KR101058874B1 - Generator - Google Patents

Abstract

The present invention discloses a power generation apparatus configured to operate a hydraulic pump through power supplied from an engine or an electric motor, the hydraulic pump operates the hydraulic motor, and the power of the hydraulic motor is transmitted to the generator to operate the generator. The generator according to the present invention operates the hydraulic pump and the hydraulic motor through the power supplied from the engine or the electric motor and operates the generator by using the power of the hydraulic motor having a good power, the generator operation is easy to operate.

Engine, Electric Motor, Hydraulic Pump, Hydraulic Motor, Generator

Description

Generator {Generator}

The present invention relates to a power generation apparatus, and more particularly, to operate a hydraulic motor with power generated from an engine or an electric motor, and to operate the generator using a high-pressure hydraulic motor to easily operate the generator. It relates to a power plant.

In general, the generator is operated by the power supplied from the engine using the fossil fuel to obtain electrical energy or by the power supplied from the electric motor to obtain electrical energy.

However, in the case of a generator using an engine, the fossil fuel must be consumed continuously in order to generate continuous power, so that the power generation is not only costly but also has a very low energy efficiency. In addition, in the case of a generator to which the power supplied from the electric motor is applied, the expensive electric motor requires a large amount of equipment cost, and the energy efficiency is also very low. In addition, there was a disadvantage that the engine or the electric motor can not be selectively used depending on the surrounding environment or situation.

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The present invention has been proposed to improve the above problems, the object of which is to apply the engine and the electric motor together to selectively use, to operate the hydraulic motor through the power supplied from the engine or the electric motor and a good hydraulic pressure It is to provide a power generator that allows the generator to be operated by the power of the motor so that the generator can be easily operated.

The above object is a base; An engine installed at a portion on the base; An electric motor installed at a portion of the base; A hydraulic pump operated by receiving power supplied from the engine or the electric motor; An oil tank installed at a portion on the base and connected to the hydraulic pump through a tank connection hydraulic hose; A hydraulic motor connected to the hydraulic pump and a motor connection hydraulic hose to be operated by a hydraulic pump to output power; And a generator which is operated by receiving power of the hydraulic motor, wherein the hydraulic pump is connected to an engine shaft and installed to be operated by receiving rotational force of the engine shaft. The hydraulic motor is divided into a left hydraulic motor and a right hydraulic motor. The left hydraulic motor is connected to the left driving sprocket on the hydraulic motor shaft and the left driving sprocket is connected to the left driven sprocket through the left chain to transfer power, and the right hydraulic motor has the right driving sprocket on the hydraulic motor shaft. Connected to the right driven sprocket through the right chain and configured to transmit power, and the left and right driven sprockets are connected to each other by a first connecting shaft and configured to rotate together, and one end of the first connecting shaft. Left first drive pulley is coupled to the left first drive pulley through the left first belt The first driving pulley is coupled to the other end of the first connecting shaft, and the right first driving pulley is connected to the right first driving pulley through the right first belt to supply power. And a second drive pulley is connected to the motor shaft of the electric motor, and the second drive pulley is connected to the second driven pulley through a second belt to transmit power, and the second driven pulley is connected to the second connection. And a driven pulley coupled to the right first driven pulley through a shaft, the first transfer pulley coupled to the second connecting shaft, and the first transfer pulley coupled to the generator shaft of the generator through a third belt. Is connected and configured to transmit power, one end of the third connecting shaft is coupled to the left first driven pulley, the second transfer pulley is coupled to the other end of the third connecting shaft, the second transfer pulley through the fourth belt It is associated with a third transfer pulley coupled to jinchuk is achieved by the power generator, characterized in that is configured to transmit the power for rotating the engine shaft.

Since the power generation apparatus according to the present invention is configured to use the engine or the electric motor in parallel as a power supply means, the engine or the electric motor can be selectively used according to the surrounding environment or the situation, and is supplied from the engine or the electric motor. The generator operation is easy because the hydraulic motor is operated by the power and the generator is operated by the powerful hydraulic motor.

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Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. 1 is a plan view showing a power generation device according to the present invention, Figure 2 is a front perspective view showing a power generation device according to the present invention, Figure 3 is a rear perspective view showing a power generation device according to the present invention.

