KR101832439B1 - A fuel tank meter for a small ship - Google Patents

Abstract

The present invention is characterized in that a fastening body for fastening and closing an injection port is screwed on an injection port formed in a fuel tank of a ship and a flow rate measuring pipe is installed vertically downward below the fastening body, And the flow rate measuring pipe is formed to have a length corresponding to the height of the inner side of the fuel tank in a state that the lower portion thereof is closed and the fuel inlet hole is perforated at the lower end portion, A flow measuring body portion filled with fuel at a predetermined height as much as the amount of fuel in the fuel tank while the fuel flows into and out of the pipe, and a sensor pipe located at an inner lower portion of the flow rate measuring pipe, and an electronic pressure sensor is fixedly installed inside the sensor pipe The upper and lower portions of the inner side of the sensor tube are hermetically sealed and a hydraulic pressure measuring space portion communicating with the inside of the flow rate measuring tube The lower part of the pressure pipe is located inside the hydraulic pressure measuring space, and the electric cable of the pressure sensor penetrates the upper part of the sensor pipe and flows through the air hole of the fastening body And a flow rate measuring sensor unit that is electrically connected to an external flow meter and measures the flow rate in accordance with the pressure of the fuel in the flow rate measuring pipe applied to the pressure sensor through the pressurizing pipe. will be.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a fuel tank for a small ship,

The present invention relates to an apparatus for precisely measuring the flow rate of a fuel tank installed in a small ship such as various fishing boats using light oil or the like as fuel and more particularly to an apparatus for accurately measuring the flow rate of a fuel tank installed in a small- And a flow rate measuring pipe is vertically downwardly disposed at a lower portion of the fastening body. The fastening body is provided with a vent hole communicating with the inside of the flow rate measuring pipe, and a flow rate measuring pipe The fuel inlet and outlet holes are formed in the lower end portion of the fuel tank. The fuel is supplied to the inside of the flow rate measuring pipe through the fuel inlet hole, And a sensor tube positioned at an inner lower portion of the flow rate measuring tube, A pressure measuring sensor is fixedly installed, and the upper and lower portions of the sensor tube are sealed, and a hydraulic pressure measuring space communicating with the inside of the flow rate measuring tube is formed at the inner lower side of the sensor tube. The lower part of the pressurizing pipe is located inside the hydraulic pressure measuring space and the wire cable of the pressure sensor passes through the upper part of the sensor pipe and is electrically connected to the external flow meter through the vent hole of the fastening body, And a flow rate measuring sensor unit for measuring the flow rate in accordance with the pressure of the fuel in the flow rate measuring pipe applied to the fuel tank.

Generally, a fuel tank of a ship is provided with a pressure transmitter as a means for measuring the stored flow rate, and the pressure transmitter is an electronic sensor located at the bottom of the fuel tank and sensing the hydraulic pressure, and a signal transmitted from the sensor to the flow meter And the sensor is fixedly mounted on the bottom surface of the fuel tank through fixing means so that the pressure value applied to the sensor by the fuel stored in the fuel tank is transmitted to the flow meter through the cable, The pressure value is converted into the flow rate and displayed.

However, small vessels such as fishing vessels, which are usually small in size, are influenced by waves or storms during operation, so that the ship body is shaken severely and the fuel stored in the fuel tank is also shaken together. The residual pressure is increased and the residual flow rate is high. On the contrary, when the fuel is shifted to the portion where the sensor is not installed, the pressure applied to the sensor is reduced, and the residual flow rate is measured low. Furthermore, in the case of a small-sized ship, since the fuel tank is installed at the bottom portion of the vessel, it is difficult to visually confirm the fuel tank, so that it is very difficult to measure the residual flow rate of the fuel tank.

As a conventional technique, Korean Utility Model Laid-Open Publication No. 20-2014-0002130 discloses a pressure transmitter for measuring a tank flow rate of a ship, comprising: a sensor for sensing a pressure of the flow rate; A cable for transmitting the measured signal from the sensor; A support for coupling and fixing the sensor; A permanent magnet coupled to a lower end of the support so as to be attached to the bottom of the tank; And a flexible hose connected to the upper portion of the tank in a state of being wrapped around the cable while being coupled to the support.

However, in the above-mentioned prior art, the sensor is fixedly attached to the bottom surface of the tank through the support and the permanent magnet by a simple magnetic force, so that when the ship is severely shaken by the storm surge, There is a problem that can not be measured.

