KR101597048B1 - Gear box unit - Google Patents

Abstract

A gear box unit is disclosed. According to one embodiment of the present invention, the gear box unit comprises: a gear box housing; a planetary gear unit comprising a first planetary gear and a second planetary gear provided to the inside of the gear box housing; a transmission gear unit disposed adjacent to the planetary gear unit; a supply unit comprising a pump unit; an oil storage tank having a partition wall having an auxiliary partition wall, an individual storage space, and a checking window; and a control unit. The present invention secures an operation in an optimal condition regardless of a difference in rotational speeds.

Description

[0001] Gear box unit [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a gear box unit for supplying oil having different viscosities according to a gear speed of a wind power generator or a gear for transmitting power or rotational force to a vehicle.

Generally, a wind turbine generator is a device that generates electric energy by using the wind force. In recent years, the use of a wind turbine as a natural energy source without environmental pollution is increasing.

A wind turbine generator is provided with a column on the ground, a rotor mounted on the front surface of the cover coupled to the upper end of the column, and a gear box installed inside the cover to increase the rotational speed of the rotor.

Also, a generator for generating electric power by the rotational force transmitted from the gear box is coupled, so that the rotational force of the rotor is generated in the generator via the gear box 30.

Particularly, a gear box used to increase the rotational speed of the rotor to smoothly operate the generator has an input shaft protruding from a front surface of a housing for protecting internal components and rotated by the rotor, A planetary gear unit for changing the rotation speed is provided.

The planetary gear unit includes a single-stage speed increasing portion (not shown), a two-speed speed increasing portion and a three-speed speed increasing portion for changing the speed to a specific rotation speed.

The gear box used as such is rotated at different rotational speeds when a plurality of the planetary gear units mounted therein are rotated. Since the oil supplied to the planetary gear unit is supplied with the oil having the same viscosity, It was difficult to maintain speed and operating efficiency.

For example, although the planetary gear unit rotating at a high rotation speed is supplied with oil having a specific viscosity, the rotation efficiency may be lowered by supplying the oil having the same viscosity at a time .

Korean Patent Publication No. 10-2010-0078287 (Published on July 08, 2010)

Embodiments of the present invention are to supply oil having different viscosities to a planetary gear unit and a transmission gear unit provided inside a gear box unit of a wind power generator to operate under optimum conditions regardless of a difference in rotational speed.

According to an aspect of the invention, there is provided a gearbox housing comprising: a gearbox housing; A first planetary gear provided in the gearbox housing and rotated at a first rotation speed through an input shaft receiving a rotational force transmitted from an engine mounted in front of the gearbox housing; A second planetary gear disposed and rotated at a relatively higher speed and a higher temperature condition than the first planetary gear; A transmission gear unit disposed adjacent to the planetary gear unit and rotated at a higher speed and a higher temperature condition than the first and second planetary gears at a higher speed; A supply unit including a pump unit independently provided for independently supplying oil having different viscosities to the first planetary gear, the second planetary gear, and the transmission gear unit; And a partition for dividing the planetary gear unit and the transmission gear unit into independent regions, wherein the partition separates the first planetary gear and the second planetary gear into independent regions and has a different viscosity Wherein the first and second planetary gears and the transmission gear unit are separately formed so that the oil supplied to the first and second planetary gears and the transmission gear unit is independently recirculated, An oil storage tank provided with an inspection window so that the operator can visually recognize the state of the oil recovered; And supplying the oil of different viscosities, which are respectively supplied to the first and second planetary gears and the transmission gear unit, to the rotation speed of the planetary gear unit and the transmission gear unit and the pump unit at different pumping periods and speeds, .
The partition wall includes a sealing member inserted for sealing against the partition wall in a state of being closely contacted with a rotation axis extending for transmission of rotational force from the planetary gear unit to the transmission gear unit.

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The control unit receives the speed data of the first to Nth planetary gears and the transmission gear unit from the speed sensing module, receives the temperature change state according to the operation of the first to Nth planetary gears and the transmission gear unit from the temperature sensing module, And controls an RPM per minute of the pump unit.

