KR101629357B1 - Fuel pump module for vehicle with controller - Google Patents

Abstract

The present invention relates to a fuel pump module for a vehicle, in which a controller is provided by a support member on a plate body exposed to the outside of a fuel tank, an air gap is provided between the controller and the plate body, Of the fuel is discharged to the atmosphere by the outside air circulating the air gap, thereby preventing the gas from affecting the electronic parts of the controller.

Description

[0001] FUEL PUMP MODULE FOR VEHICLE WITH CONTROLLER [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a fuel pump module, and more particularly, to a fuel pump module for a vehicle equipped with a controller capable of preventing a gas generated from fuel from entering a controller by separating a controller from a fuel tank.

BACKGROUND ART [0002] In general, a fueling apparatus for a vehicle is designed to supply a mixer necessary for an engine under all operating conditions in a state in which it is most likely to be burned, which greatly affects the performance of the engine, that is, the output and economical efficiency of the engine.

The main part of the fuel device is a fuel supply device that mixes fuel and air appropriately and supplies the engine. The fuel supply apparatus includes a fuel tank for storing fuel, and a fuel pump module for forcibly supplying fuel, which is filled in the fuel tank, to the engine.

The dual fuel pump module is a device that sucks fuel from a fuel tank and feeds the fuel to the engine. The dual fuel pump module is an electric type using a mechanical or DC motor or piston (plunger) using the rotational force of the engine cam shaft. It is widely used. Because these electric fuel pump modules are immersed in the fuel in the fuel tank, they have an excellent ability to suppress pump operation noise and vapor lock.

Such a fuel pump module is disclosed in Korean Utility Model Registration No. 20-0160774 (1999.08.19) (Patent Document 1), Korean Patent Laid-open No. 10-2013-0042948 (Patent Document 2), Korean Patent Laid-Open Publication No. 10-2012 -0136942 (2012.12.20) (Patent Document 3).

The conventional fuel pump module is largely composed of a plate assembly fixed to a fuel tank and a reserve body assembly connected to a lower side of the plate assembly by a guide rod.

The reserve body assembly includes a reserve body, a fuel pump provided inside the reserve body to suck fuel into the reserve body, and a phosphorus tank filter provided inside the reserve body to filter the sucked fuel.

The plate assembly includes a supply port for connecting fuel to the engine, a plate on which the valve seat is formed, a roll-over valve, and a Pure limit vent valve.

The plate assembly receives a signal from an ECU (Electronic Control Unit), determines a fuel injection amount and a driving speed of the fuel pump according to the pressure, temperature, and operating conditions of the fuel line, and controls the driving of the fuel pump Respectively.

The controller includes a PCB substrate fixed to the upper surface of the plate body, and a plurality of electrical components such as a condenser, a terminal, and the like are installed on the PCB substrate.

In the conventional fuel pump module, the controller is installed on the upper surface of the plate body to be exposed to the outside of the fuel tank, so that the gas generated from the fuel in the fuel tank permeates the plate body to enter the controller, Or the impact energy generated by the explosion of internal components such as a condenser may be transmitted to the plate of the fuel pump module.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a fuel pump module for a vehicle equipped with a controller that prevents gas generated from fuel in a fuel tank from entering the controller, There is a purpose.

According to an aspect of the present invention, there is provided a fuel pump module including a plate assembly exposed to the exterior of a fuel tank, and a reservoir assembly installed in the fuel tank and connected to the plate assembly, A plate body coupled to the fuel tank; A frame member spaced apart from the plate body and having an inner space and an upper portion opened; a PCB substrate coupled to an inner space of the frame member; and an electronic component mounted on the PCB substrate; A plurality of support members for separating the frame member from the flight body; And an air gap formed between the plate body and the controller for circulating external air for discharging the gas generated from the fuel of the fuel tank to the atmosphere without being absorbed and infiltrated into the controller .

The frame member of the controller may be formed as a single part by injection molding so that the gas does not permeate the four sides of the surface facing the fuel tank.

In addition, the controller is characterized in that the molding member is filled in the frame member so as to surround the electronic component so that the gas does not affect the electronic component even though the gas penetrates the frame member and enters the frame member finely.

In addition, the condenser of the electronic component is disposed above the air cap so that an impact generated when the condenser is exploded is reduced by the air gap to prevent breakage of the frame member, And a breakage preventing function so as not to be damaged.

According to the present invention, since the controller is separated from the plate body installed in the fuel tank by the support member and the air gap is provided between the controller and the plate body, the gas generated from the fuel is discharged to the atmosphere by the air gap, It is possible to prevent the electronic component from entering the inside of the member.

Further, in the present invention, since the frame member in which the electronic component is installed is formed as a single component by injection molding, it is possible to prevent a gap penetrating the gas from being formed on all sides of the frame member facing the fuel tank.

In addition, by filling the molding member in the form of a liquid into the mold member on which the electronic component is installed and solidifying the mold member to completely wrap the electronic component, it is possible to prevent the influence of the gas on the inside of the mold member .

