KR102313441B1 - Engine assembly of agricultural vehicle - Google Patents

Abstract

An engine combination for an agricultural work vehicle is disclosed. The engine combination for an agricultural vehicle according to the present invention includes an air cleaner mounting table installed on a plane seating surface of an upper portion of a flywheel housing of the engine, and the left and right width direction of the engine perpendicular to the crankshaft direction of the engine through the air cleaner mounting unit. an air cleaner mounted on the upper part of the flywheel housing toward It includes a straight section arranged parallel to the cylinder head along the longitudinal direction, and an air flow sensor unit is arranged in the middle of the straight section as a gist of the configuration.

Description

Engine assembly of agricultural vehicle

The present invention relates to an engine combination, and more particularly, to an engine combination for an agricultural work vehicle constituting the driving part of the agricultural work vehicle called a 'tractor'.

In the engine room for agricultural work vehicles represented by tractors, the engine and numerous electrical and mechanical parts are attached to form the motor unit. Although there is a difference depending on the specifications or size of the tractor, the engine room space is limited to the area surrounded by the bonnet, and therefore, efficient arrangement of parts is of utmost importance in order to install numerous parts in a limited space.

In particular, by arranging the exhaust gas post-processing device mounted to respond to the recent stringent exhaust gas emission regulations and the air cleaner that filters out foreign substances during intake air in the engine room in combination with the engine, the free space is maximized in a limited space. Attempts to make the vehicle more compact are being actively used.

1 is a side view showing the structure of an engine combination mounted in the engine room of a conventional agricultural work vehicle, and FIG. 2 is a view of the engine room of FIG. 1 as viewed from the rear side of the vehicle body.

1 to 2, the engine room 10 of the tractor, which is an agricultural work vehicle, is specified as an area surrounded by a bonnet that is opened upward, and the engine 12 is mounted on a body frame (symbol omitted) in the engine room 10. This is mounted and configured to be protected by the bonnet, wherein the power generated by the engine 12 is transmitted to a transmission (not shown) connected to the flywheel housing 13 on the rear side of the engine 12 .

An exhaust gas post-treatment device 20 for purifying exhaust gas generated from the engine 12 is disposed on one side upper portion of the engine 12 in the longitudinal direction of the engine, and the exhaust gas after-treatment device 20 is disposed on one side of the exhaust gas. The inlet 21 is connected to the turbocharger 15 side of the engine 12 through the flange pipe 16, and the other side is provided with a purification gas outlet 22 connected to a muffler pipe (not shown).

The exhaust gas post-treatment device 20 is disposed long in the longitudinal direction of the engine 12 at the upper portion of the exhaust manifold 14, and an air cleaner ( 18) is placed. At this time, as shown in FIG. 2 , the air cleaner 18 is disposed on the intake manifold 17 in parallel to the exhaust gas post-treatment device 20 in the longitudinal direction of the engine.

In FIG. 2, reference numeral 19, which is not described, is a flywheel that is coupled to the main clutch of the transmission so as to transmit power and transmits power generated by the engine to the transmission.

Although the conventional engine combination with this configuration is advantageous in terms of weight balance as the exhaust gas post-processing device and the air cleaner are disposed opposite to each other, the intake line connecting the air cleaner and the intake manifold cannot be secured long enough. Due to the structure, there is a problem in that there is a structural limitation in disposing an air flow sensor (Mass Airflow Sensor, not shown) in the middle of the intake line.

Moreover, when the size or shape of the engine is changed according to specifications, the shape or arrangement of the intake line is inevitably changed according to the position of the air cleaner that is adjusted in response thereto. In this case, the air flow sensor (Mass Airflow Sensor) ) and ECU control values have to be set differently according to the intake line shape.

Japanese Laid-Open Patent Publication No. 2006-027519 (published on February 2, 2006) Japanese Patent Application Laid-Open No. 2009-012609 (published on January 22, 2009)

An object of the present invention is to provide an engine combination for an agricultural work vehicle having a structure that can ensure a sufficiently long intake line connecting an air cleaner and an engine intake manifold (or turbocharger) in a limited space.