The gearbox unit is characterized by being mounted on a wind turbine generator.

The gearbox unit is characterized by being mounted on the vehicle.

Embodiments of the present invention can control the supply of oil having different viscosities so that the gear box unit that transmits the rotational force to the generator of the wind turbine can be operated in an optimum state, thereby enabling the production of electric power.

The embodiments of the present invention can control the rotation loss to be minimized through optimum lubrication in accordance with various rotational speeds and temperature conditions of the planetary gears and independently supply the oils having different viscosities toward the individual planetary gears Lubrication.

1 is a longitudinal sectional view showing a gear box unit according to an embodiment of the present invention;
2 to 3 are longitudinal sectional views showing a gear box unit according to another embodiment of the present invention.
FIG. 4 is a block diagram illustrating a controller and a peripheral configuration associated with the controller according to an embodiment of the present invention; FIG.
5 is an operational state view of a gearbox unit according to an embodiment of the present invention;

A configuration of a gear box unit according to an embodiment of the present invention will be described with reference to the drawings.

1, the gearbox unit 1 includes a gearbox housing 100 and a supply unit 200. [

The planetary gear unit 102 and the transmission gear unit 104 are mounted inside the gearbox housing 100 and are rotated at a specific gear ratio by a rotational force transmitted from the outside. The generated rotational force is transmitted to the generator (not shown) to produce electric power.

In the gearbox housing 100, a plurality of the planetary gear units 102 mounted therein are rotated at different speeds, and the transmission gear unit 104 is positioned on the right side with respect to the drawing. The planetary gear unit 102 is made up of the first to Nth planetary gears, and the number of the planetary gear unit 102 can be increased or decreased depending on the object on which the gear box unit 1 is mounted. However, The unit 102 is limited to the first to second planetary gears.

The first planetary gear 102a receives a rotational force transmitted from a rotating object (not shown) or an engine (not shown) mounted in front of the gearbox housing 100 and is rotated at a first rotational speed, The operating temperature is maintained at 50 to 60 degrees Celsius.

For example, the first planetary gear 102a receives a rotational speed of 10 rpm through an input shaft (not shown) and is switched to a rotational speed of 50 rpm via a ring gear and a carrier disposed in the first planetary gear 102a.

The second planetary gear 102b is rotated on the right side of the first planetary gear 102a by receiving the rotational speed of an output shaft (not shown) rotated in the state of 50 rpm in the first planetary gear 102a , The operating temperature according to rotation is operated at a condition of 50 to 60 degrees, which is relatively higher than the operating temperature of the first planetary gear 102a, and the rotational speed is rotated at 250 rpm.

In the second planetary gear 102b, oil for lubrication is injected at a coupling portion where the carrier, the ring gear, and the sun gear are engaged with each other like the first planetary gear 102a, and the lubricant is lubricated in the carrier, the ring gear, And oil is supplied.

The transmission gear unit 104 receives rotation speed of an output shaft (not shown) which is located on the right side with respect to the second planetary gear 102b and is rotated in the state of 250 rpm in the second planetary gear 102b, The operating temperature according to the rotation is operated at a temperature condition of 70 to 80 degrees which is relatively higher than the operating temperature of the second planetary gear 102b and the rotation speed is rotated at 1250 rpm so that the rotation of the second planetary gear 102b And is rotated at a relatively high speed relative to the speed.

The transmission gear unit 104 is disposed so as to be separately lubricated via the above-described planetary gear unit 102 and the partition 110 to transmit rotational force to a generator (not shown) in the case of a wind power generator (not shown) .

Since the transmission gear unit 104 is rotated at a high temperature for a long period of time at a high speed, deterioration and carbonization of the oil may occur due to long-term operation, so that the viscosity of the oil supplied to the transmission gear unit 104 is very important .