Also, in the case of a small-sized ship, most of the fuel tanks are made of plastic material such as PVC and the like, and permanent magnets are not attached thereto.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems, and it is an object of the present invention to provide a flow rate measuring pipe vertically downwardly from a fastening body fastened to an injection port provided in a fuel tank of a ship, The fuel is filled in the fuel tank at a predetermined height inside the fuel tank through the fuel inlet and outlet holes drilled in the lower end of the measuring pipe, and a sensor tube having an internal electronic pressure sensor is inserted into the lower portion of the inside of the flow rate measuring pipe The electric cable of the pressure sensor is electrically connected to the external flow meter through the vent hole of the fastening body and the hydraulic pressure measuring space portion communicating with the inside of the flow rate measuring pipe is formed in the inner lower portion of the sensor pipe, The flow rate is measured according to the pressure of the fuel in the pipe. The interior of the flow measurement tube, even if a severe shaking There is filled with fuel as the average height of the amount of fuel stored in the fuel tank, it is an object to ensure that the precise flow measurement without error made in accordance with the flow of fuel.

In order to accomplish the above object, the present invention provides a fuel injector for injecting fuel into an internal combustion engine, comprising a fuel injector formed in a fuel tank of a ship to be screwed into a fuel injector and opening and closing an injection port, The vent pipe communicating with the inside of the flow rate measuring pipe is punctured. The flow rate measuring pipe is formed to have a length corresponding to the height of the inside upper side of the fuel tank in a state where the lower side is closed and the fuel inlet hole is perforated at the lower end. A flow rate measuring body portion filled with fuel at a predetermined height by the amount of fuel in the fuel tank while the fuel flows into and out of the flow rate measuring pipe, and a sensor pipe located at the inner lower portion of the flow rate measuring pipe. And the upper and lower portions of the inside of the sensor tube are hermetically sealed. Inside the lower end of the sensor tube, And the lower part of the pressure pipe is positioned on the inner side of the hydraulic pressure measurement space part. The wire cable of the pressure sensor penetrates the upper part of the sensor pipe, And a flow rate measuring sensor unit that is electrically connected to an external flow meter through a vent hole of the flow rate measuring pipe and measures the flow rate in accordance with the pressure of the fuel in the flow rate measuring pipe applied to the pressure sensor through the pressurizing pipe.

As described above, according to the present invention, the flow measuring pipe is installed vertically downwardly on the fastening body fastened to the injection port provided in the fuel tank of the ship, so that the flow measuring pipe is vertically erected on the inside of the fuel tank, The fuel tank is filled with fuel at a predetermined height inside the fuel tank through the fuel inlet hole drilled in the fuel tank, and a sensor tube having an electronic pressure sensor installed therein is inserted in the lower portion of the flow rate measuring tube, And a hydraulic pressure measuring space communicating with the inside of the flow rate measuring pipe is formed in an inner lower portion of the sensor pipe, so that the pressure sensor is connected to the pressure measuring pipe through a pressure pipe located in the hydraulic pressure measuring space, The flow rate is measured according to the pressure of the fuel in the pipe, so that the small vessel is shaken severely by the wind or the like Even if the flow rate measuring tube is filled with the fuel at a height equal to the average fuel amount stored in the fuel tank for a predetermined time, it is possible to accurately measure the flow rate without any errors due to the flow of the fuel.

1 is a schematic cross-sectional view of a fuel tank flow measurement device for small vessels according to the present invention installed in a fuel tank of a ship
FIG. 2 is a schematic cross-sectional view of a fuel tank flow measurement device for a small ship according to the present invention,
FIG. 3 is a schematic cross-sectional view of a fuel tank flow measurement device for a small vessel according to the present invention in a state where the fuel tank is installed in a fuel tank of a ship,
FIG. 4 is a schematic cross-sectional view of a fuel tank for a small vessel according to the present invention, in which a fuel tank is disposed in a fuel tank of a ship,
FIG. 5 is a schematic cross-sectional view showing a state in which a fuel is biased toward a side where a pressure sensor is installed while a ship is moving in a state where an apparatus for measuring a fuel tank flow rate for a small vessel according to the present invention is installed in a fuel tank of a vessel
6 is a schematic cross-sectional view of a state in which an adsorption port is installed and fixed to a lower part of a flow rate measuring tube of a fuel tank flow rate measuring apparatus for a small vessel according to the present invention