1 is a perspective view showing a fuel pump module for a vehicle according to a first embodiment of the present invention;
FIG. 2 is a perspective view showing a plate assembly of the fuel pump module for a vehicle of FIG. 1;
3 is an exploded perspective view showing a state in which the cover member is separated from the plate assembly of the fuel pump module for a vehicle of FIG.
4 is a sectional view showing a plate assembly of the fuel pump module for a vehicle of FIG. 2;

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings. In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, the terms described below are terms defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator. Therefore, definitions of these terms should be made based on the contents throughout this specification.

FIG. 1 is a perspective view showing a fuel pump module for a vehicle according to a first embodiment of the present invention, and FIG. 2 is a perspective view showing a plate assembly of the fuel pump module for a vehicle of FIG. 1. FIG. 3 is an exploded perspective view showing a state in which a cover member is separated from a plate assembly of the fuel pump module for a vehicle of FIG. 1, and FIG. 4 is a sectional view of a plate assembly of the fuel pump module for a vehicle of FIG.

As shown in the figure, the fuel pump module 100 for a vehicle according to an embodiment of the present invention includes a reserve assembly 200 installed on the inner bottom of a fuel tank, a plate assembly 300).

The reserve assembly 200 includes a reserve cup 210 installed at the bottom of the fuel tank, a fuel pump installed in the reservoir cup 210 to pump the fuel in the fuel tank, And a fuel filter 230 for filtering impurities of fuel and the like.

The reservoir cup 210 is formed in the same shape as a cup having an opened top, and has an inner space, and a large number of parts are installed in the inner space. The reservoir cup is installed on the inner bottom of the fuel tank. A pressure regulator is provided below the inner space of the reservoir cup 210 to maintain the fuel pressure constant.

The fuel pump is installed in the inner space of the reservoir cup 210 to pump the fuel in the fuel tank. When the electricity is supplied, the fuel pump sucks the fuel and discharges the fuel to the transfer pipe.

The fuel filter 230 is installed in the inner space of the reservoir cup 210 for filtering impurities contained in the fuel when the fuel of the fuel tank is supplied to the engine.

A transfer pipe for guiding the fuel, which is pumped by the fuel pump, out of the fuel tank is connected to the fuel pump and the fuel filter 230. The end of the transfer pipe is fixed to the plate assembly 300 coupled to the fuel tank.

In the fuel pump module according to the first embodiment of the present invention, the plate assembly 300 is configured such that the controller 320 provided for controlling the fuel pump is separated from the fuel tank so that the gas generated from the fuel of the fuel tank A controller 320, a support member 330, and an air gap 340. The plate body 310 includes a plate body 310, a controller 320, a support member 330, and an air gap 340.

The plate body 310 is fitted into the through hole formed in the fuel tank, is seated and coupled to the edge of the through hole, and the upper surface is exposed to the outside of the fuel tank.

The controller 320 controls the fuel injection amount and the driving speed of the fuel pump according to the pressure, temperature, and operating conditions of the fuel line. The controller 320 is disposed above the plate body 310 and spaced apart from the plate body 310.

The controller 320 includes a frame member 322 spaced apart from the plate body 310 and having an inner space opened at an upper portion thereof, a PCB substrate 323 coupled to an inner space of the frame member 322, An electronic component 324 mounted on the PCB substrate 323 and a cover 350 covering the opened upper portion of the frame member 322.

The frame member 322 is formed in a box shape having an open upper part and is formed as a single component by injection molding and has a PCB substrate 323 in which an electronic component 324 is installed in an inner space.

The frame member 322 is formed as a single component so that no clearance is formed around the bottom surface of the frame member 322 facing the upper surface of the fuel tank, In order to prevent it from entering inside.

The PCB board 323 is provided with a connection terminal to which a connector is connected to connect an external power source. The connection terminal is provided at a connection portion which protrudes outside the frame member 322 and is formed in a groove shape. That is, the connection terminal is exposed to the connection portion and connected to a connector for connecting an external power source.

The electronic component 324 is installed on the bottom surface of the PCB substrate 323 and a separate heat sink 325 is installed on the upper surface of the PCB substrate 323 above the electronic component 324, And dissipate the generated heat to the atmosphere through the heat sink 325. The electronic component 324 is composed of an FET element, a capacitor, a resistor, a terminal, and the like.

The support member 330 connects the frame member 322 and the plate body 310 to separate the frame member 322 from the upper surface of the plate body 310.

In the embodiment of the present invention, a plurality of support members 330 are formed at the edges and / or the center of the plate member 310 and the frame member 322, as shown in the drawing.

The air gap 340 is formed by a support member 330 connecting between the plate body 310 and the frame member 322. The air gap 340 is generated in the fuel of the fuel tank while passing through the space between the support members 330, and passes through the plate body 310, .

That is, the air gap 340 discharges the gas into the atmosphere, thereby preventing the gas from entering the mold member 322 and affecting the electronic component 324 installed on the PCB substrate 323.

The fuel pump module according to the first embodiment of the present invention further includes a molding member 326 that completely encloses the electronic component 324 so that the electronic component is not affected even if part of the gas is introduced into the frame member 322 .

