KR100339887B1 - Fuel gage operating device using ray - Google Patents

Abstract

The present invention relates to a fuel gauge operating device using a laser receiving wave for measuring a storage amount of fuel stored in a fuel tank of an automobile. The upper and lower sides of the fuel tank are moved up and down along the oil level by using an upper plate fixed to the upper portion of the fuel tank. A fuel gauge operating device configured to operate a fuel indicator by recognizing a resistance value that changes according to the up and down movement of the float after installing a float to move, wherein the fuel tank is fixedly attached to the upper plate to provide a fuel tank. A guide pipe vertically installed downward toward the inside, a lifting body connected to the float by a bracket, and installed to be moved up and down while covering the outer circumference of the guide pipe; Laser irradiator which irradiates light horizontally and work of the said lifting body It is installed on the side like a laser irradiator and detects the reception time is reflected back from the light irradiated from the laser irradiator and is fixedly attached to the laser receiver and the upper plate of the fuel tank to send the detected time to the electronic control device, The invention is characterized in that it is provided vertically in front of the laser irradiator to constitute a laser reflector for reflecting laser light.

Description

Fuel gauge operating device using laser receiver wave {Fuel gage operating device using ray}

The present invention relates to a fuel gauge operating device using a laser receiving wave for measuring the storage amount of fuel stored in a fuel tank of an automobile.

In general, the fuel gauge of an automobile is a mechanical bar, and the prior art uses the bracket 102 attached to the fuel pump 101 installed on the outer wall of the fuel tank 100, as shown in FIG. (SENDER: 103) and connects the sender gauge arm 105 rotatably installed on the hinge shaft 104 to the sender 103, while the operation between the operation 106 connected to the hinge shaft 104 The end is composed of a float 107 that moves up and down in accordance with the storage amount of fuel, the resistance value detected by the sender 103 is passed through the resistance detection unit 108 controlled by the electronic control unit (ECU) fuel gauge It is electrically connected to 109 and configured to indicate the amount of fuel stored as the fuel gauge 109 moves in accordance with the amount of stored fuel.

However, the prior art as described above, the resistance sensing unit 108 according to the mechanical operation in which the sender gauge arm 105 rotates in a mechanical operation based on the hinge shaft 104 as it moves up and down the float 107. Detects a resistance value and receives the detected signal to operate the indicator hand of the fuel gauge 109 installed in the driver's seat, due to the flow of fuel while driving the sender 103. In addition, the contact failure phenomenon of the sender gauge arm 105 is not only appears, and a contact failure state is generated by a phenomenon in which foreign matter is caught between the sender 103 and the sender gauge arm 105. As a result, the resistance value may not be accurately sensed, thereby causing a problem in that the fuel storage amount may not be accurately displayed on the fuel gauge 109.

The present invention has been made to solve the problems of the prior art as described above, it is possible to detect the amount of storage of the fuel as a laser receiving wave inside the fuel tank, so that the fuel can be measured more accurately when the vehicle is running It is invented for the purpose of providing a gauge.

The present invention as a means for achieving the above object,

The float is installed to move up and down along the oil level by using the upper plate fixedly installed on the upper part of the fuel tank, and the electronic controller recognizes the resistance value that changes according to the up and down movement of the float. In a fuel gauge actuator configured to operate,

A guide pipe fixedly attached to the upper plate and vertically installed downward toward the inside of the fuel tank;

A lifting body connected to the float by a bracket, the lifting body being installed to be moved up and down while surrounding the outer circumference of the guide pipe;

A laser irradiator fixedly installed at one side of the lifting body to irradiate laser light horizontally;

A laser receiver installed on one side of the lifting body to detect a reception time when the light irradiated from the laser irradiator is reflected and return to the electronic control apparatus; And

A laser reflector fixedly attached to an upper plate of the fuel tank and installed vertically in front of the laser irradiator to reflect laser light;

It is characterized by consisting of

In addition, the guide rack gear is vertically fixed to one side of the guide pipe, and the upper and lower gears rotatably installed in the elevating body are rotatably mounted in the state of being engaged with the guide rack gear. It is configured to guide the operation, and the reflecting portion of the laser reflector is formed in a step shape so that the time for the laser light irradiated from the laser irradiator is reflected from the reflecting unit and the return to the laser receiver is different respectively. .

