KR101442118B1 - fuel changing device for bi-fuel generator - Google Patents

Abstract

The present invention relates to a fuel switching device for a generator using heterogeneous fuels, including a switching socket with a gas inlet port at one side, which is connected to a heterogeneous gas supply line, and an outlet port at the other side, which is connected to an engine supply line of the generator; a direction switching valve, installed in the switching socket, for selectively discharging any one of first and second gas; a switching motor installed to the outside of the switching socket and connected to the direction switching valve; a pressure detecting sensor, installed in the switching socket, for detecting supply pressure of the first and second gas; and a control unit for controlling the switching motor according to the pressure detection values of the pressure detecting sensor. If the first gas which is the main supply gas is exhausted, the second gas is automatically supplied, thereby stably operating the generator without stopping the engine of the generator.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a fuel switching device for a generator using a heterogeneous fuel,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a fuel switching device for a generator using a heterogeneous fuel, and more particularly to a device capable of supplying a selected one of a first gas and a second gas to a generator engine.

As an alternative to depletion of fossil fuels including petroleum and coal, which have limited reserves recently, interest in alternative fuels such as renewable energy is increasing.

In addition, increasing the exhaust gas of the greenhouse gases (carbon dioxide (CO _2), methane (CH _4), nitrous oxide (N ₂ O), hydrogen fluorocarbons (HFCs), perfluorocarbons (PFCs), sulfur hexafluoride to (SF ₆₎ ) Have been accompanied by natural disasters such as sea level rise, rapid climate change, earthquakes, tsunamis, tornadoes, typhoons, tsunamis and heavy rains all over the world.

As a countermeasure against this, interest in alternative fuels such as renewable energy is increasing as a solution to the regulation of domestic and foreign exhaust emission against the increase of greenhouse gas and environmental pollution risk, and it has an advantage in terms of price in preparation for fossil fuels. The use of alternative fuels such as known liquefied petroleum gas (LPG) and liquefied natural gas (LNG) is increasing.

In addition, a number of techniques have been proposed for selectively using two or more kinds of fuels in a combustion mechanism such as a generator engine or a burner.

The following Patent Document 1 discloses a fuel injection adapter having different nozzle diameters for different kinds of fuel, and the following Patent Document 2 discloses a burner for burning a heterogeneous fuel, in which combustion of two kinds of gas fuels can be performed simultaneously or sequentially .

However, Patent Document 1 and Patent Document 2 do not disclose a specific technique for switching the fuel to be used to another fuel.

Patent Document 3 below discloses a switching and feeding apparatus for a heterogeneous liquefied gas fuel which can selectively use a heterogeneous fuel of propane and butane.

The above-mentioned Patent Literature 3 discloses a configuration capable of switching the use of fuel in the switching and feeding apparatus for heterogeneous liquefied gas fuel.

U.S. Application Publication No. US 2013/0112171 A1 (issued on May 9, 2013) Korean Patent Publication No. 10-2011-0049479 (published on May 12, 2011) Japanese Unexamined Patent Application Publication No. 2005-330867 (published on December 2, 2005)

However, in the heterogeneous fuel switching device according to the related art including the patent document 3, even if the operator manually switches the supply fuel or automatically switches the supply fuel, there is a problem that the construction is complicated and the manufacturing is difficult and the operation becomes unstable.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems of the prior art, and it is an object of the present invention to provide a method for supplying a second gas, which is another kind of emergency supply gas, And a fuel switching device for a generator using heterogeneous fuel for continuously operating the fuel cell.

Another object of the present invention is to provide a fuel switching device for a generator that uses heterogeneous fuel so that a small number of component parts can be easily manufactured and fuel switching can be stably performed without fear of malfunction.

In order to achieve the above object, a fuel switching device for a generator using a heterogeneous fuel according to the present invention is provided with a gas inlet through which a heterogeneous gas supply line is connected to one side, A switching socket provided on the base; A direction switching valve installed inside the switching socket for selectively discharging either the first gas or the second gas; A switching motor provided outside the switching socket and connected to the direction switching valve; A pressure sensor disposed inside the switching socket for sensing a first gas supply pressure and a second gas supply pressure; And a control unit for controlling the switching motor according to a pressure sensing value of the pressure sensing sensor.

