KR20190028136A - Warm up system for generator and ship - Google Patents

Abstract

A lubricating oil preheating system for a generator according to an embodiment of the present invention includes a lubricating oil sump tank for storing lubricating oil for a generator; A lubricating oil pump for delivering the lubricating oil stored in the lubricating oil sump tank to the generator; A jacket water preheater for preheating the jacket water and supplying the jacket water to the generator; And a lubricating oil heating unit for heating the lubricating oil stored in the lubricating oil sump tank using at least a part of the jacket water supplied to the generator through the jacket water preheating unit.

Description

[0001] Warm up system for generator and ship [0002]

The present invention relates to a lube oil preheating system for generators and a ship.

Generally, various parts inside the engine are supplied with a predetermined lubricating oil to lubricate the engine, so that smooth engine operation can be performed. In addition, lubricating oil is supplied to the engine through a lubricating pump while lubricating oil is stored in the engine A sump tank may be provided adjacent to the engine, which is a lubricant circulation supply device for draining the lubricating oil lubricated in the engine and supplying it back to the main engine.

For example, the engine and the sump tank may be separated from each other by a certain distance from the engine, and the sump tank may be disposed at a lower portion of the engine. , The lubricating oil can be stored in the sump tank after lubricating the engine, and can be continuously lubricated while the lubricating oil circulating is repeatedly supplied to the engine through the lubricating pump. have.

However, since the temperature of the lubricating oil of the generator during the winter is low, there is a problem of tripping at the time of priming of the lubricating oil and a problem of cooler burst of the lubricating oil due to the over-pressure of the pump .

It is an object of the present invention to provide a lubricating oil preheating system for a generator and a ship capable of preventing an overpressure of a cooler buster and a pump when priming lubricating oil.

A lubricating oil preheating system for a generator according to an embodiment of the present invention includes a lubricating oil sump tank for storing lubricating oil for a generator; A lubricating oil pump for delivering the lubricating oil stored in the lubricating oil sump tank to the generator; A jacket water preheater for preheating the jacket water and supplying the jacket water to the generator; And a lubricating oil heating unit for heating the lubricating oil stored in the lubricating oil sump tank using at least a part of the jacket water supplied to the generator through the jacket water preheating unit.

A ship according to another embodiment of the present invention is characterized by having a lubricating oil preheating system for the generator.

Specifically, the jacket water preheating unit may preheat the jacket water and supply the jacket water to the generator to prevent low temperature corrosion when the generator is stopped.

Specifically, the lubricating oil heating unit may heat the lubricating oil by using the jacket water preheated by the jacket water preheating unit when the generator is stopped.

Specifically, the jacket water preheating unit includes: a jacket water pipe through which the jacket water flows; A jacket water pump provided in the jacket water pipe; And a jacket water heater provided on the jacket water pipe for heating the jacket water.

Specifically, the lubricant heating unit may include a jacket water branch pipe branched from the jacket water pipe and provided to pass through the inside of the lubricant sump tank.

Specifically, the jacket water branch pipe may branch off from the jacket water heater downstream from the jacket water heater, pass through the inside of the lubricant sump tank, and then join the upstream of the generator in the jacket water pipe.

Specifically, the apparatus further comprises a lubricating oil piping in which the inlet is located inside the lubricating sump tank and connected to the generator, and the jacket water branching pipe may be provided adjacent to the inlet of the lubricating oil piping in the lubricating sump tank have.

Specifically, the jacket water branch pipe may have a coil shape inside the lubricant sump tank.

Specifically, the lubricating oil pump is a lubricating oil priming pump that transfers the lubricating oil to the generator when the generator stops operating. The lubricating oil pump is connected to the drive shaft of the generator to operate the generator, And may include a circulation pump.

Specifically, a purifier heater for heating the lubricating oil may be omitted.

