KR20130098687A - Oil system for gas turbine engine - Google Patents

Abstract

PURPOSE: An oil system for a gas turbine engine is provided to block oil flowing reversely from an oil tank to a mist filter by using an orifice of a connection pipe. CONSTITUTION: An oil system for a gas turbine engine comprises an oil tank (110) and a mist filter (130). The oil tank stores lubricant oil. The mist filter is connected to the oil tank, and removes air including oil mist inside the oil tank. Multiple pipes (140) are arranged between the mist filter and the oil tank. A connection pipe where an orifice is installed, and which is connected with the pipe is installed at an entry of the mist filter.

Description

Oil system for gas turbine engine

The present invention relates to an oil system, and more particularly, to an oil system for a gas turbine engine, which prevents oil from entering into a mist filter due to a malfunction.

Typically, a gas turbine engine is used as a military engine, an aircraft engine, an industrial engine, and the like, and acquires propulsion force or power by mixing and burning fuel in compressed air in a compression unit.

The gas turbine engine mixes and combusts fuel in high pressure air, so there is a region of high temperature and high pressure. Therefore, in order to prevent damage to the components during operation, oil is supplied to the area that requires lubrication or cooling.

However, when vibration or shock is transmitted from the outside, the oil stored in the oil tank may slump and flow back to the oil mist filter through the pipe of the oil system formed between each component.

On the other hand, "Gooseneck exhaust system of the oil tank" of Korean Patent Laid-Open No. 2011-0014816 provides an exhaust system for controlling the pressure inside the oil tank. According to No. 2011-0014816, it is possible to efficiently recover the remains discharged with the air in the exhaust process of the oil tank. However, No. 2011-0014816 discloses a configuration in which remains enter the mist filter.

This invention makes it a main subject to provide the oil system for gas turbine engines provided with the component which blocks the inflow of oil in the inlet side of a mist filter.

Oil system for a gas turbine engine according to an aspect of the present invention,

An oil tank in which lubricating oil is stored;

And a mist filter connected to the oil tank to remove air including oil mist in the oil tank.

A plurality of pipes are disposed between the oil tank and the mist filter,

The inlet of the mist filter is connected to the pipe, and includes a connection pipe provided with an orifice.

In one embodiment, the plurality of pipes comprises a first pipe providing a path through which the air including the oil mist and backflow oil flows from the oil tank to the connecting pipe, and flows into the mist filter by the orifice. And a second piping for returning the blocked backflow oil to the oil tank.

In one embodiment, the first pipe and the second pipe are all connected to the connection pipe, the first pipe is located above the second pipe.

In one embodiment, one end of the first pipe is connected to an upper region, which is a space inside the oil tank, the other end is connected to the connecting tube, and one end of the second pipe is connected to oil in a lower region of the oil tank. The other end is connected to the connecting pipe.

In one embodiment, the orifice is located between the mr filter and the first tubing.

In one embodiment, the oil circulation path flows by the oil pump is provided with a generator, an engine for inflow and outflow of the oil flowing from the oil tank, and a connection for coupling the generator and the engine to each other, the oil tank is It is connected to the mist filter which discharges the air containing the oil mist through the pipe.

Oil system for a gas turbine engine according to another aspect of the present invention,

An oil tank for storing lubricating oil;

A circulating unit connected to the oil tank and having a generator installed on an oil circulation path through which oil flowing by an oil pump flows, an engine, and a connection unit coupling the generator and the engine;

A mist filter connected to the oil tank by a plurality of pipes and removing air including oil mist; And

And a connecting pipe having an orifice for blocking oil backflowed from the oil tank to the mist filter.

In one embodiment, the plurality of pipes of the singer is a first pipe to provide a flow path for the air containing the oil mist or backflow oil from the oil tank to the connecting pipe, and the orifice is introduced into the Mr filter And a second pipe for recovering the blocked oil to the oil tank.

In one embodiment, the connecting pipe is installed at the inlet of the MR filter, the first pipe and the second pipe are connected together.

In one embodiment, the first pipe is located on the upper side of the connecting pipe than the second pipe, one end of the first pipe is connected to the upper region which is a space inside the oil tank, the other end to the connecting pipe One end of the second pipe is connected to the lower region inside the oil tank so as to contact the oil, and the other end is connected to the connection pipe.

As described above, the oil system for the gas turbine engine of the present invention prevents oil stored in the oil tank from flowing back into the mist filter due to a malfunction, thereby preventing damage to the oil system.

1 is a block diagram showing an oil system according to an embodiment of the present invention,
2 is a block diagram showing that the oil tank and the mist filter of Figure 1 is connected,
3 is an enlarged view illustrating the mist filter of FIG. 2.