Another problem to be solved by the present invention is an engine for an agricultural work vehicle having a structure that does not require calibration of the mass airflow sensor and readjustment of the control value of the ECU even if the size or appearance is changed according to the specifications of the engine It is intended to provide a combination.

According to an embodiment of the present invention as a means for solving the problem, there is provided an engine combination applied to an agricultural work vehicle, comprising: an air cleaner mounting table installed on a plane seating surface of an upper portion of a flywheel housing of the engine; an air cleaner mounted on the flywheel housing to face the left and right width directions of the engine perpendicular to the crankshaft direction of the engine through the air cleaner mounting bracket; Including; an intake line connecting the intake outlet of the air cleaner and the inlet of the engine intake manifold in an air-flowable manner;

The intake line includes a straight section arranged parallel to the cylinder head along the longitudinal direction of the engine coincident with the crankshaft direction, and an air flow sensor unit is disposed in the middle of the straight section It provides an engine combination for agricultural work vehicles.

In the engine applied to the present invention, the crankshaft is horizontally mounted on a vehicle body frame in the engine room so that the crankshaft is arranged parallel to the longitudinal direction of the vehicle body, the intake inlet of the air cleaner is located in the engine exhaust manifold direction, and the intake outlet is the engine intake It may be disposed to be positioned in the manifold direction.

In addition, an intake line may be formed in the upper portion of the engine intake manifold to form a straight section parallel to the cylinder head.

In addition, the engine combination according to the present invention is installed at the outlet of the engine exhaust manifold, the turbocharger to which the intake line is connected; may further include.

In addition, the exhaust gas after-treatment device is connected to the engine exhaust manifold outlet or the turbocharger outlet through a pipe, the exhaust gas after-treatment device is disposed parallel to the cylinder head along the longitudinal direction of the engine at the upper portion of the engine exhaust manifold; may further include .

At this time, the exhaust gas post-treatment device is disposed so that the inlet through which the exhaust gas to be treated is introduced is adjacent to the air cleaner side, and the exhaust gas outlet through which the exhaust gas after the post-treatment is discharged is located on the front end of the engine far from the air cleaner. It is preferable to

According to the engine combination for an agricultural work vehicle according to an embodiment of the present invention, the air cleaner is mounted on the upper part of the engine flywheel housing so that the air cleaner can be installed in the free space in the engine room secured on the upper part of the engine flywheel housing, It has the structural advantage of a structure that can minimize the effort to secure space for the installation of the air cleaner.

Furthermore, unlike the prior art in which the air cleaner is fixed to the engine cylinder head using a support bracket, etc., the air cleaner is fixed to the upper surface of the engine flywheel housing, which is a heavy object, through a mounting bracket, thereby reducing the effect of vehicle body vibration on the air cleaner. It can be greatly reduced, and thus the performance of the air cleaner can be exhibited more stably.

In addition, as the air cleaner is placed on the upper part of the flywheel housing, the intake line connecting the air cleaner and the engine intake manifold (or turbocharger) can be secured sufficiently long, and accordingly, the air flow sensor (Mass Airflow Sensor, not shown) can greatly improve mountability and maintainability.

In addition, an intake line is formed in the upper portion of the intake manifold in a shape including a straight section, and an air flow sensor (Mass Airflow Sensor) is disposed in the straight section, so even if the engine and peripheral structures are changed according to specifications, a standardized intake line in a straight form As a result, the calibration of the air flow sensor and the control value of the ECU can be the same.

