KR20190069780A - Cover Assembly of fuel tank for vehicle - Google Patents

Abstract

Disclosed is a cover assembly of a fuel tank for a vehicle. According to an embodiment of the present invention, the cover assembly of a fuel tank for a vehicle comprises: a plate placed in the fuel tank for the vehicle; an inlet port and an outlet port installed on the plate; a control housing installed on the plate to have an internal space and an opening on an upper side; a sensor housing placed on the outlet port adjacent to the control housing to have an opening on an upper side; a first substrate engaged with the internal space of the control housing to control the fuel tank; a second substrate placed in the internal space of the sensor housing to include pressure sensors which are able to detect the internal pressure of the fuel tank and the pressure of a fuel and to transmit a signal to the first substrate; and a cover engaged to close the open upper sides of the control housing and the sensor housing. The present invention aims to provide a cover assembly of a fuel tank for a vehicle, which can be conveniently assembled and easily manufactured.

Description

Technical Field [0001] The present invention relates to a cover assembly for a fuel tank for a vehicle,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a cover assembly for a fuel tank for a vehicle, and more particularly, to a cover assembly for a fuel tank for a vehicle which is simple to assemble and easy to manufacture.

Generally, a fuel system of a vehicle is one for supplying the mixer necessary for an engine under the most operating condition in a state in which it is most likely to be burned, and is one of the main factors that determine the performance of the engine, that is, the output and economy of the engine.

A very important component in such a fuel device is a fuel supply device that mixes fuel and air appropriately and supplies it to the engine. The fuel supply device includes a fuel tank for storing fuel and a fuel pump module for forcibly supplying the fuel, which is filled in the fuel tank, to the engine.

The fuel pump module is a device that sucks fuel from the fuel tank and feeds the fuel to the engine. The fuel pump module is an electric type using a mechanical type and a DC motor or a piston (plunger) using the rotational force of the engine cam shaft. . Because the electric fuel pump module is immersed in the fuel in the fuel tank, it has excellent functions for suppressing pump operation noise and vapor lock.

The conventional fuel pump module may include 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 plate assembly includes a supply port for connecting the hose to the plate to deliver fuel to the engine, and a controller for electronically controlling the fuel pump.

The controller receives signals from an ECU (Electronic Control Unit), determines the fuel injection amount and the driving speed of the fuel pump according to the pressure, temperature, and operating conditions of the fuel line, and controls driving of the fuel pump by an output signal. Such a controller has a control housing installed on the upper surface of the plate and having a PCB substrate installed therein, and a cover closing the open top of the control housing. A number of electrical components such as capacitors and terminals are mounted on the PCB substrate.

In addition, the conventional plate assembly has a pressure sensor for measuring the pressure of the fuel in the supply port and a pressure sensor for measuring the pressure of the fuel tank. These pressure sensors must be connected with connectors and cables so that the sensed signals can be transmitted to the controller. Conventionally, these assemblies have been complicated because these connectors and cables are provided on the plate assembly.

Korean Patent Publication No. 10-2002-0002223 (2002.01.09.)

According to an embodiment of the present invention, there is provided a cover assembly for a fuel tank for a vehicle, which is simple to assemble and easy to manufacture.

According to an aspect of the present invention, there is provided a control apparatus for a vehicle, comprising: a plate provided in a fuel tank of a vehicle; an inlet port and an outlet port provided on the plate; a control housing installed on the plate, A first substrate coupled to the internal space of the control housing and controlling the fuel tank, and a second substrate provided in the internal space of the sensor housing, the internal pressure of the fuel tank, And a cover coupled to close the open upper portion of the control housing and the sensor housing. The cover assembly of the vehicle fuel tank includes a first substrate and a second substrate. The second substrate includes pressure sensors for sensing a pressure of the first substrate and transmitting signals to the first substrate. Can be provided.

The cover may include a first cover coupled to an upper portion of the control housing and a second cover coupled to an upper portion of the sensor housing, and the first cover and the second cover may be integrally formed.

The first substrate and the second substrate may be electrically connected to each other by a connection terminal passing through the control housing and the sensor housing.

In addition, the pressure sensor for sensing the internal pressure of the fuel tank may further include a hose for measuring the atmospheric pressure.

The pressure sensor may include a first pressure sensor for sensing the internal pressure of the fuel tank and a second pressure sensor for sensing the pressure of the fuel, And the second pressure sensor may include a second sensor port protruding from a lower portion of the second substrate.

A cover assembly for a fuel tank for a vehicle according to an embodiment of the present invention includes a first substrate for controlling a fuel tank inside a controller housing, a pressure sensor for sensing an internal pressure of the fuel tank, The second substrate having the pressure sensor for electrical connection is electrically connected using the connection terminal connecting the controller housing and the sensor housing to simplify the manufacturing process and reduce the manufacturing cost by reducing the number of connection parts such as wiring and cables have.