In the fuel switching device for a generator using a heterogeneous fuel according to the present invention, a first gas guiding part connected to the first gas inlet port and a second gas guiding part connected to the second gas inlet port are provided on one side of the switching socket A first gas discharging portion connected to the first gas guiding portion and a second gas discharging portion connected to the second gas guiding portion are provided at an inner center of the switching socket, And a selective gas discharge unit connected to the second gas discharge unit is provided, and the selective gas discharge unit is connected to the discharge port.

The fuel switching device for a generator using a heterogeneous fuel according to the present invention is characterized in that a diameter of the first gas discharging portion is different from a diameter of the second gas discharging portion.

In the fuel switching device for a generator using a heterogeneous fuel according to the present invention, the directional switching valve selectively opens any one of the first gas discharging portion and the second gas discharging portion of the switching socket.

The fuel switching device of a generator using a heterogeneous fuel according to the present invention is characterized in that the directional switching valve is provided with a first blocking portion and a second blocking portion arranged at right angles to each other and a switching portion provided at a portion where the first blocking portion and the second blocking portion meet And a motor connection portion.

In the fuel switching device for a generator using a heterogeneous fuel according to the present invention, the directional switching valve is installed at the other end of the first gas guiding part and the second gas guiding part in the switching socket.

The fuel switching device of a generator using a heterogeneous fuel according to the present invention is characterized in that the switching motor is a servo motor capable of precisely controlling the rotation angle.

In the fuel switching device for a generator using a heterogeneous fuel according to the present invention, the pressure sensing sensor is installed in the first gas guiding portion and the second gas guiding portion of the switching socket, respectively.

The fuel switching device of a generator using a heterogeneous fuel according to the present invention is characterized in that the control unit controls the switching motor in accordance with the pressure sensing value of the pressure sensing sensor.

In the fuel switching device for a generator using a heterogeneous fuel according to the present invention, a first gas is supplied to a generator engine in a normal operation of the generator, and a pressure sensor provided in a first gas guide portion of the switching socket receives a supply pressure of the first gas And transmits it to the control unit.

When the control unit determines that the first gas as the main supply gas is exhausted when the first gas supply pressure is lower than the set pressure, the control unit controls the switching motor to operate the second gas To the generator engine.

According to the fuel switching device for a generator using a heterogeneous fuel according to the present invention, when the first gas, which is the main supply gas, is exhausted, the second gas can be automatically supplied so that the generator can be stably operated .

Further, according to the fuel switching device for a generator using a heterogeneous fuel according to the present invention, a fuel switching device can be easily manufactured through a small number of components including a switching socket, a direction switching valve, and a switching motor.

In addition, according to the fuel switching device for a generator using a heterogeneous fuel according to the present invention, the directional switching valve is rotated through the switching motor controlled by the control unit, so that the supply gas can be stably switched without fear of malfunction.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a configuration diagram of a fuel switching device for a generator using a heterogeneous fuel according to a preferred embodiment of the present invention;
FIG. 2A is a first gas supply state diagram of the fuel switching device of a generator using a heterogeneous fuel according to the preferred embodiment,
FIG. 2B is a second gas supply state diagram of the fuel switching device of a generator using heterogeneous fuel according to the present preferred embodiment; FIG.
3 is a control flowchart of a fuel switching system of a generator using heterogeneous fuel according to the preferred embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a fuel switching device for a generator using a heterogeneous fuel according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

In the following, the terms "upward", "downward", "forward" and "rearward" and other directional terms are defined with reference to the states shown in the drawings.

1 is a configuration diagram of a fuel switching device for a generator using a heterogeneous fuel according to a preferred embodiment of the present invention.

The fuel switching device 100 of the generator using the heterogeneous fuel according to the preferred embodiment of the present invention includes a switching socket 110, a direction switching valve 120, a switching motor 130, pressure sensors 141 and 142, , And a control unit (150).

The switching socket 110 allows the first gas or the second gas to be supplied to the generator engine.

The switching socket 110 is provided with a first gas inlet 111 to which a first gas supply line is connected and a second gas inlet 112 to which a second gas supply line is connected, A discharge port 113 is provided.

A first gas induction part 114a connected to the first gas inlet port 111 and a second gas induction part 115a connected to the second gas inlet port 112 are provided on the inner left side of the switching socket 110 .

A first gas discharging portion 114b connected to the first gas guiding portion 114a and a second gas discharging portion 115b connected to the second gas guiding portion 115a are formed at an inner center of the switching socket 110 .

A selective gas discharge portion 116 connected to the first gas discharge portion 114b and the second gas discharge portion 115b is provided on the inner side of the switching socket 110, Is connected to the outlet 114.