The molding member 326 is provided so as to completely enclose the electronic component 324 on which the PCB substrate 323 is installed by being solidified while the liquid state material is cooled. That is, the molding member 326 is completely filled in the upper space and the lower space of the PCB substrate 323 inside the frame member 322.

The molding member 326 and the PCB substrate 323 are formed with at least one through hole vertically passing through an edge thereof and the through hole is connected to a drain hole 322a formed in a side surface of the frame member 322 Communicate. The through hole is formed to flow along the upper surface of the molding member 326 and discharge the air through the through hole and the drain hole 322a even if rainwater flows between the cover member 351 and the frame member 322 .

The molding member 326 also serves to hold the electronic component 324 in order to prevent the electronic components 324 from colliding with each other due to vibrations generated when the vehicle is traveling and detaching / damaging the electronic components due to vibration.

Among the electronic components 324, a capacitor, which is an explosive component, is installed above the air gap 340. That is, when the cone is installed in the frame member 322, the frame member 322 is positioned at a position deviating from the position of the support member 330 connecting the plate body 310. This is to prevent the impact generated during the explosion from being transmitted to the fuel tank by the air gap 340 while being transmitted to the plate body 310 through the support member 330 even if the condenser explodes .

The cover 350 covers the open top of the frame member 322 to prevent foreign substances such as rainwater, dirt, dust, etc. from entering the controller 320 from the outside.

The cover 350 is detachably attached to the upper portion of the frame member 322 by a coupling hole formed in a coupling rib 351 protruding from a lower portion of the cover 350 and a protrusion 352 formed on an outer surface of the frame member 322 .

A protrusion is formed on the edge of the edge of the cover 350 and a groove is formed on the edge of the edge of the mold member 322. A sealing member is interposed between the protrusion and the groove or a sealant is applied to the cover 350, Thereby preventing water or foreign matter from entering the space 322.

The plate assembly 300 may be formed integrally with the plate body 310, the frame member 320, and the support member 330 by injection molding, thereby reducing the number of components and assembling process, thereby reducing the cost of the product .

The operation of the fuel pump module according to the first embodiment of the present invention having the above-described structure will be described.

The fuel pump module 100 according to the first embodiment of the present invention is configured such that the fuel sucked by the fuel pump 220 is moved to the inside of the fuel filter 230 connected to the fuel pump 220, And a part thereof is supplied to the engine through the connecting hose, the supply port and the fuel supply line, and the remainder is discharged to the outside of the fuel filter along the fuel return portion.

Therefore, the fuel pump module according to the embodiment of the present invention as described above is configured such that the gas (vapor) generated in the fuel of the fuel tank enters the controller 320 for controlling the fuel pump module and influences the electronic part 324 And has the following structure.

First, in the plate body 310 installed in the fuel tank, the frame member 322 of the controller 320 is formed by the support member 330 so as to be spaced apart from the plate body 310 and the controller 320, The gas generated in the fuel tank is discharged to the atmosphere by the external air passing through the air gap 340. [

Secondly, the frame member 322 provided with the electronic component 324 is formed as a box-shaped member having an opening at the top. By forming the frame member 322 as a single component by injection molding, a gap Is prevented from being generated.

Third, a liquid molding member 326 is filled in the lower and upper portions of the PCB substrate 323 inside the frame member 322 on which the electronic component 324 is installed to completely close the electronic component 324 It does not affect the electronic parts even if a small amount of gas enters the inside of the mold member 322. [

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be construed as limited to the particular details of the embodiments set forth herein. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the appended claims.

100: Fuel pump module
200: reserve assembly
210: reserve cup 230: fuel filter
300: plate assembly
310: Plate body 320: Controller
322: frame member 323: pcb substrate
324: Electronic parts
326: Molding member
330: Support member
340: air gap
350: cover 351: engaging rib

Claims (4)

A fuel pump module comprising: a plate assembly exposed to the outside of a fuel tank; and a reserve assembly installed in the fuel tank and connected to the plate assembly,
The plate assembly includes:
A plate body coupled to the fuel tank;
A frame member spaced from the plate body and having an inner space and an upper portion opened; a PCB substrate coupled to an inner space of the frame member; an electronic component provided on one side of the PCB substrate; A controller detachably coupled and including a cover member covering an upper portion of the open frame member; And
A plurality of support members connecting the frame member to the plate body and separating the frame member from the plate body;
Lt; / RTI >
An air gap is formed between the plate body and the controller for circulating external air for discharging the gas generated from the fuel of the fuel tank to the atmosphere,
Wherein the plate body, the frame member, and the support member are integrally formed through injection molding.
The method according to claim 1,
The frame member of the controller includes:
Wherein the fuel tank is formed as one part by injection molding so that the gas does not penetrate into the four sides of the surface facing the fuel tank.
The method according to claim 1,
The controller comprising:
Wherein the mold member is filled in the mold member so as not to affect the electronic component even if the gas penetrates through the mold member and enters the mold member finely so as to surround the mold member. module. The method according to claim 1,
Wherein the condenser of the electronic component is disposed above the air gap so that an impact generated upon explosion of the condenser is reduced by the air gap.

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