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

The small vessel fuel tank flow rate measuring apparatus 1 of the present invention can accurately measure the flow rate of the fuel tank 3 installed on a small ship such as various fishing vessels using light oil or the like as fuel as shown in Figs. (5) for opening and closing the injection port (4) by being screwed on the injection port (4) formed in the fuel tank (3) of the ship, and a vertical A vent pipe 7 communicating with the inside of the flow rate measuring pipe 6 is formed in the upper portion of the tightening body 5 and the flow rate measuring pipe 6 is closed And a fuel outlet hole 8 is formed in the lower end portion of the fuel tank 3 so as to be connected to the inside of the flow rate measuring pipe 6 through the fuel inlet hole 8 A flow amount side which is filled at a predetermined height by the fuel amount in the fuel tank 3 A body portion 2 and a sensor tube 11 located at the inner lower portion of the flow rate measuring tube 6. An electronic pressure sensor 12 is fixed inside the sensor tube 11, And an oil pressure measuring space 13 communicating with the inside of the flow rate measuring pipe 6 is formed at the inner lower end of the sensor pipe 11. A pressurizing pipe The lower portion of the pressure pipe 14 is positioned inside the hydraulic pressure measurement space 13 while the wire cable 15 of the pressure sensor 12 is passed through the upper portion of the sensor pipe 11 Is connected to the external flow meter 16 through the vent hole 7 of the fastening body 5 and is connected to the pressure sensor 12 through the pressure pipe 14 so that the pressure of the fuel in the flow rate measuring pipe 6 And a flow rate sensor portion 10 for measuring the flow rate according to the pressure.

As shown in FIGS. 1 to 5, the flow measurement body 2 is a part detachably fastened to an inlet 4 of a fuel tank 3 fixedly installed on an inner bottom surface of a small ship, (5) for opening and closing the injection port (4) by being screwed on the injection port (4) formed in the body (3) and a flow rate measuring pipe (6) is installed vertically downward below the fastening body A vent hole 7 communicating with the inside of the flow rate measuring pipe 6 is pierced in the upper portion of the fastening body 5 and the flow rate measuring pipe 6 is pierced in the upper portion of the fuel tank 3 And a fuel outlet hole 8 is formed in the lower end portion of the fuel tank 3 so that the fuel is introduced into the flow rate measuring pipe 6 through the fuel inlet hole 8, As shown in FIG.

The fuel tank 3 is a portion in which a certain amount of fuel such as light oil is stored. In the case of a small ship, the fuel tank 3 is fixedly installed on the inner bottom surface of the vessel. Is installed inside the fuel tank 3 to measure the flow rate stored in the fuel tank 3 and a normal stopper is provided at the injection port 4 of the fuel tank 3. In the present invention, And the injection port 4 is opened and closed by using a fastening body 5 which is threadedly fastened thereto in a state in which it is removed.

The fastening body 5 has a short cylindrical shape having a size corresponding to the injection port 4 and has a male screw portion formed on the outer circumferential surface thereof so that the fastening body 5 is screwed into the female screw portion formed on the inner peripheral surface of the injection port 4, And a ring-shaped packing 9 made of a synthetic resin material is fitted and coupled to the lower outer circumferential surface of the fastening body 5 so that a boundary portion between the injection port 4 and the fastening body 5 is connected to the packing 9 And is watertightly sealed to prevent fuel from leaking to the outside through this portion.

The upper end portion of the flow rate measuring pipe 6 is detachably fitted to the inside of the lower middle portion of the fastening body 5 and is connected to the flow rate measuring pipe 6 and the vent hole 7 is vertically downwardly inserted into the central part of the upper part of the fastening body 5 so that the upper part of the flow measuring pipe 6 and the upper part The upper portion of the flow rate measuring pipe 6 is vented to the outside by the vent hole 7 so that the fuel in the fuel tank 3 naturally flows out of the fuel outlet 3 as shown in FIG. So that it flows into the flow measurement pipe 6 through the hole 8 or the fuel inside the flow measurement pipe 6 flows out to the fuel tank 3.

The flow rate measuring pipe 6 is formed to have a length corresponding to the height of the inner side of the fuel tank 3 in the shape of a pipe having an open top and a closed bottom and the bottom end is in contact with or close to the inner bottom surface of the fuel tank 3 And a fuel inlet / outlet hole 8 is formed in the lower end of the outer circumferential surface so that the fuel flows into / out of the flow rate measuring pipe 6 through the fuel inlet / outlet hole 8 and the fuel tank 3 The diameter of the fuel inlet / outlet hole 8 is formed to be approximately 3 to 8 mm, so that the flow rate of the fuel flowing into the flow rate measuring pipe 6 is reduced, It is preferable that the fuel filled in the fuel tank 3 is gradually released toward the fuel tank 3 for a predetermined time or the fuel of the fuel tank 3 is gradually filled in the flow rate measuring pipe 6 and the diameter of the fuel inlet / Less than 3 mm The fuel is not properly inserted and removed. If the diameter exceeds 8 mm, the fuel may be introduced too quickly.