Since the rotational speed and operating temperature of the planetary gear unit 102 and the transmission gear unit 104 are completely different from each other, they are individually lubricated so as to individually maintain the optimum oil viscosity according to the rotational speed and the operating temperature as in the present embodiment The efficiency is improved by optimum lubrication according to the respective rotational speed and operating temperature.

The present invention is advantageous in that the transmission gear unit 104 is provided independently of the oil supplied to the planetary gear unit 102 for the purpose of stable operation of the transmission gear unit 104 operated at high temperature and high speed, So that stable operation can be achieved.

Even when the gear box housing 100 is partitioned into N spaces through the partition wall 110 and the planetary gear unit 102 and the transmission gear unit 104 are operated at different temperature conditions and rotational speeds An optimum operating state can be maintained.

The partition wall 110 divides the gearbox housing 100 into independent regions so as to prevent the mixing of the viscous oil with each other after the oil is supplied to the planetary gear unit 102 and the transmission gear unit 104.

For example, the planetary gear unit 102 is maintained at a low operating temperature and a relatively low rotational speed relative to the transmission gear unit 104, so that the oil having such characteristics is supplied.

The transmission gear unit 104 is supplied with oil having a relatively lower viscosity than the oil supplied to the gear box unit 1 so that the transmission gear unit 104 can be operated optimally under the conditions of high temperature and high rotation speeds, And operation is performed in an optimum state according to the rotation speed.

Therefore, it is possible to maintain an optimal operating condition according to different temperature conditions and rotational speeds, thereby improving the operating efficiency of the object equipped with the gear box unit 1 and preventing oil contamination, thereby preventing contamination due to long-term use.

Referring to FIG. 2, a plurality of partitions 110 are disposed in the gearbox housing 100 or in accordance with the number of the planetary gear units 102. In the present invention, the first to Nth planetary gears The auxiliary partition wall 112 is disposed so that the plurality of planetary gears are separated from each other as independent regions and oil having different viscosities is supplied without being mixed in the gearbox housing 100. The auxiliary partition wall 112 is mounted to the gearbox housing 100 like the partition 110 to prevent mixing of oil.

The partition 110 and the auxiliary partition 112 are both disposed in the longitudinal direction of the inside of the gear box housing 100 and have holes (not shown) penetrating the input shaft or the output shaft through which rotational force is transmitted, A sealing member 113 for sealing is inserted into the hole.

The sealing member 113 may be formed of rubber, or may have a shape in which rubber is inserted into a body made of metal. For example, when the rubber member is made of rubber, It is also possible to have a configuration in which a plurality of ring-shaped protrusions are formed.

The gearbox housing 100 may be configured such that the partition 110 is disposed therein as described above, or it may be difficult to integrally form the gearbox housing 100 in the gearbox housing 100 when the partition is at least three or more. It is also possible to manufacture a plurality of individual unit-unit gearbox housings with a unit-unit gearbox housing including the plurality of unit-unit gearbox housings 110, and then assembly them in close contact with each other.

In this case, the holes into which the output shaft is inserted are all arranged in an opened state at the same position, and each unit unit gearbox housing is assembled into one gearbox housing in close contact with each other.

The gearbox unit 1 is provided with an oil storage tank 2 in which oil supplied to the gearbox housing 100 is independently returned. The oil storage tank 2 is separately mounted for re-supply after the oil dropped in the internal space of the gearbox housing 100 partitioned by the partition walls to prevent the oils having different viscosities from being mixed, The optimum lubrication can be performed according to the operating temperature and the rotational speed of the engine.

The oil storage tank 2 is detachably mounted on the lower side of the gear box housing 100 and can be easily replaced when it needs to be removed or replaced. A transparent inspection window 2a is provided so that the oil stored therein can be visually checked So that the user can visually check the current state of the oil.

For example, the oil stored in the oil storage tank 2 is periodically replaced in order to stably operate the operation of the planetary gear unit 102 and the transmission gear unit 104. In this case, In some cases, if the oil is contaminated within a predetermined replacement period, the internal state of the oil storage tank (2) can be inspected through the inspection window (2a) before the oil is contaminated.