1 is an overall configuration diagram for explaining the present invention.

2 and 3 are cross-sectional views for showing an operating state of the present invention.

4 is a prior art

※ Explanation of code for main part of drawing

1: fuel tank 2: guide pipe

3: lifting body 4: laser irradiator

5 laser reflector 6 resistance detector

7: fuel gauge 11: upper plate

21: guide rack gear 31,32: upper and lower gear

33: bracket 34: float

41: laser receiver 51: reflector

Embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is an overall configuration diagram for explaining the present invention, Figure 2 and Figure 3 is a cross-sectional view for showing the operating state of the present invention,

Reference numeral 1 denotes a fuel tank, and the guide pipe 2 is fixed to one side of the upper plate 11 fixedly installed on the upper portion of the fuel tank 1, and the guide pipe 2 has an upper plate ( 11, the lower part is installed in a state extending vertically toward the bottom of the fuel tank (1), the guide rack gear 21 is fixed to one side of the guide pipe (2).

The lifting body 3 which is moved up and down according to the oil level of the fuel stored in the fuel tank 1 is installed to be moved up and down while wrapping the guide pipe 2 and the guide rack gear 21. On one side of the lifting body 3, a laser irradiator 4 for irradiating a laser light horizontally and a laser receiver 41 for detecting a received wave irradiated from the laser irradiator and then reflected back are installed. The laser receiver is configured to detect the time taken for the laser light irradiated from the laser irradiator to return to the reflective action and to transmit the signal to the electronic control unit (ECU).

In addition, the upper and lower gears 31 and 32 are rotatably installed on opposite sides of the laser irradiator 4 and the laser receiver 41 so as to be rotatably fitted to the guide rack gear 21. It is configured to guide the up and down movement of).

The bracket 33 attached to one side of the lifting body 3 is provided with a float 34 contacting the oil level of the fuel stored in the fuel tank 1, which floats on the oil level of the stored fuel. The lifting body 3 is supported in the state, and the float 34 moves the lifting body 3 up and down while moving up and down as the fuel is increased or decreased.

On the front side of the laser irradiator 4 of the lifting body 3, the laser reflector 5 is installed vertically toward the bottom of the fuel tank 1 in a state where the laser reflector 5 is fixedly attached to the upper plate 11, and the laser The reflector 5 of the reflector 5 is formed in a step shape from the top to the bottom, which means that the laser light irradiated from the laser irradiator 4 is reflected by the reflector 5 according to the amount of fuel stored therein. As the time to return to the receiver 41 appears differently, the electronic control unit (ECU) is configured to determine the resistance value of the laser reception time for each section and send an accurate resistance value signal to the resistance detection unit 6 for control. have.

For example, when the fuel tank 1 is full of fuel, the distance between the laser irradiator 4 and the reflector 51 of the laser reflector 5 installed on the lifting body 3 moved upward is close to the state. The laser light irradiated from the laser irradiator 4 is reflected by the reflector 51 so that the time received by the laser receiver 41 becomes the shortest, while the fuel is almost consumed and the fuel tank 1 In the state where the lifting body 3 is moved close to the bottom of the center, the distance between the laser irradiator 4 and the reflecting portion 51 of the laser reflector 5 is far from the strong side, so that the laser irradiator 4 After irradiating, it is comprised so that the time reflected by the said reflecting part 51 and returning to the laser receiver 41 may be in the longest state.

On the other hand, the resistance detection unit 6 is electrically or electronically connected to the fuel gauge 7 is configured so that the indicator needle 71 accurately indicates the storage amount of the fuel stored in the fuel tank (1).

The operation of the present invention configured as described above will be described.