1 is a view showing a fuel tank in which a cover assembly of a fuel tank for a vehicle according to an embodiment of the present invention is provided.
2 is a perspective view showing a cover assembly of a fuel tank for a vehicle according to an embodiment of the present invention.
3 is a perspective view illustrating an exploded view of a cover assembly of a fuel tank for a vehicle according to an embodiment of the present invention.
4 is a bottom perspective view illustrating a cover assembly of a fuel tank for a vehicle according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. Hereinafter, the embodiments described below are provided as examples so that those skilled in the art will be able to fully understand the spirit of the present invention. Accordingly, the present invention is not limited to the embodiments described below and may be embodied in other forms. Further, in order to clearly illustrate the present invention, parts not related to the description are omitted from the drawings, , Length, thickness, etc. may be exaggerated for convenience. Like reference numerals designate like elements throughout the specification.

2 is a perspective view illustrating a cover assembly of a fuel tank for a vehicle according to an embodiment of the present invention. FIG. 3 is a perspective view of a cover of a fuel tank for a vehicle, FIG. 4 is a bottom view of a cover assembly of a fuel tank for a vehicle. FIG.

A fuel tank cover assembly 100 according to an embodiment of the present invention includes a plate 110 provided on a fuel tank 1 and an outlet port 122 and an inlet port 122 provided on the plate 110. [ A fuel port 120 including a port 124, and a controller module 130.

The plate 110 is mounted on the upper inlet side of the fuel tank 1 where the gaseous fuel is stored, and is provided in a substantially disc shape.

The outlet port 122 of the fuel port 120 is a flow path for discharging the fuel, which is filled in the fuel tank, to the internal combustion engine, and the inlet port 124 is a flow path through which the fuel coming from the internal combustion engine returns.

More specifically, the outlet port 122 is for selectively supplying or blocking fuel from the fuel tank to the internal combustion engine by operation of a fuel pump and a drive motor (not shown), and includes a coil spring-type check- can do. During operation of the fuel pump, since the pressure of the fuel discharged from the pump is higher than the elastic force of the coil spring, the outlet port 122 is opened and no fuel pressure is generated during the stop of the fuel pump, Is closed.

The controller module 130 is provided on the plate 110 adjacent to the fuel port 120, particularly the outlet port 122. The controller module 130 is installed such that the bottom thereof is spaced apart from the upper surface of the fuel tank 10 such that the gas (vapor) generated in the fuel of the fuel tank is prevented from entering the internal electronic component of the controller As shown in Fig.

3, the controller module 130 includes a control housing 131 having a rectangular internal space and an open top, a PCB 150 coupled to the internal space of the control housing 131, And a cover 160 coupled to close the open top of the housing 131.

The control housing 131 may be formed as a single part with the plate 110 by an injection method in the form of a box having an open upper part. As a result, a minute gap is not formed around the bottom surface of the control housing 131 facing the upper surface of the fuel tank, so that the evaporated gas generated from the fuel can be effectively prevented from flowing into the control housing 131.

The control housing 131 includes a substrate mounting portion 132 on which a PCB substrate 150 on which electronic elements for controlling the fuel tank are mounted is mounted and a power connector portion 138).

The substrate mounting portion 132 is provided with first and second connection terminals 135 and 136 and a boss 137 of a predetermined height protruding from the bottom.

The first connection terminal 135 is a terminal for transmitting a signal to the fuel pump driving apparatus (not shown), and the second connection terminal 136 is a terminal for controlling the motor (not shown) of the fuel pump. It goes without saying that the positions and roles of the first and second connection terminals 135 and 136 may vary depending on design specifications. The upper end of the first and second connection terminals 135 and 136 may be electrically connected to the PCB 150 and the lower end of the first and second connection terminals 135 and 136 may be electrically connected to the fuel tank side terminal through the plate 110. As shown in FIG. 4, a first connector 115 and a second connector 116 protrude from the rear surface of the plate 110 for electrical connection between the lower ends of the first and second connection terminals. At least one boss 137 is provided to maintain a constant height of the PCB 150 installed on the upper part.

The power connector portion 138 electrically connects the fuel pump driving device (not shown) and the motor (not shown) of the fuel pump by applying power from the outside.

On the other hand, the outlet port 122 adjacent to the control housing 131 includes a sensor housing 140. The sensor housing 140 has therein a channel for connecting the outlet of the outlet port 122 and the back surface of the plate 110, that is, the fuel tank 1, have.

The sensor housing 140 may include a PCB substrate 143 having two pressure sensors 141 and 142 in an internal flow path space. One of the pressure sensors is a first pressure sensor 141 for detecting the pressure inside the fuel tank, that is, the air pressure, and the other is a second pressure sensor 142 for sensing the pressure of the fuel, that is, to be. The first pressure sensor 141 and the second pressure sensor 142 may be mounted on the PCB substrate 143.

