amount of oil supply during the previous oil supply displayed on the display system 19 is zero. The oil supply request signal is output from the oil supply control device 18 to the pump control device 30. Then, the pump driving means 34 of the pump control device 30, which has received the oil supply request signal from the meter 10A, sends the driving signal to the order stored in the driving sequence storage means 32, for example, the submersible pump 2A. Output

The submersible pump 2A receiving the drive signal from the pump driving means 34 is driven and the oil in the oil storage tank 1A is pumped. At this time, if there is no oil leakage due to breakage of the pipe or the like and no flow to the discharge pipe 5A occurs, the leak detection valve 4A is opened for about 2 seconds to secure a large flow path.

On the other hand, the oil supply control device 18 of the meter 10A opens the valve 12 after the time when the leak detection valve 4A is considered to be open, that is, about 2.5 seconds after outputting the oil supply request signal. When the valve of the oil supply nozzle 15 is opened, the oil in the oil storage tank is submerged in the water pump (2A), the leak detection valve (4A), the discharge pipe (5A), the oil supply pipe (6), the branch pipe (7A), the inlet pipe (11A). ), The valve 12, the flow meter 14, the hose 16 and the oil supply nozzle 15 is supplied to the vehicle. The pulses from the flow rate pulse generator 13 of the flow meter 14 are counted by the oil supply control device 18, and the counted oil supply amount is displayed on the display 19. As shown in FIG.

When lubrication is completed and the oil supply nozzle 15 is hung on the nozzle hanger, an open signal from the nozzle switch 17 is input to the oil supply control device 18 to close the valve 12, and the pump control device from the oil supply control device 18. The oil supply request signal output to (30) stops. The pump driving means 34 of the pump control device 30 in which the oil supply request signal from the meter 10A disappears extinguishes the drive signal to the submersible pump 2A, and the submersible pump 2A stops.

In addition, when refueling request signals are inputted from other meters during refueling, and the number of the refueling request signals is input to the pump control device 30 at the same time, for example, from four gauges at the same time, the oil storage from the pump driving means 34 is reduced. The driving signal is also output to the submersible pump 2B of the tank 1B and driven simultaneously.

The above is an operation in which the equipment is normally driven, but for example, when an abnormal current flows in the driving circuit of the submersible pump 2A and detects it by the abnormal detection means 21A, the detection signal is transmitted to the pump control device 30. Is entered. The abnormality determination means 31 of the pump control apparatus 30 which received the detection signal transmits the abnormality generation signal to the drive sequence storage means 32, and transmits an alarm signal to the alarm 22. As shown in FIG. The alarm 22 shows an abnormal occurrence of the submersible pump 2A, and the driving sequence storage means 32 stores the abnormality of the submersible pump 2A. When the abnormal state is stored in this manner, the pump driving means 34 sends a drive signal only to the normal submersible pump 2B except the submersible pump 2A in which the abnormal state is stored.

When the abnormality is eliminated as a result of the check, the abnormality is eliminated by pressing the return switch 23A. The abnormal return means 33, which has received the return signal from the return switch 23A, drives the abnormal release signal when the lubrication request signals from all of the meters 10A (10B) ---- are extinguished. (32). The drive sequence memory 32 receiving this release signal erases the memory of the abnormal state previously stored, and subsequently outputs the drive signal sequentially without excluding the pump drive means 34.

In addition, the abnormal release signal is transmitted to the driving order storage means 32 only when the oil supply request signals from all the meters 10A (10B) ------ are extinguished. When the oil feed request is output from the tank, that is, when the valve 12 is opened and the valve of the oil feed nozzle 15 is opened, the submersible pump 2A is started and the flow to the discharge pipe 5A is immediately generated. The detection valve 4A does not open because it is judged to be a leak, so as to prevent a problem that a large flow path cannot be secured and an irrationality in which an oil is unexpectedly discharged from a lubrication nozzle to a dangerous state.

As described above, the present invention provides a setting procedure for each of the submersible pumps provided in the plurality of oil storage tanks and the plurality of meters connected to the discharge pipes of the submersible pumps through a common pipe, and when the oil supply request signal is received from the meter. In the lubrication device configured as a pump control device for outputting a drive signal as described above, an abnormality detecting means is provided in each of the driving circuits of the submersible pump, and the pump control device is the remaining submersible pump except for the submersible pump detected by the abnormality detecting means. Since only the driving signal is outputted, it is possible to supply oil through the normal submersible pump on the other side even when the submersible pump becomes abnormal and becomes inoperable.

Claims (2)

Submersible pumps provided in the plurality of oil storage tanks, a plurality of meters connected to the discharge pipe of the submersible pumps through a common pipe, and when the oil supply request signal is received from the meter, according to the order set for each submersible pump. In the lubrication device configured as a pump control device for outputting a drive signal, an abnormality detecting means is provided in the driving circuit of the submersible pump, and the pump control device is a submersible pump detected abnormally by the abnormality detecting means. Oil supply device characterized in that for outputting the drive signal only to other submersible pumps without outputting. The water pump of claim 1, wherein each of the submersible pumps is provided with a return switch, and the pump control apparatus receives abnormality detection signals from the abnormality detection means, determines abnormality, and outputs an abnormality occurrence signal from the meter. The abnormal return means for outputting the abnormal release signal by the return signal from the return switch when all of the oil supply request signals have disappeared, and the driving sequence of the submersible pump, and receive the abnormal release signal from the abnormal return means. The drive sequence memory means for erasing the memory of the state and the submersible pump outputting the drive signals in the order stored in the drive sequence memory means are driven only in other submersible pumps without outputting the drive signal. And a pump driving means for outputting a signal.

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