1 is a side view showing the internal structure of the engine room of a conventional agricultural work vehicle.
FIG. 2 is a view of the interior of the engine room of FIG. 1 as viewed from the rear side of the vehicle body;
3 is a perspective view of an engine combination for an agricultural work vehicle according to an embodiment of the present invention.
Figure 4 is a perspective view of the engine combination of Figure 3 viewed from another angle.
5 is a front view of an engine combination for an agricultural work vehicle according to an embodiment of the present invention as viewed from the cooling fan side.
Figure 6 is a rear view from the flywheel side of the engine combination for an agricultural work vehicle according to an embodiment of the present invention.
7 is a left side view of an engine combination for an agricultural work vehicle according to an embodiment of the present invention.
8 is a right side view of an engine combination for an agricultural work vehicle according to an embodiment of the present invention.
9 is a plan view of an engine combination for an agricultural work vehicle according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, but in describing the present invention, detailed descriptions of known configurations will be omitted, and configurations that may unnecessarily obscure the gist of the present invention A detailed description thereof will also be omitted.

If the term for the direction is defined before the description, the engine longitudinal direction is defined as a direction along the X axis in the three-axis coordinate system of FIGS. 3 to 4 as a direction coincident with the engine crankshaft direction, and the left and right width directions of the engine are A direction perpendicular to the engine crankshaft direction will be defined and described as a direction along the Y-axis in the three-axis coordinate system of FIGS. 3 to 4 .

3 and 4 are perspective views of an engine combination for an agricultural work vehicle according to an embodiment of the present invention, respectively, viewed from different angles, and FIGS. 5 and 6 are views of an engine combination for an agricultural work vehicle according to an embodiment of the present invention from the cooling fan side This is a front view and a rear view seen from the flywheel side. 7 and 8 are left and right views of the engine combination, and FIG. 9 is a plan view of the engine combination.

3 to 9 , an embodiment of the present invention is an engine combination 100 mounted in an engine room of an agricultural work vehicle represented by a tractor, an engine 120 generating power, and a cylinder of the engine 120 . The air cleaner 180 for filtering foreign substances included in the intake air introduced into the air conditioner and the exhaust gas post-treatment device 200 for purifying harmful substances included in the exhaust gas are implemented in one assembly form.

The engine 120 is a diesel engine using diesel as a fuel, and like a diesel engine for a typical agricultural work vehicle, the oil pan 122 , the cylinder block 124 , the cylinder head 126 , the intake manifold 170 and the exhaust It includes a manifold 140 , a cooling fan 127 , an oil filter 128 , an alternator 129 , a flywheel 190 , and the like, and the air cleaner 180 is a flywheel housing 130 surrounding the flywheel 190 . ) is firmly fixed through the air cleaner mounting bracket 185 on the upper part.

A plane seating surface 132 is formed on the upper portion of the flywheel housing 130, and the lower end of the air cleaner mounting table 185 for mounting the air cleaner 180 is firmly attached to the seating surface 132 by bolting or welding. is fixed At this time, the air cleaner 180 is mounted on the flywheel housing 130 so as to face the left and right width direction of the engine 120 perpendicular to the crankshaft direction of the engine 120 through the air cleaner mounting table 185 .

The engine combination 100 according to an embodiment of the present invention is horizontally mounted on the body frame in the engine room of the agricultural vehicle so that the crankshaft of the engine 120 is arranged parallel to the longitudinal direction of the vehicle body, in this case, the air cleaner The intake inlet of 180 is located on the exhaust manifold 140 side of the engine 120 , and the intake outlet 184 of the air cleaner 180 is located on the intake manifold 170 side of the engine 120 . is installed

The air cleaner 180 may have a configuration in which a dry filter having numerous microscopic holes formed in a cylindrical housing constituting the external shape is detachably disposed, and the air disposed on the intake manifold 170 side. An intake outlet 184 of one side of the cleaner 180 (the right side of the engine with reference to FIG. 3 ) is connected to the inlet of the intake manifold 170 of the engine 120 through an intake line 300 to be air-flowably connected.