As a result, the fuel filled in the flow rate measuring pipe 6 gradually fills or escapes for a predetermined period of time as the fuel enters and exits through one of the fuel inlet and outlet holes 8. As shown in FIG. 4, When the fuel is biased toward the side where the flow rate measuring pipe 6 is not installed due to the severe flow due to wind or the like, the state in which the fuel is filled in the flow rate measuring pipe 6 higher than the water surface of the fuel is maintained for a predetermined time, When the fuel is biased toward the side where the flow rate measuring pipe 6 is installed, the flow rate measuring pipe 6 is filled with fuel at a temperature lower than the water surface of the fuel for a predetermined time, The fuel is stored in the flow rate measuring pipe 6 at a height equal to the average fuel amount stored in the fuel tank 3 for a predetermined time, The flow measurement is to occur.

In the present invention, it is preferable that the flow rate measuring pipe 6 has an inner diameter of about 18 to 25 mm.

1 to 5, the flow rate measuring sensor unit 10 is installed inside the flow rate measuring pipe 6 and electronically measures the flow rate of the fuel tank 3. The flow rate measuring sensor unit 10 includes a flow rate measuring pipe 6, And an electronic pressure sensor 12 is fixed to the inside of the sensor tube 11 and the upper and lower portions of the sensor tube 11 are sealed and the sensor tube 11 is sealed. And a pressure measuring tube 13 communicating with the inside of the flow measuring tube 6 is formed at an inner lower end of the pressure measuring tube 6. A pressurizing tube 14 is disposed vertically below the pressure measuring tube 12, And the wire cable 15 of the pressure sensor 12 penetrates the upper portion of the sensor tube 11 and is inserted into the vent hole 7 of the fastening body 5. [ Which is electrically connected to the external flow meter 16 via the pressure pipe 14 and is connected to the pressure sensor 12 through the pressure pipe 14, And the flow rate is measured according to the pressure of the fuel.

The sensor tube 11 has an outer diameter smaller than the inner diameter of the flow rate measuring tube 6 and is inserted into the flow rate measuring tube 6 so as to be coincident with the inside of the flow rate measuring tube 6. In the present invention, The outer diameter of the tube 11 is approximately 15 to 20 mm. When the tube 11 is inserted into the flow measurement tube 6, a gap of approximately 3 to 5 mm is formed between the inner diameter of the flow measurement tube 6 and the fuel, .

The lower end of the sensor tube 11 is formed with a communication groove 17 communicating with the inner hydraulic pressure measurement space 13 so that the lower end of the sensor tube 11 is connected to the inner bottom surface The fuel inside the flow rate measuring pipe 6 flows smoothly into the oil pressure measuring space 13 through the communication groove 17. [

An electronic pressure sensor 12 is fixedly installed at an inner center portion of the sensor tube 11 and an upper sealing resin 18 and a lower sealing resin 19 are provided on the upper and lower sides of the sensor tube 11 The lower sealing resin 19 is connected to the flow rate measuring tube 6 through the communication groove 17 of the sensor tube 11 at a lower end thereof so as not to directly contact the pressure sensor 12, And the pressure sensing tube 14 is vertically interposed in the lower sealing resin 19 so that the upper portion of the pressure tube 14 is connected to the pressure sensor 12, And the lower portion of the pressure pipe 14 is disposed inside the hydraulic pressure measuring space 13 and the wire cable 15 of the pressure sensor 12 penetrates the inside of the upper sealing resin 18 The electric cable 15 is electrically connected to the flow meter 16 provided outside the fuel tank 3 through the vent hole 7 of the fastening body 5, It is to be determined.

A pressurizing pipe 14 is provided in which the fuel filled inside the flow measuring pipe 6 flows into the hydraulic measuring space 13 through the communication groove 17 and the lower portion is exposed in the hydraulic measuring space 13, The pressure according to the amount of fuel filled in the flow rate measuring tube 6 is transmitted to the pressure sensor 12 through the pressure sensor 12, the pressure value is measured electronically by the pressure sensor 12, the pressure data is converted into the current signal, And the flow meter 16 converts the current signal into a flow rate value by a normal signal processing device or the like and displays it on a monitor unit (not shown).