The first pressure sensor 141 measures the air pressure inside the fuel tank using the relative pressure. The first pressure sensor 141 is connected to the outer hose 145 by using the first sensor port 144 protruding from the upper portion of the PCB substrate 143. That is, the first pressure sensor 141 senses the atmospheric pressure through the external hose 145, and calculates the internal pressure of the fuel tank in the ECU (not shown) based on the sensed atmospheric pressure. This is because the first pressure sensor measures the pressure state inside the fuel tank at a low pressure so that it can sufficiently reflect the difference even if an altitude difference (a high altitude and a low pressure) occurs.

The second pressure sensor 142 is connected to an inner hose (not shown) using a second sensor port 146 protruding from a lower portion of the PCB substrate 143. The second sensor port 146 communicates with the second pressure sensor 142 through an unillustrated internal flow path of the outlet port 122 and measures the oil pressure of the fuel using the absolute pressure method. Reference numeral 147, which is not shown in FIG. 3, is a packing ring. Reference numeral 148, which is not shown in FIG. 4, is a sensor hole for communicating the inside of the fuel tank with the first pressure sensor 141 for measuring the air pressure of the fuel tank . In the present embodiment, the sensor housing 140 is illustrated in a circular shape, but is not limited thereto.

The PCB substrate 150 (hereinafter, referred to as a first substrate) provided inside the control housing 131 is provided with various devices for controlling the fuel tank, specifically, a fuel pump, and a first connection And a PCB board 143 (hereinafter referred to as a second board), which is provided inside the sensor housing 140 and includes a first pressure sensor 141 and a second pressure sensor 142, And a second connection terminal 154 for electrically connecting may be provided. The second connection terminals 154 may be formed of metal conductors through the sidewalls between the control housing 131 and the sensor housing 140 and may be connected to the PCB boards 143 and 150 through soldering.

Accordingly, the cover assembly 100 of the fuel tank according to the present embodiment includes a first pressure sensor 142 for sensing the internal pressure of the fuel tank 1, a second pressure sensor 144 for sensing the pressure of the fuel, Since the second substrate 143 including the second substrate 143 is directly and simply connected to the first substrate 150 provided inside the control housing 131 through the connection terminal 154, It is possible to see cost reduction effect.

On the other hand, the cover 160 is installed to close the upper opening of the control housing 131. The cover 160 may include a metallic material to serve as a grounding function for shielding electromagnetic waves generated during operation of the fuel pump or static electricity flowing from the outside.

The cover 160 may also include a first cover 162 for closing the upper opening of the control housing 131 and a second cover 164 for closing the upper opening of the sensor housing 140, The first cover 162 and the second cover 164 may be integrally provided. The cover 160 and the control housing 131 may be fastened through bolts or the like.

When the ignition key provided on the vehicle is turned on through the power connector unit 138, the cover assembly of the vehicle fuel tank is provided with the fuel pump driving device, And a control unit provided on the first substrate 150 controls each mounted device based on a signal received from the second substrate 143 to effectively control the amount of fuel supplied to the engine.

100 .. Fuel tank cover assembly 110 .. plate
122 .. Outlet port 124 .. Inlet port
130 .. Controller module 131 .. Control housing
132. Substrate portions 135, 136. First and second connection terminals
137 .. boss 138 .. power connector section
140 .. sensor housing 141 .. first pressure sensor
142. Second pressure sensor 143.PCB substrate (second substrate)
150 PCB substrate (first substrate) 154 connection terminal
160 .. cover 162 .. first cover
164 .. Second cover

Claims (5)

A plate provided in a fuel tank of the vehicle,
An inlet port and an outlet port provided on the plate,
A control housing installed on the plate and having an upper space opened with an inner space,
A sensor housing having an upper opening formed in an outlet port adjacent to the control housing,
A first substrate coupled to an inner space of the control housing and controlling a fuel tank,
A second substrate provided in an inner space of the sensor housing and provided with pressure sensors for sensing internal pressure of the fuel tank and pressure of the fuel to transmit a signal to the first substrate;
And a cover coupled to close the open top of the control housing and the sensor housing. The method according to claim 1,
Wherein the cover includes a first cover coupled to an upper portion of the control housing and a second cover coupled to an upper portion of the sensor housing, wherein the first cover and the second cover are integrally provided. The method according to claim 1,
Wherein the first substrate and the second substrate are electrically connected by a connection terminal penetrating the control housing and the sensor housing. The method according to claim 1,
Wherein the pressure sensor for sensing the internal pressure of the fuel tank further comprises a hose for measuring the atmospheric pressure. The method according to claim 1 or 4,
Wherein the pressure sensor includes a first pressure sensor for sensing the internal pressure of the fuel tank and a second pressure sensor for sensing the pressure of the fuel,
Wherein the first pressure sensor includes a first sensor port protruding from an upper portion of the second substrate and the second pressure sensor includes a second sensor port protruding from a lower portion of the second substrate, assembly.

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