The lubricating oil preheating system and the ship according to the present invention are characterized in that the lubricating oil stored in the lubricating oil sump tank is heated by using a part of the jacket water supplied to the generator through the jacket water preheating section to use steam generated by operating the boiler A purifier heater for heating the lubricating oil can be omitted, so that it is possible to prevent the occurrence of the lubricating oil cooler buster problem and to prevent the overpressure of the pump.

1 is a view showing a ship provided with a lubricating oil preheating system for a generator according to an embodiment of the present invention.
2 is a diagram illustrating a lubricating oil preheating system for a generator according to an embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The objects, particular advantages and novel features of the present invention will become more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG. It should be noted that, in the present specification, the reference numerals are added to the constituent elements of the drawings, and the same constituent elements are assigned the same number as much as possible even if they are displayed on different drawings. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a view showing a ship equipped with a lube oil preheating system for a generator according to an embodiment of the present invention, and FIG. 2 is a diagram showing a lube oil preheating system for a generator according to an embodiment of the present invention.

1 and 2, a ship 100 according to an embodiment of the present invention includes a hull 110, an engine room 120, an engine 121, a generator 125, a lube oil preheating system 200 for a generator, . ≪ / RTI >

A rudder (not shown) may be provided at the rear of the hull 110. The rudder is a kind of a steering device for adjusting the direction of the hull 110 during operation. Change the direction of the sailing by adjusting the direction. That is, the rudder is rotatably installed with respect to the hull 110, and adjusts the traveling direction of the ship 100 by changing the acting direction of the propulsive force generated from the propeller.

The engine 121 can be a conventional internal combustion engine and can generate rotational power of a propeller (not shown) using fuel. The engine 121 may be a heterogeneous fuel engine but is not limited thereto. The engine 121 may include a vent mast (not shown) through which exhaust gas discharged from the engine 121 is discharged, and an air intake (not shown) The engine 121 can be connected to the engine room 120 together with a propelling engine (not shown).

Here, the engine room 120 may be provided under the upper deck (not shown), i.e., inside the hull, and may be provided with a space for installing the engine 121, and an engine The engine room 120 may be positioned in front of the propeller.

The generator 125 may be provided in a plurality of generators 125. The plurality of generators 125 may operate only one of the generators 125 depending on the power supply amount and the like. No lubricant needs to be heated as well.

However, it is necessary to preheat the jacket water and heat the lubricant to the generator 125 provided in the standby state among the plural generators 125, which can be done by the generator lube oil preheating system 200.

2, the generator lubricating oil preheating system 200 includes a lubricating oil sump tank 210, a lubricating oil pump 220, a lubricating oil circulating pump 230, a jacket water preheating section 240, and a lubricating oil heating section 250 . Particularly, in the lubricating oil preheating system 200 for a generator according to the present embodiment, a purifier heater for heating the lubricating oil is omitted, thereby preventing a lubricant cooler buster problem from occurring.

The lubricating oil sump tank 210 stores the lubricating oil for the generator and the lubricating oil sump tank 210 can be provided below the generator 125. When the lubricating oil of the generator 125 is discharged to the lubricating oil sump tank 210 A drain pipe (not shown) may be provided under the generator 125.

In addition, lubricating oil may be supplied from the lubricating oil sump tank 210 to the generator 125, at which time the lubricating oil pipe 211 may be connected from the lubricating oil sump tank 210 to the generator 125. In the lubricating oil pipe 211, the inlet may be located inside the lubricating oil sump tank 210.

The lubricating oil flowing into the lubricating oil sump tank 210 from the generator 125 may be discharged to the lubricating oil sump tank 210 after the lubricating oil circulates inside the generator 125 and the foreign substances are included in the lubricating oil sump tank 210, The bottom surface of the sump tank 210 may be inclined so that the foreign matter may be loaded and the lowest area of the bottom surface of the lubricating sump tank 210 on which the foreign matter is loaded may be spaced apart from the inlet of the lubricating oil pipe 211, It is possible to minimize the inclusion of foreign matter in the lubricating oil flowing back into the generator 125 through the inlet of the lubricating oil pipe 211.