BRIEF DESCRIPTION OF THE DRAWINGS The present invention is capable of various modifications and various embodiments, and particular embodiments are illustrated in the drawings and described in detail in the detailed description. It is to be understood, however, that the invention is not to be limited to the specific embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

The terms first, second, etc. may be used to describe various elements, but the elements should not be limited by terms. Terms are used only for the purpose of distinguishing one component from another.

The terminology used in this application is used only to describe a specific embodiment and is not intended to limit the invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In the present application, the terms "comprises", "having", and the like are used to specify that a feature, a number, a step, an operation, an element, a component, Should not be construed to preclude the presence or addition of one or more other features, integers, steps, operations, elements, parts, or combinations thereof.

Hereinafter, an embodiment of an oil system for a gas turbine engine according to the present invention will be described in detail with reference to the accompanying drawings, in which the same or corresponding components will be given the same reference numerals, and accordingly Duplicate explanations will be omitted.

1 shows an oil system 100 for a gas turbine engine according to one embodiment of the invention.

Referring to the drawings, the gas turbine engine oil system 100 includes an oil tank 110, an oil pump 120, a mist filter 130, and a pipe 140.

The oil tank 110 is installed on the oil circulation path 150. The oil stored in the oil tank 110 is pumped from the oil pump 120 by the driving force of the driving motor 160 to be flowable onto the oil circulation path 150. An oil circulation unit such as a generator 170, an engine 180, and a connection unit 190 connecting the generator 170 and the engine 180 are installed on the oil circulation path 150. The oil flows into the oscillator 170, the engine 180, and the connection 190.

Meanwhile, a mist filter 130 is installed at one side of the connection unit 190. The mist filter 130 is installed to prevent the pressure inside the oil tank 110 from being increased by the oil mist. The mist filter 130 is connected to the oil tank 110 by a pipe 140, so that the air containing the oil mist can be discharged to the atmosphere.

Referring to the oil circulation path of the oil system 100 having the configuration as described above are as follows.

The oil stored in the oil tank 110 flows onto the oil circulation path 150 by pumping the oil pump 120. The oil pump 120 is operable by a driving force of the driving motor 160.

The oil flowing onto the oil circulation path 150 is supplied to each part of the generator 170, the engine 180, and a connection 190 connecting the generator 170 and the engine 180. The lubricated oil is recovered to the oil tank 110 again through the generator 170, the engine 180, and the connection unit 190.

On the other hand, the discharge path of the air and oil mist of the oil system 100 having the configuration as described above are as follows.

In order to adjust the pressure balance of each part of the oil tank 110 and the engine 180, the air inside the oil tank 100 is required to communicate with the outside. Accordingly, the air including the oil mist generated from the inside of the oil tank 110 flows through the pipe 140. Oil mist mixed in the air flowing through the pipe 140 is collected in the mist filter 130 through the mist filter 130, the air is discharged to the outside.

In this case, when vibration or shock is applied to the oil system 100 from the outside, the oil may flow back through the mist filter 130 through the pipe 140 due to the fluctuation of the oil stored in the oil tank 110. have. In order to prevent this, the inlet side of the mist filter 130 is provided with a device that can block the inflow of oil.

This will be described in more detail as follows.

2 illustrates that the oil tank 110 and the mist filter 130 of FIG. 1 are connected, and FIG. 3 shows an enlarged view of the mist filter 130 of FIG.

2 and 3, the mist filter 130 is installed on the upper portion of the oil tank 110 in order to prevent the pressure inside the oil tank 110 is increased due to the air containing the oil mist.

The mist filter 130 is connected to the oil tank 110 by a pipe 140. The pipe 140 includes a first pipe 141 and a second pipe 142. The first pipe 141 and the second pipe 142 are all installed between the oil tank 110 and the mist filter 130.

At this time, the first pipe 141 is installed to discharge the air containing the oil mist in the oil tank 110 to the outside of the oil tank 110. One end of the first pipe 141 is connected to the upper region 112 which is a space in the oil tank 110 so as not to contact the oil 111 stored in the oil tank 110. The other end of the first pipe 141 is connected to the connection pipe 210 coupled to the inlet of the mist filter 130.

Accordingly, air including the oil mist existing in the oil tank 110 may flow into the mist filter 130 through the first pipe 141 and via the connection pipe 210.

On the other hand, due to external vibration or shock, the oil 111 stored in the oil tank 110 may inevitably flow to the connection pipe 210 through the first pipe 141.

The second pipe 142 is installed to recover the oil 111 inevitably flowed into the connection pipe 210. One end of the second pipe 142 is connected to the lower region 113 in the oil tank 110 to be in contact with the oil 111 stored in the oil tank 110. The other end of the second pipe 142 is connected to the connection pipe 210 coupled to the inlet of the MR filter 130.

At this time, the other end of the second pipe 142 is located on the lower side than the other end of the first pipe (141). Accordingly, the oil 111 flowing into the connection pipe 210 may be recovered back into the oil tank 110 through the second pipe 142.