The diameter of the first gas discharging portion 114b and the diameter of the second gas discharging portion 115b in the switching socket 110 are different from each other because the supply pressure of the first gas and the second gas is adjusted So as to approach the stoichiometric air-fuel ratio at the time of each gas combustion.

For example, in the case of LPG and LNG having lean burn characteristics, it is desirable to improve the air-fuel ratio and the exhaust gas by improving the fuel inflow channel because the engine output is low and the Nox production is increased due to the rise of the engine temperature and the CO ratio is relatively decreased. Do.

For example, if the first gas is LNG and the second gas is LPG, the diameter of the first gas discharging portion 114b is formed larger than the diameter of the second gas discharging portion 115b.

The direction switching valve 120 selectively opens any one of the first gas discharging portion 114b and the second gas discharging portion 115b of the switching socket 110. [

The directional control valve 120 includes a first blocking part 121 and a second blocking part 122 arranged at right angles to each other and a second blocking part 122 provided at a position where the first blocking part 121 and the second blocking part 122 meet And includes a switching motor connection portion 123.

The directional control valve 120 is installed at the right end of the first gas induction part 114a and the second gas induction part 115a in the switching socket 110. [

The directional control valve 120 selectively opens and closes the first gas discharging portion 114b and the second gas discharging portion 115b of the switching socket 110.

That is, the directional control valve 120 closes the second gas discharging portion 115b while opening the first gas discharging portion 114b, or vice versa, while opening the second gas discharging portion 115b, (114b).

FIG. 2A is a first gas supply state diagram of a fuel switching device of a generator using a heterogeneous fuel according to the present preferred embodiment, and FIG. 2B is a view showing a state where the second gas of the fuel switching device of the generator using the heterogeneous fuel according to the preferred embodiment Supply state diagram.

2A, the first cut-off portion 121 of the directional control valve 120 is horizontal and the second cut-off portion 122 is in a vertical state in the first gas supply state, The discharge portion 114b is opened and the second gas discharge portion 115b is sealed.

In the first gas supply state, the first gas enters the switching socket 110 through the first gas inlet 111 of the switching socket 110 and then flows into the first gas guide 114a, The selective gas discharge portion 116, and the discharge outlet 113, in this order.

2B, the first cut-off portion 121 of the directional control valve 120 is in the vertical state and the second cut-off portion 122 is in the horizontal state in the second gas supply state, The discharge portion 115b is opened and the first gas discharge portion 114b is sealed.

In the second gas supply state, the second gas enters the switching socket 110 through the second gas inlet 112 of the switching socket 110 and then flows into the second gas guide portion 115a, The selective gas discharge section 116, and the discharge port 113, in this order.

The switching motor 130 is for operating a direction switching valve 120 installed in the switching socket 110.

The switching motor 130 is installed outside the switching socket 110 and is connected to the switching motor connection part 123 of the direction switching valve 120.

The switching motor 130 is preferably a servo motor capable of precisely controlling the rotation angle.

The pressure sensing sensors 141 and 142 sense the supply pressure of the first gas and the supply pressure of the second gas.

The pressure sensing sensors 141 and 142 are installed in the first gas guiding part 114a and the second gas guiding part 115a of the switching socket 110, respectively.

The control unit 150 controls the switching motor 130 according to the pressure sensing value of the pressure sensing sensors 141 and 142.

3 is a control flow chart of the fuel switching system of a generator using heterogeneous fuel according to the preferred embodiment of the present invention.

In the fuel switching device 100 for a generator using a heterogeneous fuel according to the preferred embodiment of the present invention, the first gas becomes the main supply gas.

Therefore, when the generator is operated normally, the first cut-off portion 121 of the directional control valve 120 is horizontal and the second cut-off portion 122 is vertical as shown in FIGS. 1 and 2A, The first gas discharging portion 114b is opened and the second gas discharging portion 115b is sealed so that the first gas is supplied to the generator engine.

In the first gas supply state, the pressure sensing sensor 141 installed in the first gas induction portion 114a of the switching socket 110 senses the supply pressure of the first gas and transmits it to the control unit 150. [

At this time, the control unit 150 compares the first gas supply pressure of the first gas induction unit 114a with the set pressure. If the first gas supply pressure is equal to or higher than the set pressure, the control unit 150 displays the first gas Is normally supplied to the generator engine.