The lubricating oil pump 220 is configured to transmit the lubricating oil stored in the lubricating oil sump tank 210 to the generator 125. The lubricating oil pump 220 is configured to transmit the lubricating oil to the generator 125 when the generator 125 stops operating, It may be a priming pump.

For example, if the lubricating oil is discharged to the lubricating oil sump tank 210 through a drain pipe provided at a lower portion of the generator 125, the height of the lubricating oil in the lubricating oil sump tank 210 may be increased. The lubricating oil pump 220 can be driven to supply the lubricating oil to the generator 125 again so that the capacity of the lubricating oil in the engine 100 can be maintained constant.

The lubricant circulating pump 230 is connected to the driving shaft of the generator 125 when the generator 125 is in operation and can circulate the lubricant so that it is necessary to separately provide a motor for driving the lubricant circulating pump 230 There is no waste of electric power, and space utilization can be increased.

The jacket water preheating unit 240 preheats the jacket water and supplies the preheated jacket water to the generator 125. The jacket water preheating unit 240 preheats the jacket water to prevent low temperature corrosion at the time of stopping the generator 125, (125).

The jacket water preheating unit 240 can be driven only when the generator 125 is in the standstill state, so that the jacket water circulation can not be performed while the generator 125 is operating.

Here, the jacket water is cooling water, but it can cool the generator 125 in a state where the temperature of the jacket water is relatively low as compared with the temperature of the generator 125 to cool the generator that has risen to a high temperature. It is necessary to maintain the temperature. The reason why the jacket water is kept at a temperature of 70 degrees or more is that low temperature corrosion may occur because the temperature drops when the generator 125 is stopped.

In addition, during operation of the generator 125, the jacket water can be raised to 80 to 90 degrees, so that there is no problem of low-temperature corrosion, and a different configuration (for example, a jacket water cooler) than the jacket water pre- Lt; / RTI >

Specifically, the jacket water preheating section 240 may include a jacket water pipe 241, a jacket water pump 242, and a jacket water heater 243.

The jacket water piping 241 can flow the jacket water so that the jacket water discharged from the generator 125 is heated and returned to the generator 125 so that the jacket water can be heated by the jacket water heater 243. [ One end of the jacket water pipe 241 is connected to the generator 125 and the other end of the jacket water pipe 241 is connected to the generator 125 again so that the jacket water pipe 241 is connected to the jacket water pipe 241, Can be circulated through the discharge and inflow.

The jacket water pump 242 may be provided in the jacket water pipe 241 and may apply pressure to the jacket water to forcefully transfer the jacket water. For example, the jacket water pump 242 is provided on the jacket water pipe 241 upstream of the jacket water heater 243 so that the jacket water pump 242 is supplied to the jacket water heater 243 after the jacket water pump 242 enters the jacket water heater 243. [ (Not shown).

The jacket water heater 243 is provided in the jacket water pipe 241 and is capable of heating the jacket water. For example, the jacket water heater 243 heats the jacket water and is discharged through the jacket water pipe 241 to the generator 125 .

The lubricating oil heating unit 250 heats the lubricating oil stored in the lubricating oil sump tank 210 using at least a part of the jacket water supplied to the generator 125 through the jacket water preheating unit 240. The lubricating oil heating unit 250 may heat the lubricating oil using the jacket water preheated by the jacket water preheating unit 240 when the generator 125 stops operating.

The lubricating oil heating unit 250 may include a jacket water branch pipe 251. The jacket water branch pipe 251 branches off from the jacket water pipe 241 and passes through the inside of the lubricating oil sump tank 210 .

The jacket water branch pipe 251 is connected to the jacket water heater 243 so that the jacket water heater 243 can directly receive the jacket water that is preheated by the jacket water heater 243, Jacket water can be supplied.