In this case, in order to block the oil 111 flowing into the connection pipe 210 from being introduced into the mist filter 130, a separate blocking member, for example, an orifice 211 is installed in the connection pipe 210. It is.

That is, the connection pipe 210 is connected to the other end of the first pipe 141 and the other end of the second pipe 142 at the inlet of the mist filter 130. An orifice 211 is installed in the connection pipe 210. The oil 111 introduced into the space 212 in the connecting pipe 210 is reduced in flow rate due to the orifice 211, and resistance does not flow into the mist filter 130 located on the upper side, and lower side It is possible to return to the oil tank 110 through the second pipe 142 located in.

Looking at the operation of the oil system 100 having the configuration as described above are as follows.

First, in a normal operating state without external vibration or shock, air including an oil mist existing in the upper region 112, which is a space inside the oil tank 110, flows through the first pipe 141. do. Air containing the oil mist flowing through the first pipe 141 is introduced into the mist filter 130 via the connecting pipe 210, the liquid crystal is collected by the mist filter 130, the air is a Mr filter It is discharged to the outside through the 130.

On the contrary, when an external vibration or shock is applied, the oil 111 in the oil tank 110 is rocked. Accordingly, the oil 111 inevitably flows through one end of the first pipe 141. The oil 111 flowing through the first pipe 141 flows into the space 212 in the connection pipe 210.

The oil 111 flowed back into the connecting pipe 210 is reduced in flow rate by an orifice 211 installed in the connecting pipe 210, and resistance is generated so that an oil filter installed on the upper side of the connecting pipe 210 ( 130) it does not flow into. Instead, the oil 111 flows through the other end of the second pipe 141 provided below the first pipe 141. Accordingly, the reversed oil 111 may be recovered to the lower region 113 inside the oil tank 111.

100 ... oil system 110 ... oil tank
112 upper area 113 lower area
120 ... oil pump 130 ... mist filter
140 Piping 141 First piping
142 Second pipe 150 Oil circulation path
160 ... drive motor 170 ... generator
180 ... engine 190 ... connection
210 Connector 211 Orifice

Claims (10)

An oil tank in which lubricating oil is stored;
And a mist filter connected to the oil tank to remove air including oil mist in the oil tank.
A plurality of pipes are disposed between the oil tank and the mist filter,
An inlet of the mist filter connected to the pipe, the oil system of the gas turbine engine including a connection pipe is installed. The method of claim 1,
The plurality of pipes may include a first pipe providing a path through which the air including the oil mist and the back flow oil flows from the oil tank to the connecting pipe, and the back flow oil whose flow is blocked by the orifice into the mist filter. An oil tank of a gas turbine engine including a second pipe to be recovered to the oil tank. 3. The method of claim 2,
The first pipe and the second pipe are all connected to the connection pipe,
The oil system of a gas turbine engine, wherein the first pipe is located above the second pipe. The method of claim 3, wherein
One end of the first pipe is connected to the upper region, which is a space inside the oil tank, and the other end is connected to the connecting pipe,
One end of the second piping is connected to the lower region inside the oil tank in contact with the oil, the other end is connected to the connecting pipe oil system of the gas turbine engine. 3. The method of claim 2,
The orifice is located between the mr filter and the first piping. The method of claim 1,
On an oil circulation path flowing by an oil pump, a generator, an engine, and a connection part for coupling the generator and the engine to each other, are provided with oil flowing in and out of the oil tank.
The oil tank is an oil system of a gas turbine engine connected to a mist filter for exhausting air containing oil mist through the pipe. An oil tank for storing lubricating oil;
An oil circulation unit connected to the oil tank and having a generator installed on an oil circulation path through which oil flowing by an oil pump flows, an engine, and a connection unit coupling the generator and the engine;
A mist filter connected to the oil tank by a plurality of pipes and removing air including oil mist; And
And a connecting tube having an orifice for blocking oil backflowed from the oil tank to the mist filter. The method of claim 7, wherein
The plurality of pipes may include a first pipe providing a path through which oil including an oil mist or a back flow of oil flows from the oil tank to the connecting pipe, and the oil blocked from entering the MR filter by the orifice. An oil system of a gas turbine engine comprising a second piping returning to a tank. The method of claim 8,
The connecting pipe is installed at the inlet of the MR filter,
An oil system of a gas turbine engine, wherein the first pipe and the second pipe are connected together. The method of claim 9,
The first pipe is located on the upper side of the connecting pipe than the second pipe,
One end of the first pipe is connected to the upper region, which is a space inside the oil tank, and the other end is connected to the connecting pipe,
One end of the second piping is connected to the lower region inside the oil tank in contact with the oil, the other end is connected to the connecting pipe oil system of the gas turbine engine.

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