Therefore, it is possible to prevent the oil having different viscosities partitioned by the partition wall 110 from being mixed and to change the oil under the optimum condition, thereby preventing the operation stop due to the failure and the breakage of the components.

3, the oil storage tank 2 according to another embodiment of the present invention is different from the above-described embodiment in that the inside thereof is partitioned by the oil partition plate 20 and is supplied individually to the gearbox housing 100 And the supplied oil is independently stored.

The oil storage tank 2 is formed as a single storage tank, but the inside thereof is partitioned into a plurality of individual storage spaces by the oil partition plate 20, and oils having different viscosities are individually stored.

The oil dividing plate 20 divides the inside of the oil storage tank 2 in the vertical direction so as not to mix oil of different viscosities. The oil dividing plate 20 can be freely changed without being limited to a specific shape.

The supply unit 200 is provided for independently supplying oil having different viscosities to the planetary gear unit 102 and the transmission gear unit 104 into the gearbox housing 100 partitioned by the partition wall 110 . The supply unit 200 includes a connection pipe 3a connected to an oil supply position of the gearbox housing 100 whose one end is connected to the oil storage tank 2 and the other end is partitioned by the partition 110 Respectively.

The connection pipe 3a is independently provided with a pump unit 3 for independently supplying oil to the gearbox housing 100 and the operating state and the number of revolutions per minute are selectively controlled by a control unit 300 to be described later.

When the oil amount is relatively large, the pump unit 3 is provided with a plurality of pumps or a pump unit having a relatively increased pumping capacity, so that stable pumping can be performed. Therefore, regardless of the oil amount, a large amount of oil can be supplied to the gearbox housing 100 to lubricate the planetary gear unit 102 and the transmission gear unit 104 rotated at a high speed.

1 and 4, the gear box unit 1 according to the present embodiment includes oil of different viscosities supplied to the partitioned inner regions of the gear box housing 100, And a control unit 300 for supplying the rotation speeds of the transfer gear unit 104 and the transfer gear unit 104 at different cycles and speeds depending on the rotational speed and temperature of the transfer gear unit 104.

The control unit 300 receives the speed data of the first to Nth planetary gears and the transmission gear unit 104 from the speed sensing module 4 and receives the speed data of the first to Nth planetary gears and the transmission gear unit 104 from the temperature sensing module 5. [ And controls the cycle and speed of the oil supplied to the gear box unit 1 by controlling the temperature of the pump unit 3 per minute of the pump unit 3 based on the temperature change state according to the operation of the unit 104. [

For reference, the speed sensing module 4 uses a sensor capable of detecting the speed of the object to be rotated.

For example, since the first planetary gear 102a and the second planetary gear 102b operate at different rotational speeds and temperature conditions, the oil is supplied at the same cycle and speed, and more preferably, The oil is supplied at different cycles and speeds, so that more stable lubrication can be achieved.

For example, the control unit 300 receives data corresponding to a temperature condition according to the viscosity of oil supplied to the first planetary gear 102a, and receives data corresponding to the temperature of the pump unit 3, The rotational speed and the pumping period are previously input in the form of a logic program to control the oil cycle and speed supplied to the first planetary gear 102a.

When the object on which the gear box unit 1 is mounted is a wind turbine generator, the speed at which the rotor of the wind turbine is rotated is input in advance and the planetary gear unit 102 of the gear box unit 1 and the transmission gear unit 104 ) Control the cycle and speed of the oil to be fed differently.

Therefore, the controller 300 controls the oil to be supplied to the gearbox housing 100 independently of each other without mixing the oils with each other, thereby improving the operating efficiency and preventing the operation stop due to the failure and the occurrence of the error in advance The ability to respond early to emergency situations improves.

The gear box unit according to the present embodiment can be installed in a vehicle or a transportation means in which transportation is carried out. In this case, it is possible to improve the operating efficiency and durability of the planetary gear unit through individual lubrication, .

