JPWO2015166756A1 - Excavator - Google Patents

Abstract

Canopy-type hydraulic excavator (1) having a pair of struts (6L, 6R) standing apart in the vehicle width direction and a roof (7) erected on the upper ends of the pair of struts (6L, 6R) The electrical component (8) installed on the vehicle body between the pair of support columns (6L, 6R) and on the lower back side of the backrest of the operator seat, and a cover (10) covering the electrical component from above, At both ends of the cover (10) in the vehicle width direction, there are provided a first recess (11) and a second recess (12) that are open outward in the vehicle width direction.

Description

  The present invention relates to a hydraulic excavator.

  2. Description of the Related Art Conventionally, as a small hydraulic excavator, a canopy specification that is operated by an operator while being opened to the outside is known (see, for example, Patent Document 1). The canopy is generally composed of left and right columns that are erected on the upper portion of the counterweight and a roof that is installed above the column, behind the operator seat.

  Also, in recent hydraulic excavators, information from various sensors installed in the main part of the vehicle body is acquired through the vehicle body network, and the results are displayed on a monitor, or the information is transmitted to the management center wirelessly. In addition, necessary information is received from the management center. For this purpose, electrical components including a processing device and a communication terminal are mounted on the hydraulic excavator.

  Such electric parts are mounted in a concentrated manner between the left and right support columns at the rear of the seat due to restrictions on the mounting space in the vehicle body. In addition, because of the necessity of protecting the electrical components from rainwater and dust, a cover that covers the electrical components from above is installed between the columns. Concave portions are provided at both the left and right ends of the cover so as to avoid the base end portions of the support columns. By passing the base end portions of the support columns through these recesses, the entire installation surface of the electrical component parts is covered in a wide range in addition to the electrical component parts. It is possible.

JP 2005-350911 A

By the way, when attaching and detaching the cover for maintenance of electrical parts, etc., if the detachment work cannot be performed with the canopy column attached to the vehicle body, the work becomes large. For this reason, the recessed part provided in the cover is conventionally provided in the shape open | released toward the front so that a cover can be moved in the front-back direction at the back of a vehicle body and can be attached or detached.
However, conventionally, when moving the cover in the front-rear direction, in order to avoid interference with the electrical components, it must be lifted up to a predetermined height and then moved in the front-rear direction, and the operation is complicated in two stages. There is a problem that this cannot be solved sufficiently.

  An object of the present invention is to provide a hydraulic excavator that can easily attach and detach a cover that covers electrical components.

  The hydraulic excavator of the present invention is a canopy-type hydraulic excavator having a pair of struts erected apart in the vehicle width direction and a roof erected on the upper ends of the pair of struts. And an electrical component installed on the vehicle body behind the backrest of the operator seat and a cover that covers the electrical component from above, and at both ends of the cover in the vehicle width direction, outwardly in the vehicle width direction. A concave portion that is open toward the surface is provided.

According to the present invention, since the recesses are provided at both ends of the cover so as to open outward in the vehicle width direction, when removing the cover, the recess on one end side of the cover is locked to one of the columns. From this state, the one end side is rotated with the vehicle body front-rear direction as the rotation axis, so that the other end side of the cover is lifted and slanted, and the other end side is twisted from the other column so that the entire cover is twisted from this state. Remove the front side or rear side. And when attaching a cover, the above reverse operation | movement will be performed.
Thus, when attaching and detaching the cover, the operator lifts the cover instead of the conventional two-stage operation of lifting the entire cover up to a height at which it does not interfere with the electrical components and then moving it forward and backward. In addition, the twisting operation may be performed continuously, and attachment / detachment work while avoiding interference with the electrical parts can be facilitated.

  In the hydraulic excavator of the present invention, it is preferable that the cover is attached to the vehicle body at a position lower than an upper part of the electrical component.

  In the hydraulic excavator according to the present invention, an inner dimension between a joint portion of one of the pair of struts to the vehicle body and a joint portion of the other strut to the roof corresponds to the one strut of the cover. It is preferable that it is larger than the length dimension between the innermost end of the recessed part and the outermost end of the cover corresponding to the other strut.