When the first gas supply pressure is lower than the set pressure, the control unit 150 determines that the first gas as the main supply gas is exhausted. Then, the control unit 150 operates the switching motor 130 to supply the second gas to the generator engine. The display means (not shown) of the panel indicates that the first gas is exhausted and that the second gas is being supplied to the generator engine.

When the switching motor 130 is operated by the control signal of the control unit 150, the direction switching valve 120 connected to the switching motor 130 is rotated by 90 ° counterclockwise, The second cutoff portion 122 of the directional control valve 120 becomes horizontal and the first cutoff portion 121 is vertically moved to open the second gas discharge portion 115b of the switching socket 110 The first gas discharging portion 114b is sealed and the second gas is supplied to the generator engine.

As described above, the fuel switching device 100 of the generator using the heterogeneous fuel according to the preferred embodiment of the present invention can automatically supply the second gas when the first gas, which is the main supply gas supplied to the generator engine, is exhausted The generator can be stably operated without stopping the generator engine.

When charging of the first gas is completed while the second gas is being supplied in an emergency, the control unit 150 operates the switching motor 130 in the opposite direction. At this time, The first blocking portion 121 is in a horizontal state and the second blocking portion 122 is in a vertical state so that the first gas discharging portion 114b of the switching socket 110 is opened and the second gas discharging portion 115b is opened And the first gas is supplied to the generator engine again.

Although the present invention has been described in detail with reference to the above embodiments, it is needless to say that the present invention is not limited to the above-described embodiments, and various modifications may be made without departing from the spirit of the present invention.

100: Fuel switching device
110: Switching socket
120: Directional switching valve
130: Switching motor
141, 142: Pressure sensor
150: control unit

Claims (11)

delete A switching socket 110 provided with a gas inlet 111 and a gas inlet 112 connected to the gas supply line on one side and an outlet 113 connected to the generator engine supply line on the other side;
A direction switching valve 120 installed in the switching socket 110 for selectively discharging either the first gas or the second gas;
A switching motor 130 installed outside the switching socket 110 and connected to the directional control valve 120;
Pressure sensing sensors 141 and 142 installed inside the switching socket 110 to sense a first gas supply pressure and a second gas supply pressure;
And a control unit (150) for controlling the switching motor (130) according to the pressure sensed by the pressure sensing sensors (141) and (142). The fuel switching device
A first gas induction part 114a connected to the first gas inlet port 111 and a second gas induction part 115a connected to the second gas inlet port 112 are provided on one side of the switching socket 110,
A first gas discharging portion 114b connected to the first gas guiding portion 114a and a second gas discharging portion 115b connected to the second gas guiding portion 115a are disposed at the center of the inside of the switching socket 110, Lt; / RTI &
A selective gas discharging portion 116 connected to the first gas discharging portion 114b and the second gas discharging portion 115b is provided on the other side of the switching socket 110,
Wherein the selective gas discharge portion (116) is connected to the discharge port (114).
3. The method of claim 2,
Wherein the diameter of the first gas discharging portion (114b) and the diameter of the second gas discharging portion (115b) are formed differently from each other.
3. The method of claim 2,
Characterized in that the directional switching valve (120) selectively opens any one of the first gas discharging part (114b) and the second gas discharging part (115b) of the switching socket (110) .
5. The method of claim 4,
The directional control valve 120 includes a first blocking part 121 and a second blocking part 122 arranged at right angles to each other and a second blocking part 122 provided at a position where the first blocking part 121 and the second blocking part 122 meet And a switching motor connection part (123).
6. The method of claim 5,
Wherein the directional control valve 120 is installed at the other end of the first gas induction part 114a and the second gas induction part 115a in the switching socket 110. [ Device.
delete 3. The method of claim 2,
Wherein the pressure sensing sensors 141 and 142 are installed in the first gas induction part 114a and the second gas induction part 115a of the switching socket 110, Device.
9. The method of claim 8,
Wherein the control unit (150) controls the switching motor (130) according to the pressure sensed by the pressure sensors (141, 142).
10. The method of claim 9,
The first gas is supplied to the generator engine and the pressure sensing sensor 141 provided in the first gas induction portion 114a of the switching socket 110 senses the supply pressure of the first gas and is supplied to the control unit 150 And the control unit transmits the fuel to the generator.
The method of claim 10, wherein
The control unit 150 operates the switching motor 130 to supply the second gas to the generator engine after determining that the first gas as the main supply gas is exhausted when the first gas supply pressure is lower than the set pressure A fuel switching device for a generator using heterogeneous fuel.

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