For example, after branching from the jacket water piping 241 downstream from the jacket water heater 243 and passing through the inside of the lubricating oil sump tank 210, the jacket water piping 241 joins the upstream side of the generator 125 .

The jacket water branch pipe 251 can be provided adjacent to the inlet of the lubricating oil pipe 211 in the lubricating oil sump tank 210 so that only the lubricating oil near the inlet of the lubricating oil pipe 211 can be heated, Since the temperature of the lubricating oil flowing into the lubricating oil pump 220 becomes high, it is possible to prevent a problem from occurring in the operation of the lubricating oil pump 220.

The jacket water branch pipe 251 may have a coil shape inside the lubricant sump tank 210 so that the surface area in contact with the fluid inside the lubricant sump tank 210 can be expanded and thus heat transfer can be facilitated .

As described above, in this embodiment, the lubricating oil stored in the lubricating oil sump tank 210 is heated by using a part of the jacket water supplied to the generator 125 through the jacket water preheating unit 240, The purifier heater can be omitted, so that the overpressure of the cooler buster and the pump can be prevented when priming the lubricant.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the same is by way of illustration and example only and is not to be construed as limiting the present invention. It is obvious that the modification and the modification are possible.

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 invention as defined by the appended claims.

100: ship 110: hull
120: engine room 121: engine
125: Generator 200: Lubricant preheating system for generator
210: lubricating oil sump tank 211: lubricating oil piping
220: Lubricating oil pump 230: Lubricating oil circulating pump
240: jacket water preheating part 241: jacket water piping
242: jacket water pump 243: jacket water heater
250: lubricating oil heating unit 251: jacket water branch pipe

Claims (11)

A lubricating oil sump tank for storing lubricating oil for generator;
A lubricating oil pump for delivering the lubricating oil stored in the lubricating oil sump tank to the generator;
A jacket water preheater for preheating the jacket water and supplying the jacket water to the generator; And
And a lubricating oil heating unit for heating the lubricating oil stored in the lubricating oil sump tank using at least a part of the jacket water supplied to the generator through the jacket water preheating unit. [2] The apparatus of claim 1, wherein the jacket water pre-
Wherein the jacket water is preheated and supplied to the generator to prevent low-temperature corrosion when the generator is shut down. The lubricating oil supply apparatus according to claim 1,
Wherein the lubricating oil is heated by using the jacket water preheated by the jacket water preheating part when the generator is stopped. [2] The apparatus of claim 1, wherein the jacket water pre-
Jacket water piping in which jacket water flows;
A jacket water pump provided in the jacket water pipe; And
And a jacket water heater provided in the jacket water pipe for heating the jacket water. 5. The lubricating oil supply apparatus according to claim 4,
And a jacket water branch pipe branched from the jacket water pipe and provided to pass through the inside of the lubricant sump tank. 6. The apparatus according to claim 5, wherein the jacket water branch pipe
Is branched downstream from the jacket water heater in the jacket water piping, passes through the inside of the lubricant sump tank, and merges upstream of the generator in the jacket water piping. The method according to claim 6,
Further comprising a lubricating oil pipeline in which an inlet is located inside the lubricating oil sump tank and connected to the generator,
The jacket water branch pipe,
And is provided adjacent to the inlet of the lubricating oil pipe in the lubricating oil sump tank. 8. The method of claim 7,
The jacket water branch pipe,
Wherein the lubricating oil sump tank has a coil shape inside the lubricating oil sump tank. The method according to claim 1,
The lubricating oil pump is a lubricating oil priming pump for transmitting the lubricating oil to the generator when the generator is stopped,
And a lubricant circulation pump connected to the drive shaft of the generator when the generator is operated and circulating the lubricant. The method according to claim 1,
Characterized in that a lubricating oil heater for heating the lubricating oil is omitted. A ship characterized by having a lube oil preheating system for the generator according to any one of claims 1 to 10.

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