KR102600739B1 - The Interior Layout Structure of the Hydrogen Combine Harvester Platform - Google Patents

Abstract

The present invention is intended to efficiently transmit and use power by installing motors for each harvesting unit, transfer unit, and traveling unit in the internal space of the combine. Power is transmitted independently by installing each motor, and each motor is used as an example. It relates to the internal arrangement structure of a hydrogen combine platform that is intended to increase the efficiency of power transmission by placing it between the installation, transfer, and running parts and the fuel cell. A harvesting part (1) is installed in the front and a running part is installed in the lower rear part. In the main body arrangement structure of the hydrogen combine platform with (2) installed and the main body 100 installed at the rear upper part, the main body 100 includes a hydrogen fuel cell power pack 110 consisting of a stack, a battery, and a cooler, A hydrogen tank 120 that supplies fuel to the hydrogen fuel cell power pack 100, a motor unit 130 driven by electrical energy supplied from the battery of the hydrogen fuel cell power pack 120, and the motor unit 130. ), a transport unit (not shown) driven by a grain tank 140 installed on the side of the hydrogen fuel cell power pack 110 and the hydrogen tank 120, the motor unit 130 and the hydrogen fuel cell power pack (110) It relates to a main body arrangement structure of a hydrogen combine platform, characterized in that it consists of a hydraulic device installed between.

Description

The interior layout structure of the Hydrogen Combine Harvester Platform}

The present invention is intended to efficiently transmit and use power by installing motors for each harvesting unit, transfer unit, and traveling unit in the internal space of the combine. Power is transmitted independently by installing each motor, and each motor is used as an example. This relates to the internal arrangement structure of a hydrogen combine platform that is intended to increase the efficiency of power transmission by placing it between the installation, transfer section, running section, and fuel cell.

As a prior art regarding vehicles such as agricultural machinery using hydrogen fuel cells, Registered Patent Publication No. 10-2353924 (registered on January 17, 2022) includes a hydrogen fuel cell system, hydrogen tank, battery, motor controller, and integrated controller. , Technology for a hydrogen fuel cell tractor is disclosed that organically combines the drive motor, PTO motor, and work machine motor to enable stable overall system operation.

In addition, in Registered Patent Publication No. 10-2305927 (registered on September 17, 2021), in response to the phenomenon of tilting the center of gravity when using a work tool in a crawler type tractor, there is a device for driving a hydrogen fuel cell. A technology related to a hydrogen fuel cell platform for a tractor is disclosed, which aims to prevent the tractor from leaning by changing the position of the hydrogen tank.

In addition, in Registered Patent Publication No. 10-2336150 (registered on December 2, 2021), a hydrogen tank, battery, hydrogen fuel cell, motor, reducer, etc. are organically combined to provide front, rear, left, right, and rollover. Technology has been disclosed regarding a hydrogen fuel cell platform for a four-wheel drive tractor that minimizes risks and enables overall stable system operation.

In addition, in Registered Patent Publication No. 10-2336152 (registered on December 2, 2021), a hydrogen power generation unit is installed on the upper side of the running part of the combine, and the fuel cell, hydrogen tank, and battery pack are accommodated in the hydrogen power generation unit. A cabin, a threshing unit, a storage unit, and a motor are installed on the upper side of the hydrogen power generation unit, and the transmission is installed on the lower side of the hydrogen power generation unit. On a combine platform using a hydrogen fuel cell as a power source, Related technology has been disclosed.

Patent Document 1: Registered Patent Publication No. 10-2353924 (registered on January 17, 2022) Patent Document 2: Registered Patent Publication No. 10-2305927 (registered on September 17, 2021) Patent Document 3: Registered Patent Publication No. 10-2336150 (registered on December 2, 2021) Patent Document 4: Registered Patent Publication No. 10-2336152 (registered on December 2, 2021)

It was common for agricultural machinery, including combines, to use internal combustion engines, but recently, due to greenhouse gas issues, there is a trend toward eco-friendly engines using hydrogen fuel and battery fuel.

When using hydrogen fuel cells in agricultural machinery such as combines, unlike when using internal combustion engines, it is necessary to update the structure and arrangement of parts to efficiently utilize the internal space of the machine.

The purpose of the present invention is to optimally install parts arranged in the internal space without changing the external shape of the existing combine structure.

The purpose of the present invention is to secure the stability of the combine by lowering the center of gravity by installing the hydrogen tank power pack and the hydrogen tank at the lower part of the main body, that is, by placing relatively heavy parts at the lower part of the main body.

The purpose of the present invention is to install the hydrogen tank power pack at the bottom of the main body to facilitate charging, and to prevent accidents such as short circuits by placing it far away from the power source.

The purpose of the present invention is to separately install motors that drive the reaping unit, the traveling unit, and the transport unit, so that power can be transmitted independently.

The purpose of the present invention is to efficiently transmit power by arranging each motor between the reaping unit, the traveling unit, the transport unit, and the fuel cell.

The purpose of the present invention is to lower the center of gravity and efficiently transmit power generated from the hydrogen fuel cell power pack to the motor by installing the hydrogen fuel cell power pack at the bottom between the hydrogen tank and the motor.