The use state of the gear box unit according to one embodiment of the present invention will be described with reference to the drawings.

Referring to the accompanying Figure 5, the rotational force transmitted through the input shaft (not shown) is transmitted to the first planetary gear (102a) of after the carrier and the ring gear and the second planetary gear (102b) via a concentrator air delivered to .

At the same time, the oil stored in the oil storage tank 2 is injected to the coupling portion of the ring gear meshed with the carrier and the carrier meshed with the sun gear, along the oil passage formed in the first planetary gear 102a via the connecting pipe 3a .

The second planetary gear 102b is rotated at a predetermined speed by the rotational force transmitted through the first planetary gear 102a. The second planetary gear 102b is rotated at a relatively high operating temperature and rotational speed relative to the first planetary gear 102a The oil having a relatively lower viscosity than the oil supplied to the first planetary gear 102a is separately supplied through the control unit 300. [

The control unit 300 receives the speed data of the first planetary gear 102a and the second planetary gear 102b through the speed sensing module 4 and outputs the temperature change status data through the temperature sensing module 5 And performs the injection cycle and speed control of the oil supplied to the first planetary gear 102a and the second planetary gear 102b.

Also, the control unit 300 controls the cycle and speed of the oil supplied to the transmission gear unit 104 to be different from that of the first and second planetary gears so that the transmission gear unit 104 is operated in an optimal state.

Therefore, even when the gear box unit 1 is operated for a long period of time, deterioration of the oil can be prevented and the oil can be stably operated.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit of the invention as set forth in the appended claims. The present invention can be variously modified and changed by those skilled in the art, and it is also within the scope of the present invention.

2, 2a: Oil storage tank
20: Oil partition plate
3: Pump unit
4: Speed sensing module
5: Temperature sensing module
3a: Connector
100: Gear box housing
102: planetary gear unit
104: transmission gear unit
110:
112: auxiliary barrier rib
113: Sealing member
200: supply unit
300: control unit

Claims (10)

Gearbox housing;
A first planetary gear provided in the gearbox housing and rotated at a first rotation speed through an input shaft receiving a rotational force transmitted from an engine mounted in front of the gearbox housing; A second planetary gear disposed and rotated at a relatively higher speed and a higher temperature condition than the first planetary gear;
A transmission gear unit disposed adjacent to the planetary gear unit and rotated at a higher speed and a higher temperature condition than the first and second planetary gears at a higher speed;
A supply unit including a pump unit independently provided for independently supplying oil having different viscosities to the first planetary gear, the second planetary gear, and the transmission gear unit;
And a partition for partitioning the planetary gear unit and the transmission gear unit into independent regions,
Wherein,
And an auxiliary partition wall which divides the first planetary gear and the second planetary gear into independent regions so that oil having different viscosities is supplied without being mixed in the gear box housing,
An oil storage tank provided with a check window so that a storage space is individually formed so that the oil supplied to the first and second planetary gears and the transmission gear unit can be independently recirculated and the operator can visually recognize the state of the oil recovered, ; And
Wherein the first and second planetary gears and the transmission gear unit are respectively supplied with oil of different viscosities at different pumping cycles and speeds in accordance with the rotational speed and temperature of the planetary gear unit and the transmission gear unit A gearbox unit comprising a control part. delete The method according to claim 1,
Wherein,
And a sealing member inserted for sealing against the partition wall in a state of being in tight contact with a rotation axis extending from the planetary gear unit for transmitting rotational force to the transmission gear unit. delete delete delete delete The method according to claim 1,
Wherein,
Receives the speed data of the first to Nth planetary gears and the transmission gear unit from the speed sensing module,
The temperature sensing module receives the temperature change data according to the operation of the first to Nth planetary gears and the transmission gear unit,
Wherein the control unit controls the RPM per minute of the pump unit. The method according to claim 1,
The gear box unit includes:
Wherein the gear box unit is installed in a wind power generator. The method according to claim 1,
The gearbox unit comprises:
Wherein the gear box unit is mounted on a vehicle.

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