1 to 3, the power generation apparatus according to the present invention includes a base 10 configured to be movable by mounting wheels 12 on both sides. And on the base 10 is installed an engine 20 to operate by burning fuel in the front portion, the electric motor 30 to operate when the power is supplied to the rear portion is installed, the generator (next to the electric motor 30) 40) is installed. Then, the hydraulic motors 60 and 70 are operated by the power supplied from the engine 20 or the electric motor 30, and the generator 40 is operated through the hydraulic motors 60 and 70 having good power. Configured to occur.

That is, the hydraulic pump 50 is installed on the engine shaft 22 of the engine 20 and is configured to be operated by receiving the rotational force of the engine shaft 22. Here, the engine shaft 22 is configured to rotate by receiving power supplied from the engine 20 or rotated by receiving power supplied from the electric motor 30 to be described later. In addition, the oil tank 51 installed at a portion on the base 10 is connected to the hydraulic pump 50 through the tank connection hydraulic hose 52, and the hydraulic motors 60 and 70 are connected to the motor hydraulic hose 53. Connected via is installed. Therefore, the hydraulic motors 60 and 70 are operated by the hydraulic pressure supplied when the hydraulic pump 50 is pumped, and the generator 40 is operated by the force output from the hydraulic motors 60 and 70. Let's go.

The hydraulic motors 60 and 70 are divided into a left hydraulic motor 60 and a right hydraulic motor 70 and configured to operate together. And the left drive sprocket 61 is connected to the hydraulic motor shaft 60a to the left hydraulic motor 60, and the left drive sprocket 61 is connected to the left driven sprocket 63 through the left chain 62 to transmit power. It is configured. The right drive sprocket 71 is connected to the right hydraulic motor 70 at the hydraulic motor shaft 70a, and the right drive sprocket 71 is connected to the right driven sprocket 73 through the right chain 72 to transmit power. Is configured. And the left and right driven sprockets (63) (73) are connected to each other by the first connecting shaft (S1) is configured to rotate together. At this time, the hydraulic motor, the sprocket structure and the first connecting shaft is configured to be installed and supported on the support 14 installed on the base 10. Next, the left first driving pulley 64 is coupled to one end of the first connecting shaft S1, and the left first driving pulley 64 is connected to the left first driven pulley 66 through the left first belt 65. The first driving pulley 74 is coupled to the other end of the first connecting shaft S1, and the right first driving pulley 74 connects the right first belt 75. It is connected to the right first driven pulley 76 and configured to transmit power. The second drive pulley 90 is connected to the motor shaft 32 of the electric motor 30, and the second drive pulley 90 is connected to the second driven pulley 92 through the second belt 91 to drive the power. It is configured to transmit, the second driven pulley 92 is connected to the right first driven pulley 76 through the second connecting shaft (S2) is configured to rotate together. The first transfer pulley 80 is coupled to the second connection shaft S2, and the first transfer pulley 80 is driven to the generator shaft 42 of the generator 40 through a third belt 81. It is connected to the pulley 82 and configured to transmit power. One end of the third connection shaft S3 is coupled to the left first driven pulley 66, and the second transmission pulley 93 is coupled to the other end of the third connection shaft S3, and the second transmission pulley 93 is connected thereto. Is connected to the third transfer pulley (95) coupled to the engine shaft (22) via a fourth belt 94 is configured to transmit power for rotating the engine shaft (22).

The generator according to the present invention configured as described above operates the hydraulic motors 60 and 70 through the power of the engine 20 or the electric motor 30 and generates a generator through the hydraulic motors 60 and 70 with good power. 40) to power up. In this case, whether to supply energy by using the engine 20 or the electric motor 30 may be selectively determined according to the surrounding environment or situation.

In more detail, the power transmission structure, when operating the generator 40 by the force supplied from the engine 20, the engine shaft 22 connected to the engine 20 is rotated to operate the hydraulic pump 50, the hydraulic pressure The pump 50 operates the left and right hydraulic motors 60 and 70 together. The power of the left and right hydraulic motors 60 and 70 is transmitted to the left and right driven sprockets 63 and 73 through the left and right drive sprockets 61 and 71, respectively, and the left and right driven sprockets 63 73) to rotate the first connecting shaft (S1) connecting. Then, power is transmitted to the right first driven pulley 76 through the right first driving pulley 74 coupled to the first connecting shaft S1, and the second connecting shaft coupled to the right first driven pulley 76. As S2 rotates, the first transfer pulley 80 coupled to the second connection shaft S2 rotates together. Then, the rotational force of the first transfer pulley 80 is transmitted to the driven pulley 82 through the third belt 81, and the generator pulley 82 rotates by rotating the generator shaft 42 coupled to the generator ( 40) will be activated.