The present invention seeks to solve the above problems, [1] a hydrogen tank in which a harvesting unit (1) is installed in the front, a running unit (2) is installed in the rear lower part, and the main body 100 is installed in the rear upper part. In the main body arrangement structure of the combine platform, the main body 100 includes a hydrogen fuel cell power pack 110 consisting of a stack, a battery, and a cooler, and a hydrogen tank 120 that supplies fuel to the hydrogen fuel cell power pack 110. and a motor unit 130 driven by electrical energy supplied from the battery of the hydrogen fuel cell power pack 110, a transfer unit (not shown) driven by the motor unit 130, and the hydrogen fuel cell power pack. (110) and a grain tank 140 installed on the side of the hydrogen tank 120, and a hydraulic device installed between the motor unit 130 and the hydrogen fuel cell power pack 110. This relates to the main body arrangement structure of the combine platform.

In addition, the present invention [2] In [1] above, the motor unit 130 is composed of first to third motors 131, 132, and 133, and the first motor 131 is the motor unit 130. The harvesting unit 1 is driven, the second motor 132 drives the transfer unit (not shown), and the third motor 133 drives the traveling unit 2. This relates to the main body arrangement structure of the combine platform.

In addition, the present invention, [3] In [1] above, the hydraulic device includes a harvesting unit lifting control unit (not shown) that raises and lowers the harvesting unit 1 by the hydraulic pump 150, and a running unit ( 2) It relates to the main body arrangement structure of the hydrogen combine platform, characterized in that it consists of a driving part elevation control unit (not shown) that raises and lowers the unit to the left, right, front and rear.

In addition, the present invention [4] In [1] above, the transport unit (not shown) simultaneously transports and threshes the grain, and transfers the threshed grains to the grain tank 140, and during the threshing process It relates to the main body arrangement structure of the hydrogen combine platform, which is characterized in that the remaining ears and straw are transported to the straw processing unit 141 for storing.

The present invention consists of the above-mentioned structure, and the parts arranged in the main body are installed in an optimal state without changing the external appearance of the existing combine structure.

The present invention can secure the stability of the combine by lowering the center of gravity by installing the hydrogen tank and the hydrogen fuel cell power pack at the lower part of the main body, that is, by placing relatively heavy parts at the lower part of the main body.

In the present invention, the hydrogen tank can be installed at the bottom of the main body to facilitate charging, and it can also be placed far away from the power source to prevent accidents such as short circuits.

In the present invention, motors that drive the reaping unit, the traveling unit, and the transport unit are installed separately, and power can be transmitted independently.

The present invention can efficiently transmit power by arranging each motor between the reaping unit, the traveling unit, the transport unit, and the hydrogen fuel cell power pack.

In the present invention, by installing the hydrogen fuel cell power pack at the bottom between the hydrogen tank and the motor, the center of gravity can be lowered and the power generated from the fuel cell can be efficiently transmitted to the motor.

1 is a side conceptual diagram of the present invention
Figure 2 is a square perspective view of the main body of the present invention
Figure 3 is a rear perspective view of the main body of the present invention

The present invention relates to a main body arrangement structure of a hydrogen combine platform in which a harvesting unit (1) is installed in the front, a traveling unit (2) is installed in the rear lower part, and a main body 100 is installed in the rear upper part, wherein the main body ( 100) is a hydrogen fuel cell power pack 110 consisting of a stack, a battery, and a cooler, a hydrogen tank 120 that supplies fuel to the hydrogen fuel cell power pack 100, and a battery of the hydrogen fuel cell power pack 120. A motor unit 130 driven by supplied electrical energy, a transfer unit (not shown) driven by the motor unit 130, the hydrogen fuel cell power pack 110, and the hydrogen tank 120 are installed on the side. It consists of a grain tank 140 installed, and a hydraulic device 150 installed between the motor unit 130 and the hydrogen fuel cell power pack 110.

The harvesting unit 1, the traveling unit 2, and the transport unit (not shown) of the present invention are not substantially different from the combines of the prior art in their function and shape.

In addition, the transport unit (not shown) of the present invention is configured to transport the grain harvested in the reaping unit 1, and is installed at the rear of the reaping unit 1 and on top of the main body 100. The transport unit (not shown) transports grains such as rice and straw harvested in the reaping unit 1, and is preferably controlled so that threshing can occur simultaneously with transport. Additionally, the transfer unit (not shown) is driven by the second motor 132 described below.

The present invention is characterized by arranging the components of the main body 100, and each configuration will be described in detail below while looking at the drawings.

As shown in FIG. 3, the hydrogen fuel cell power pack 110 of the present invention includes a stack that converts hydrogen provided from a hydrogen tank 120 installed on the side into electrical energy, and the electricity converted in the stack It includes a battery that stores energy, and includes a cooler that can control the internal temperature of the hydrogen fuel cell power pack 110 raised by the stack.

In addition, the hydrogen fuel cell power pack 110 is installed on the rear upper side of the traveling unit 2, as shown in FIGS. 2 and 3.