As shown in the figure, in the case of an embodiment in which a turbo charger 150 is provided on the exhaust manifold 140 side as an engine auxiliary device for increasing the engine 120 output and torque, the air cleaner 180 intake The intake line 300 extending from the outlet 184 is connected to the turbocharger 150, and the intake outlet 184 of the turbocharger 150 is connected to the intake manifold 170 as a pipe (symbol omitted). can be connected

The intake line 300 includes a straight section 310 disposed in parallel with the cylinder head 126 along the longitudinal direction of the engine 120 coincident with the crankshaft direction. And in the middle of the straight section 310, a mass air flow sensor unit 15 is arranged to measure the intake air amount supplied to the intake manifold 170 through the intake line 300 and deliver it to the ECU. .

Specifically, the straight section 310 of the intake line 300 is formed with a predetermined length along the longitudinal direction of the engine 120 on the upper right side of the cylinder head 126 , that is, on the intake manifold 170 side. A first curved pipe part 320 connected to the air cleaner 180 intake outlet 184 by a flexible pipe 302 at the front end and the rear end of the section 310, the turbocharger 150 (not equipped with a turbocharger combination), respectively In the case of the intake manifold) and the second curved pipe part 330 connected to the pipe is disposed.

On the other hand, the exhaust gas post-treatment device 200 is disposed above the exhaust manifold 140 opposite the straight section 310 of the intake line 300 . In a state in which harmful substances in the exhaust gas are reduced by the exhaust gas after-treatment device 200, it is discharged to the outside through a tail pipe (not shown), and at this time, the exhaust gas after-treatment device 200 is a diesel oxidation catalyst (DOC; Diesel) Oxidation Catalyst) and a diesel particulate filter (DPF) may be combined.

The inlet 210 of the exhaust gas post-processing device 200 through which the exhaust gas to be treated is introduced is connected to the turbocharger 150 outlet (exhaust manifold outlet in the case of a combination without a turbocharger) through a pipe, while after the exhaust gas In the arrangement of the processing device 200, as shown in the figure, the longitudinal axis thereof may be arranged to form a parallel arrangement with the cylinder head 126 along the longitudinal direction of the engine 120 above the exhaust manifold 140. .

Preferably, the inlet 210 through which the exhaust gas to be treated of the exhaust gas post-treatment device 200 is introduced is adjacent to the air cleaner 180 side, and the front end of the engine 120 farther from the air cleaner 180 side. An exhaust gas outlet 220 through which exhaust gas after a series of purification processes is discharged may be positioned on the side, and the tail pipe extending outside the engine room is connected to the exhaust gas outlet 220 .

Next, an operation and effect of the engine combination for an agricultural work vehicle according to an embodiment of the present invention configured as described above will be described.

Referring to the accompanying drawings, a suction force is applied to the intake inlet of the air cleaner 180 while the engine 120 is driven so that air is sucked. As the sucked air passes through the air filter inside the air cleaner 180 , foreign substances are filtered, and it flows into the turbocharger 150 through the intake line 300 connected to the intake outlet 184 , and enters the turbocharger 150 . It is compressed to a pressure set in advance by means of the intake manifold 170 and is supplied to the cylinder.

At this time, the airflow sensor unit 315 in the middle of the straight section 310 of the intake line 300 detects the mass flow rate of the intake air flowing through the intake line 300, and transmits the detected value to the ECU, The ECU feedback-controls the engine to produce an optimal output suitable for a load situation based on the detection value sent by the airflow sensor unit.

On the other hand, the power generated by the engine 120 by driving the engine 120 is output through the flywheel 190 coupled to the tip of the crankshaft, and through the main clutch of a transmission (not shown) directly connected to the flywheel 190 . transmitted intermittently to the transmission. And the exhaust gas generated by driving the engine 120 flows to the exhaust gas post-processing device 200 through the exhaust manifold 140 and the turbocharger 150 by back pressure.

The exhaust gas introduced into the exhaust gas post-treatment device 200 is tailed through the exhaust gas outlet 220 in a state in which noise and harmful substances are extremely reduced through a series of purification processes through the exhaust gas post-treatment device 200 . It is moved to the pipe, and is discharged to the atmosphere through the exhaust gas flow path formed by the tail pipe (not shown).