Next, when operating the generator 40 by the force supplied from the electric motor 30, the power of the electric motor 30 is transmitted to the second drive pulley 90 through the motor shaft 32, the second drive pulley Rotate 90, the power of the second drive pulley 90 is transmitted to the second driven pulley 92 through the second belt 91, the second connection is coupled to the second driven pulley 92 The shaft S2 is rotated. Then, while the right first driven pulley 76 coupled to the second connecting shaft S2 is rotated, the right first driving pulley 74 is rotated to rotate the first connecting shaft S1. Then, while the left first driving pulley 64 coupled to the first connecting shaft S1 is rotated, power is transmitted through the left first belt 65 to rotate the left first driven pulley 66 and the left first driving pulley 66 is rotated. The third connecting shaft S3 to which the first driven pulley 66 is coupled is rotated together. Then, the second transfer pulley 93 coupled to the third connecting shaft S3 rotates, and the rotational force of the second transfer pulley 93 is transmitted to the third transfer pulley 95 through the fourth belt 94. Then, the third transmission pulley 95 is to rotate the engine shaft 22 is coupled. Then, in the same way as the engine power transmission structure described above, the power of the engine shaft 22 is again supplied to the hydraulic pump 50, the left and right hydraulic motors 60 and 70, the first connecting shaft S1, and the second connecting shaft ( S2) is delivered to the first transfer pulley 80 and the driven pulley 82 to operate the generator 40.

As described above, the present invention transmits the power supplied from the engine 20 or the electric motor 30 to the hydraulic pump 50 and the hydraulic motors 60 and 70, and in the hydraulic motors 60 and 70 with good power. Since the generator 40 is driven, the generator 40 can be easily operated to produce electric power.

Although the invention has been shown and described in connection with specific embodiments as described above, those skilled in the art that various modifications and changes can be made without departing from the spirit and scope of the invention as indicated by the claims. Anyone can grow up easily.

1 is a plan view showing a power generation device according to the present invention,

2 is a front perspective view showing a power generation device according to the present invention,

Figure 3 is a rear perspective view showing a power generation device according to the present invention.

◎ Explanation of symbols for main part of drawing

10: base 20: engine

30: electric motor 40: generator

50: hydraulic pump 60: left hydraulic motor

70: right hydraulic motor S1: first connecting shaft

S2: second connecting shaft S3: third connecting shaft

Claims (3)

Base; An engine installed at a portion on the base; An electric motor installed at a portion of the base; A hydraulic pump operated by receiving power supplied from the engine or the electric motor; An oil tank installed at a portion on the base and connected to the hydraulic pump through a tank connection hydraulic hose; A hydraulic motor connected to the hydraulic pump and a motor connection hydraulic hose to be operated by a hydraulic pump to output power; And It includes a generator that is operated by receiving the power of the hydraulic motor, The hydraulic pump is connected to the engine shaft is installed to operate by receiving the rotational force of the engine shaft, The hydraulic motor is divided into a left hydraulic motor and a right hydraulic motor, The left hydraulic motor is connected to the left drive sprocket to the hydraulic motor shaft and the left drive sprocket is connected to the left driven sprocket through the left chain and is configured to transmit power. The right hydraulic motor is connected to the right drive sprocket to the hydraulic motor shaft and the right drive sprocket is connected to the right driven sprocket through the right chain, and is configured to transmit power. The left and right driven sprockets are connected to each other by a first connecting shaft and are configured to rotate together, One end of the first connecting shaft is coupled to the left first driving pulley and the left first driving pulley is connected to the left first driven pulley through the left first belt, and is configured to transmit power. The other end of the first connecting shaft is coupled to the right first drive pulley and the right first drive pulley is connected to the right first driven pulley through the right first belt is configured to transmit power, A second drive pulley is connected to the motor shaft of the electric motor and the second drive pulley is configured to be connected to the second driven pulley through a second belt to transmit power. The second driven pulley is connected to the right first driven pulley via a second connecting shaft and configured to rotate together; The first transfer pulley is coupled to the second connection shaft and the first transfer pulley is configured to transfer power by being connected to a driven pulley coupled to the generator shaft of the generator through a third belt, One end of a third connection shaft is coupled to the left first driven pulley, and a second transmission pulley is coupled to the other end of the third connection shaft, and the second transmission pulley is coupled to the engine shaft through a fourth belt. Generating device, characterized in that configured to transmit the power to rotate the engine shaft. delete delete

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