As described above, by installing the hydrogen fuel cell power pack 110 on the rear upper side of the traveling unit 2, the overall center of gravity of the combine is lowered, and the electrical energy generated from the hydrogen fuel cell power pack 110 is explained below. It is possible to efficiently transmit it to the motor unit 120.

The hydrogen tank 120 of the present invention is installed on the side of the hydrogen fuel cell power pack 110, as shown in FIG. 3, and is preferably installed on the rear upper side of the traveling unit 2. By installing the hydrogen tank 120 as described above, hydrogen charging from the outside becomes easy and accidents such as electrical short circuits can be prevented.

The motor unit 130 of the present invention is driven by electrical energy supplied from the battery of the hydrogen fuel cell power pack 110.

In addition, the motor unit 130 consists of at least three motors 131, 132, and 133, the first motor 131 is controlled to drive the harvesting unit 1, and the second motor 132 is It is controlled to drive a transport unit (not shown) that transports crops harvested from the reaping unit 1, and the third motor 133 is controlled to drive the traveling unit 2.

In addition, the motor unit 130 is installed in the front part of the main body 100, as shown in FIGS. 2 and 3, and in front of the hydrogen fuel cell power pack 110.

By installing the motor unit 130 in front of the hydrogen fuel cell power pack 110 as described above. Power can be transmitted by independently installing the first to third motors 131, 132, and 133 for each harvesting unit 1, traveling unit 2, and conveying unit (not shown).

That is, in the power drive of the present invention, as shown in FIG. 1, the power generated by the hydrogen fuel cell power pack 110 supplied with hydrogen by the hydrogen tank 120 is generated by the first to fourth motors of the motor unit 130. It is supplied to the third motor.

In addition, the mechanical power of the present invention is, as shown in FIG. 1, by the first to third motors 131, 132, and 133, the reaping unit 1, the traveling unit 2, and the transfer unit (not shown) ) is controlled by supply.

The grain tank 140 of the present invention, as shown in FIGS. 2 and 3, is installed behind the transfer unit and is a tank for storing grains such as rice transferred and threshed in the transfer unit (not shown). .

In addition, the straw processing unit 141 of the present invention, like the grain tank 140, is installed at the rear of the transfer unit, and as shown in Figures 2 and 3, the rice threshed in the transfer unit (not shown), etc. This is a tank that stores straw, ears, etc., excluding grains.

In addition, the straw processing unit 141 is preferably installed on the upper part of the hydrogen tank 120 installed at the rear of the hydrogen fuel cell power pack 110, as shown in FIG. 3, to dispose of the main body 100. Keep the overall center of gravity low.

The hydraulic device of the present invention is driven by a hydraulic pump 150, as shown in FIGS. 2 and 3.

The hydraulic device of the present invention includes a reaping unit lifting control unit (not shown) that raises and lowers the reaping unit 1 by the hydraulic pump 150, and a driving unit that raises and lowers the traveling unit 2 left, right, forward and backward. It consists of a secondary lifting control unit (not shown).

That is, the hydraulic drive of the present invention controls the lifting and lowering of the reaping unit 1 and the traveling unit 2 by driving and controlling the hydraulic pressure by the hydraulic pump 150, as shown in FIG. 1.

The above description is an illustrative description of the present invention, and the embodiments published in the specification are not intended to limit the technical idea of the present invention, but are for illustrative purposes, so those skilled in the art Various modifications and variations will be possible without departing from the technical idea of .

Therefore, the scope of protection of the present invention should be interpreted based on the matters stated in the claims, and technical matters within the equivalent scope thereof should also be interpreted as being included in the scope of rights of the present invention.

1: Harvesting department
2: Running part
100: main body
110: Hydrogen fuel cell power pack
120: Hydrogen tank
130: motor part
131: first motor
132: second motor
133: third motor
140 ; grain tank
141: Straw processing unit
150: Hydraulic pump

Claims (4)

In the main body arrangement structure of the hydrogen combine platform, where the harvesting part 1 is installed in the front, the running part 2 is installed in the lower rear, and the main body 100 is installed in the upper rear,
The main body 100,
A hydrogen fuel cell power pack (110) consisting of a stack, battery, and cooler,
A hydrogen tank 120 that supplies fuel to the hydrogen fuel cell power pack 110,
A motor unit 130 driven by electric energy supplied from the battery of the hydrogen fuel cell power pack 110,
A transfer unit (not shown) driven by the motor unit 130,
A grain tank 140 installed on the side of the hydrogen fuel cell power pack 110 and the hydrogen tank 120,
It consists of a hydraulic device 150 installed between the motor unit 130 and the hydrogen fuel cell power pack 110,
The motor unit 130 is installed in the front part of the main body 100,
The motor unit 130,
It consists of first to third motors 131, 132, and 133,
The first motor 131 is installed in the front part of the second motor 132 and the third motor 133 and drives the harvesting unit 1,
The second motor 132 and the third motor 133 are installed at the rear of the first motor 131,
The second motor 132 drives the transfer unit (not shown),
The third motor 133 is characterized in that it drives the traveling unit 2,
Main body layout structure of the hydrogen combine platform.



delete delete delete