The pressure sensor 12 preferably uses a pressure-type pressure sensor, but a capacitive pressure sensor or the like may be used. The pressure sensor 12 is operated by being supplied with power from the outside through a wire cable 15 .

6, the flow rate measuring pipe 6 is made of a flexible material such as synthetic resin, EPDM (ethylene propylene diene monomer), or urethane rubber a suction port 20 made of a flexible synthetic rubber material is fitted and fitted to the inner bottom surface of the fuel tank 3 so that the suction port 20 is in contact with the inner bottom surface of the fuel tank 3, So that the pressure sensor 12 is prevented from being damaged by absorbing vibrations and shocks generated during operation of the shelf so as to buffer and prevent the flow of the flow rate measuring pipe 6. The suction port 20 is narrow The lower portion of the lower portion of the flow rate measuring pipe 6 is fitted to the upper middle portion of the lower portion of the truncated cone, and the lower portion of the lower portion of the flow rate measuring pipe 6 is in contact with the inner bottom surface of the fuel tank 3 absorption A communication hole 21 is formed in the upper portion of the flow rate measuring pipe 6 so that the communication hole 21 is aligned with the portion where the fuel outlet 8 of the flow rate measuring pipe 6 is perforated, So that the fuel can smoothly flow in and out.

Hereinafter, the operation according to the present invention will be described.

When the small vessel fuel tank flow rate measuring apparatus 1 of the present invention is installed in the fuel tank 3 provided in a small ship such as various fishing vessels and the flow rate stored in the fuel tank 3 is to be precisely measured without error, A cap (not shown) provided in the injection port 4 of the fuel tank 3 is removed and a flow rate measurement having a length corresponding to the inner vertical length of the fuel tank 3 is formed in the central portion of the lower portion of the fastening body 5 1, a sensor tube 11 having a built-in pressure sensor 12 is inserted into the flow rate measuring tube 6 so that a lower end portion of the sensor tube 11 is inserted into the flow rate measuring tube 6, The wire cable 15 from the pressure sensor 12 is drawn out to the outside through the vent hole 7 formed in the upper part of the fastening body 5 in a state in which it is in contact with the inner bottom surface of the flow rate measuring pipe 6 The following flow measuring tube 6 is fitted into the tightening body 5 and the flow measuring tube 6 is fixed to a predetermined amount The injector 4 is tightened by screwing the fastening body 5 into the fuel tank 3 where the fuel is stored and the injection port 4 is closed so that the lower end of the flow rate measuring pipe 6 is connected to the inner bottom of the fuel tank 3 The electric cable 15 is electrically connected to the flow meter 16 provided in the ship's wheelhouse or the like and the electric power is supplied through the electric wire cable 15, (12) to operate electronically.

While the fuel tank 3 is installed as described above, the fuel in the fuel tank 3 is gradually introduced into the flow rate measuring pipe 6 through the fuel inlet / outlet hole 8 formed in the lower end of the flow rate measuring pipe 6 for a predetermined period of time The fuel injected into the flow rate measuring pipe 6 is filled up with the average fuel quantity in the fuel tank 3 and the fuel filled in the flow rate measuring pipe 6 gradually flows out for a predetermined time according to consumption of the fuel during operation of the ship. When the fuel is biased toward the side where the flow rate measuring pipe 6 is not installed as shown in FIG. 4 due to the severe flow of the ship due to the wind or the like during operation, the flow rate measuring pipe 6 is filled with fuel higher than the water surface of the fuel 5, when the fuel is biased toward the side where the flow rate measuring pipe 6 is installed, the state in which the fuel is filled in the flow rate measuring pipe 6 lower than the water surface of the fuel is maintained for a predetermined time The fuel is filled in the flow rate measuring pipe 6 at a height corresponding to the average fuel amount stored in the fuel tank 3 for a predetermined time even when the fuel flows in the fuel tank 3 The flow rate measurement is performed by the pressure sensor 12, and accurate flow measurement is performed without errors due to the flow of the fuel.

The fuel filled inside the flow rate measuring pipe 6 flows into the oil pressure measuring space 13 through the communication groove 17 formed at the lower end of the sensor pipe 11 and flows into the oil pressure measuring space 13 The pressure according to the amount of fuel in the flow rate measuring tube 6 is transmitted to the pressure sensor 12 through the pressure pipe 14 which is provided so as to be exposed to the pressure sensor 12 and the pressure value is measured electronically by the pressure sensor 12, And the flowmeter 16 converts the current signal into a flow rate value and displays it on a monitor (not shown) by a conventional signal processing device or the like.