The lifting body 3 moves up and down together with the float 34 when the float 34 connected to the bracket 33 is moved up and down along the oil level of the fuel. In the state where fuel is stored in 1), the lifting body 3 is also located at a high position inside the fuel tank 1, and when the lifting body 3 is at a high position in this way, the laser irradiator 4 and the laser The reflecting portions 51 of the reflector 5 are kept close to each other, so that the time for the laser light irradiated from the laser irradiator 4 to be reflected by the reflecting portion 51 and returned to the laser receiver 41 is shortened. .

As described above, the electronic control unit (ECU) determines the time at which the reflected wave reflected by the laser reflector 5 is received by the laser reflector 5 from the time irradiated by the laser irradiator 4 and set according to the determined time. When the resistance signal is sent to the resistance detection unit 6, the resistance detection unit 6 operates the fuel gauge 7 with the correct resistance value so that the indicator needle 71 accurately indicates the amount of storage of the fuel.

As the fuel stored in the fuel tank 1 is consumed by the operation of the vehicle, as the float 34 gradually descends along the oil level, the lifting body 3 is also lowered together, wherein the lifting body 3 is The lifting body 3 is lowered while the outer periphery of the guide pipe 2 is wrapped and the lowering gear 31 and 32 engaged with the guide rack gear 21 are guided by the lowering operation. ) Is to be lowered in a stable state, the laser light irradiated from the laser irradiator (4) even when the lifting body 3 is lowered in this way, it is formed in a stepped shape as the lifting body (3) is lowered The reflection distance of the laser light reflected by the reflector 51 is increased in stages, so that the time for the laser receiver 41 to receive the reflected laser light is also shown in stages differently. Since the ECU controls the resistance detection unit 6 by determining the reception time of the laser light for each section, the indicator needle 71 of the fuel gauge 7 operates according to the amount of fuel consumed. According to the amount of fuel remaining in (1), the scale display part is indicated correctly (refer to FIG. 3).

According to the present invention as described above, the laser light irradiated from the laser irradiator installed on one side of the lifting body which is integrally connected to the float floating on the oil level of the fuel stored in the fuel tank is reflected from the stepped reflector formed in the laser reflector The return time to the laser receiver is different from each other, and then the electronic control unit (ECU) is configured to control the resistance detector by determining the resistance value according to the laser reception time zone for the laser receiver to receive the returned laser. By operating the fuel gauge, the fuel gauge is operated accurately according to the amount of fuel stored, and the lifting body itself has a guide rack gear attached to one side of the guide pipe while the upper and lower gears are wrapped around the outer circumference of the guide pipe. Up and down in the engaged state Since it is configured to move, the effect that the state of movement up and down can be expected to be accurate is an invention having the advantage that the fuel gauge can be accurately operated according to the amount of fuel stored even while the vehicle is running.

Claims (3)

The float is installed to move up and down along the oil level by using the upper plate fixedly installed on the upper part of the fuel tank, and the electronic controller recognizes the resistance value that changes according to the up and down movement of the float. In a fuel gauge actuator configured to operate, A guide pipe fixedly attached to the upper plate and vertically installed downward toward the inside of the fuel tank; A lifting body connected to the float by a bracket, the lifting body being installed to be moved up and down while surrounding the outer circumference of the guide pipe; A laser irradiator fixedly installed at one side of the lifting body to irradiate laser light horizontally; A laser receiver installed on one side of the lifting body to detect a reception time when the light irradiated from the laser irradiator is reflected and return to the electronic control apparatus; And A laser reflector fixedly attached to an upper plate of the fuel tank, the laser reflector being installed vertically in front of the laser irradiator to reflect laser light, the reflecting surface being stepped in a stepped manner; Fuel gauge operating device using a laser receiving wave, characterized in that consisting of. The method of claim 1, The guide rack gear is fixedly attached to one side of the guide pipe vertically, and the lifting operation of the lifting body in a state in which the upper and lower gears rotatably installed in the lifting body are engaged with the guide rack gear. Fuel gauge operating device using a laser receiving wave, characterized in that configured to guide the. delete