JP3662637B2 - Engine screen dust remover - Google Patents

Description

[0001]
[Industrial application fields]
In the present invention, the screen is formed by a dust suction duct extending from the rotating screen outer portion covering the front surface of the radiator to the rotating shaft core portion so that the front surface of the screen is aligned with the wing. The present invention relates to a dust removing device that removes adhering dust.
[0002]
[Prior art]
As shown in "FIG. 6" and "FIG. 7", the conventional dust remover rotates with the front surface of the screen (2) along the side from the outer side of the rotating screen (2). Dust adhering to the screen (2) is removed by a dust suction duct (4) extending to the shaft core (3), and the front surface of the screen (2) of the dust suction duct (4). Since the back of the back facing the side is open and the entire surface is open to form a dust suction port (7), the dust suction force acts strongly on the outer periphery (6) of the screen (2). It has a drawback that it becomes so weak that it reaches the shaft core (3), and a uniform dust absorption force cannot be applied to the entire surface of the screen (2). In contrast to the above-described prior art, US Pat. No. 4,233,040 discloses a fan-shaped shielding plate provided inside the screen (2). However, it is a duct structure in which the dust suction duct (4) and the shielding plate are individually mounted with the screen (2) interposed therebetween, and has a large number of parts.
[0003]
[Problems to be solved by the invention]
Therefore, the present invention corrects the non-uniformity of the dust suction force acting on the screen, which is the conventional drawback as described above, so that the uniform dust suction force acts on the entire surface of the screen, and the dust removal performance is improved. It was created for the purpose of improving.
[0004]
[Means for Solving the Problems]
In order to achieve the object described in the preceding paragraph, the present invention covers the front surface of the radiator with a rotating circular screen, and the front surface of the screen is aligned with the outer surface of the screen. In the case where dust adhering to the screen is removed by a dust suction duct extending to the rotating shaft core, the dust suction duct is expanded in a fan shape with the outer portion of the screen as the center, and the tip is screened. The dust suction opening is wide in the direction extending across the rotational direction of the screen from the back surface to the tip of the dust suction duct. It is.
[0005]
[Action]
With this configuration, the outside air containing dust by the rotation of the cooling fan passes through the circular screen rotating by the cooling fan and is sucked through the radiator while being filtered, and is attached to the screen. Is sequentially sucked and removed from the dust suction port of the dust suction duct by the rotation of the screen.
[0006]
In this case, since the dust suction duct is expanded in a fan shape and a long dust suction opening is opened at the tip thereof, an arc-shaped dust suction opening extending from the rotating shaft core portion of the screen to the outer peripheral portion in the radial direction. However , a uniform dust suction force acts on the entire surface across the rotational direction of the screen, and the dust adhering to the screen is effectively removed.
[0007]
【Example】
Hereinafter, the dust removing apparatus according to the present invention will be described with reference to the drawings. As shown in FIG. 5, the engine (E) is mounted on a combine and comprises a pair of left and right crawlers (8). A threshing part (A) is arranged on the left side of the traveling device, a control part, an engine (E), and a grain tank (G) are arranged on the right side. It is provided and is configured by connecting the slaughtering part (C) to the rear part of the threshing part (A).
[0008]
Therefore, in “FIG. 1” and “FIG. 2”, (9) is an engine cooling fan, (1) is a radiator, and (2) is pivotally attached to a pivotally supported shaft (10). A circular screen covering the front surface of the radiator (1). The outer periphery of the screen (2) is a bent edge (2a), and the bent edge (2a) is used as a motor axis. The driving roller (11) to be worn and the driven roller (12) are sandwiched and rotated in the direction of the arrow (A).
[0009]
(13) is an intake pipe that is connected to the cooling fan (9), the radiator (1), and the outer side of the screen (2) by connecting a dust suction fan (14) at one end, and (4) Is a dust-absorbing duct extending from the outer side of the screen (2) to the rotating shaft core (3) with the front surface of the screen (2) aligned with the side of the screen (2). The outer part of the pipe (2) is connected to the other end of the intake pipe (13), and the dust suction duct (4) is expanded in a fan shape with the center part of the intake pipe (13) as the center (O), The widened tip (5) is widened from the pivot axis (3) to the outer periphery (6) of the screen (2), and the screen ( 2) An elongated dust suction port (7) is opened in an arc shape facing the surface.
[0010]