1. Flow measurement device 2. Flow measurement body
3. Fuel tank 4. Inlet
5. Fastening body 6. Flow measurement pipe
7. Ventilation hole 8. Fuel entry hole
9. Packing 10. Flow measurement sensor part
11. Sensor tube 12. Pressure sensor
13. Hydraulic measuring space part 14. Pressure pipe
15. Wire cable 16. Flow meter
17. Communication groove 18. Top sealing resin
19. Lower sealing resin 20. Suction port
21. Communication hole

Claims (5)

And a tightening body 5 which is screwed on the injection port 4 formed in the fuel tank 3 of the ship and which opens and closes the injection port 4 is provided and a flow rate measuring pipe A vent hole 7 communicating with the inside of the flow rate measuring pipe 6 is drilled in the upper part of the tightening body 5 and the flow rate measuring pipe 6 is connected to the fuel tank 3, and a fuel inlet / outlet hole 8 is formed at a lower end portion of the fuel inlet / outlet hole 8 so that the fuel flows into / out of the flow rate measuring pipe 6 through the fuel inlet / A flow measuring body 2 filled with a fuel at a predetermined height by a fuel amount in the flow pipe 3 and a sensor pipe 11 located at an inner lower portion of the flow pipe 6, A sensor 12 is fixedly installed and the upper and lower portions of the inside of the sensor tube 11 are sealed and the flow rate side A pressure measuring tube 13 communicating with the inside of the inner tube 6 is formed and a pressure tube 14 is disposed vertically below the pressure sensor 12 so that the lower portion of the pressure tube 14 measures hydraulic pressure The wire cable 15 of the pressure sensor 12 is located inside the space portion 13 and penetrates the upper portion of the sensor pipe 11 and flows through the vent hole 7 of the fastening body 5 to an external flow meter 16 And a flow rate measuring sensor unit 10 for measuring the flow rate in accordance with the pressure of the fuel in the flow rate measuring pipe 6 which is electrically connected to the pressure sensor 12 through the pressure pipe 14 A small vessel fuel tank flow measurement device.
The injection device according to claim 1, wherein the fastening body (5) has a cylindrical shape having a size matched to the injection port (4), and a male screw part is formed on the outer circumferential surface thereof. The fastening body is screwed to a female threaded part formed on the inner peripheral surface of the injection port 5, a ring-shaped packing 9 made of a synthetic resin material is fitted and coupled to the lower outer peripheral surface of the lower portion of the flow measurement tube 6, and the upper end portion of the flow rate measurement tube 6 is detachably fitted in the lower middle portion of the tightening body 5 And the fuel tank is connected to the fuel tank.
The sensor pipe (11) according to claim 1, wherein the sensor pipe (11) has an outer diameter smaller than an inner diameter of the flow rate measuring pipe (6) And the communication hole 17 communicating with the communication hole 13 is formed at the lower end of the sensor pipe 11 so that the fuel inside the flow rate measuring pipe 6 is communicated with the communication groove 17) to the hydraulic pressure measurement space (13).
The apparatus according to claim 1 or 3, wherein the sensor tube (11) is filled with an upper sealing resin (18) and a lower sealing resin (19) on the upper and lower sides of the sensor tube (11) A hemispherical hydraulic pressure measuring space 13 communicating with the flow rate measuring pipe 6 is formed through the communication groove 17 of the sensor pipe 11 and a pressurizing pipe 14 is vertically disposed inside the lower hermetically sealed resin 19. [ The upper part of the pressure pipe 14 is in contact with the pressure sensor 12 and the lower part of the pressure pipe 14 is installed in the inside of the hydraulic pressure measurement space part 13, 18) is provided with an electric wire cable (15) of a pressure sensor (12) penetrating therethrough.
The flow meter according to claim 1 or 2, wherein the flow rate measuring pipe (6) is fitted with a suction port (20) made of a synthetic resin or a synthetic rubber material at a lower end thereof and the suction port (20) And the lower part of the flow rate measuring pipe 6 is supported by the lower portion of the flow rate measuring pipe 6. The lower portion of the suction port 20 is narrower and the lower portion thereof is tapered in a truncated conical shape, A communication hole 21 is formed at one side of the upper portion of the suction port 20 so that the fuel outlet 8 of the flow rate measuring pipe 6 is communicated with the communication hole 21) are positioned so as to coincide with each other.

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