According to the engine combination for agricultural work vehicle according to the embodiment of the present invention, the air cleaner is mounted on the upper part of the engine flywheel housing so that the air cleaner can be installed in the free space in the engine room secured on the upper part of the engine flywheel housing. As a result, there is a structural advantage of a structure that can minimize the effort to secure space for the installation of the air cleaner.

Furthermore, unlike the prior art in which the air cleaner is fixed to the engine cylinder head using a support bracket, etc., the air cleaner is fixed to the upper surface of the engine flywheel housing, which is a heavy object, through a mounting bracket, thereby reducing the effect of vehicle body vibration on the air cleaner. It can be greatly reduced, and thus the performance of the air cleaner can be exhibited more stably.

In addition, as the air cleaner is placed on the upper part of the flywheel housing, the intake line connecting the air cleaner and the engine intake manifold (or turbocharger) can be secured sufficiently long, and accordingly, the air flow sensor (Mass Airflow Sensor, not shown) can greatly improve mountability and maintainability.

In addition, an intake line is formed in the upper portion of the intake manifold in a shape including a straight section, and an air flow sensor (Mass Airflow Sensor) is disposed in the straight section, so even if the engine and peripheral structures are changed according to specifications, a standardized intake line in a straight form For this reason, the calibration of the air flow sensor and the control value of the ECU can be the same.

In the above detailed description of the present invention, only specific embodiments thereof have been described. However, it is to be understood that the present invention is not limited to the particular form recited in the detailed description, but rather, it is to be understood to cover all modifications and equivalents and substitutions falling within the spirit and scope of the present invention as defined by the appended claims. should be

100: engine combination 120: engine
130: flywheel housing 132: seating surface
104: exhaust manifold 150: turbocharger
170: intake manifold 180: air cleaner
182: intake inlet of the air cleaner 184: intake outlet of the air cleaner
185: air cleaner mounting table 190: flywheel
200: exhaust gas post-treatment device 300: intake line
310: straight section 315: air flow sensor unit

Claims (6)

As an engine combination applied to an agricultural work vehicle,
an air cleaner mounting table installed on a plane seating surface of the engine's flywheel housing;
an air cleaner mounted on the flywheel housing to face the left and right width directions of the engine perpendicular to the crankshaft direction of the engine through the air cleaner mounting bracket;
and an intake line connecting the intake outlet of the air cleaner and the inlet of the engine intake manifold in an air-flowable manner;
The intake line includes a straight section arranged parallel to the cylinder head along the longitudinal direction of the engine coincident with the crankshaft direction, and an air flow sensor unit is disposed in the middle of the straight section engine combination for agricultural work vehicles.
The method of claim 1,
The engine is mounted horizontally on the body frame in the engine room so that the crankshaft is arranged parallel to the longitudinal direction of the vehicle body,
An engine combination for an agricultural work vehicle, characterized in that the intake inlet of the air cleaner is positioned on the exhaust manifold side of the engine and the intake outlet is positioned on the intake manifold side of the engine.
3. The method according to claim 1 or 2,
An engine combination for an agricultural work vehicle, characterized in that an intake line is formed in the upper portion of the intake manifold to form a straight section parallel to the cylinder head.
The method of claim 1,
The engine combination for agricultural work vehicles further comprising; a turbocharger that is installed at the outlet of the engine exhaust manifold, the intake line is connected.
5. The method of claim 1 or 4,
An engine for agricultural work vehicle further comprising; an exhaust gas post-processing device connected to the engine exhaust manifold outlet or the turbocharger outlet through a pipe, and disposed parallel to the cylinder head in the longitudinal direction of the engine at the upper part of the engine exhaust manifold Combination.
6. The method of claim 5,
The exhaust gas post-treatment device is disposed so that the inlet through which the exhaust gas to be treated is introduced is adjacent to the air cleaner side, and the exhaust gas outlet through which the exhaust gas after the post-treatment is discharged is located on the front end of the engine far from the air cleaner. A combination of engines for agricultural work vehicles.

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