Therefore, the dust adhering to the screen (2) is sucked through the radiator (1) while being filtered by the cooling fan (9) through the circular screen (2) where the outside air containing the dust rotates. Is sequentially sucked and removed from the dust suction port (7) of the dust suction duct (4) by the rotation of the screen (2) in the (a) direction. In this case, the dust suction duct (4) is fan-shaped. Since the long dust suction port (7) is opened at the front end (5), the distance from the base of the dust suction duct (4) connected to the intake pipe (13) to the dust suction port (7) (L) removes the dust adhering to the screen (2) by applying the same dust-absorbing force to the entire surface of the longitudinal dust-collecting port (7), regardless of the location of the dust-collecting port (7). Becomes effective.
[0011]
Further, the circular screen (2) is rotated in the direction of the arrow (A) with respect to the dust suction duct (4) to expand in a fan shape, and the back surface along the front surface of the screen (2) of the dust suction duct (4). (4a) When passing through the dust suction port (7) through the side, dust adsorbing force due to rotation of the cooling fan (9) acts on the screen (2) corresponding to the back surface (4a). The dust adhering to the screen (2) floats from the screen (2), and the dust in the floated state reaches the suction port (7) and is thus more effectively removed. It is.
[0012]
As described above, the dust suction duct (4) is expanded in a fan shape with the center of the intake pipe (13) as the center (O), but isosceles triangles with the center (O) as a vertex. It may be expanded into a shape. That is, even if the triangular shape is expanded, the distance (L) from the base of the dust suction duct (4) to the dust suction port (7) is substantially the same at any location, and the same action can be achieved.
[0013]
Further, what is shown in “FIG. 3” and “FIG. 4” is that of another embodiment and discloses a means for effectively removing dust adhering to the screen (2). In the conventional dust suction duct (4) shown in FIG. 6 and FIG. 7, the dust suction port (7a) in which the outer peripheral portion (6) of the screen (2) is opened is connected to the intake pipe (13). ) And a dust suction passage (15b) in which a dust suction port (7b) in which the rotating shaft core portion (3) is open to the suction pipe (13) is connected to the suction pipe (13). By using the dust suction duct (4), it is intended to improve the removal of dust adhering to the screen (2) over the conventional one.
[0014]
【The invention's effect】
As described above, the present invention covers the front surface of the radiator (1) with the rotating circular screen (2), and from the outside of the screen (2), the screen (2) In the case where dust adhering to the screen (2) is removed by a dust suction duct (4) extending in front of the rotary shaft core (3) along the side, the dust suction duct (4) is screened. The outer part of (2) is expanded into a fan shape with the center (O) as the center, and the tip part (5) is wide from the rotating shaft core part (3) to the outer peripheral part (6) of the screen (2). The dust suction port (7) is opened in a longitudinal direction across the rotational direction of the screen (2) from the back surface (4a) of the dust suction duct (4) to the tip (5). Therefore, the distance (L) from the base of the dust suction duct (4) to the dust suction port (7) depends on which part of the dust suction port (7). And the uniform dust suction force acts on the entire surface of the longitudinal dust suction port (7) from the rotating shaft core (3) of the screen (2) to the outer periphery (6) in the radial direction. Thus, the removal of dust adhering to the screen (2) becomes effective, and the dust removal performance is improved.
[Brief description of the drawings]
FIG. 1 is a front view of a dust removing unit.
FIG. 2 is a plan view of the same.
FIG. 3 is a front view of a dust removing device according to another embodiment.
FIG. 4 is a plan view of the dust removing device portion of the same example.
FIG. 5 is a schematic plan view of the entire combine.
FIG. 6 is a front view of a conventional one.
FIG. 7 is a plan view of the same.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Radiator 2 Screen 3 Rotating shaft core part 4 Dust-absorbing duct 5 Tip part 6 Outer part 7 Dust inlet O center B Rotating direction 4a Back surface

Claims (1)

The front surface of the radiator (1) is covered with a rotating circular screen (2), and the front surface of the screen (2) is rotated from the outside of the screen (2) along the side. In the case where dust adhering to the screen (2) is removed by the dust suction duct (4) extending to the shaft core (3), the dust suction duct (4) is centered on the outer side of the screen (2) ( O) is fan-shaped, and its tip (5) is widened from the rotating shaft core (3) to the outer periphery (6) of the screen (2), and from the back surface (4a) of the dust suction duct (4) to the tip. A dust removing device for an engine screen, wherein a dust suction port (7) is opened in a longitudinal direction across the rotational direction of the screen (2) over the portion (5) .

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