  In the hydraulic excavator of the present invention, the pair of support columns are inclined so as to approach each other as they go upward, and by lifting the cover, the lower surface of the cover is at least at a height position higher than the upper part of the electrical component. The inner dimension along the vehicle width direction between the pair of support columns is preferably larger than the length dimension between the innermost ends of the recesses of the cover.

  In the hydraulic excavator of the present invention, it is preferable that the cover has an inclined portion corresponding to the maximum reclining amount of the backrest of the operator seat on the front surface.

  In the hydraulic excavator according to the present invention, it is preferable that the recesses provided at both ends of the cover have different indentations.

1 is a side view showing a hydraulic excavator according to an embodiment of the present invention. The front view seen from the II direction of FIG. 1 which shows the state which inclined the cover. The front view seen from the III direction of FIG. 1 which shows the state which lifted the cover to the height position where a lower surface becomes higher than the upper part of an electrical component. The top view of a cover. The perspective view around the installation surface of an electrical component. FIG. 5 is a cross-sectional plan view of the electrical component installation surface when viewed from the VI-VI direction in FIG. 1.

An embodiment of the present invention will be described with reference to the drawings.
In the following description, the front / rear / left / right / up / down directions refer to the front / rear / left / right / up / down directions when the operator seated on the operator seat 5 of the excavator 1 faces the front in the state shown in FIG. Is the same as the vehicle width direction of the hydraulic excavator 1.

[Overview of hydraulic excavator]
A hydraulic excavator 1 according to the present embodiment is a vehicle classified as a small excavator as shown in FIG. 1, and includes a lower traveling body 2, an upper swing body 3 provided on the lower traveling body 2, and earth and sand. And a work machine 4 for excavation and the like. The upper swing body 3 is provided so as to be rotatable with respect to the lower traveling body 2 by a swing hydraulic motor (not shown). The lower side of the upper swing body 3 includes a revo frame 30 that is a frame of the upper swing body 3, and a work machine 4 is provided at the front end of the revo frame 30.

  The work machine 4 is attached to the revo frame 30 so that it can swing up and down, an arm 42 attached to the tip of the boom 41 so as to swing up and down, and attached to the tip of the arm 42 so as to swing up and down. Bucket 43. The boom 41, the arm 42, and the bucket 43 are connected to the tip ends of the cylinder rods of the boom cylinder 41A, the arm cylinder 42A, and the bucket cylinder 43A, which are hydraulic cylinders, and swing by extending and retracting each cylinder rod. Operate.

  An engine room 31 that houses a diesel engine (not shown) is provided in the rear half of the revo frame 30, and a counterweight 32 is attached to the rear end of the revo frame 30. An operator seat 5 is provided above the engine room 31. The operator seat 5 has a reclining function and abuts against a seat stopper 13 (see FIGS. 5 and 6) provided behind the operator seat 5 when the maximum reclining amount is reached.

  The excavator 1 has a canopy specification, and a roof 7 is provided above the operator seat 5 and supported by a pair of support columns 6L and 6R that are erected on the upper swing body 3 in the vehicle width direction. 2 and 3 are front views of the canopy viewed from the II and III directions in FIG. As shown to both figures, a pair of support | pillar 6L, 6R inclines in the direction which adjoins mutually as it goes upwards. As shown in FIGS. 5 and 6, an electrical component 8 is installed between the pair of columns 6 </ b> L and 6 </ b> R (that is, behind the operator seat 5). And a cover 10 for protecting from dust. The electrical component 8 includes a processing device that processes information from various sensors installed in the main part of the vehicle body, a communication terminal that communicates with the management center, and the like. FIG. 5 shows a state in which the operator seat 5 is removed in order to make the electrical component 8 and the cover 10 visible.

[Description of cover configuration]
The cover 10 has four bolts 9 (see FIG. 6) on the floor behind the back of the operator seat 5, which is a joint portion of the pair of support posts 6L and 6R to the upper swing body 3 at a position lower than the upper part of the electrical component 8. Is attached by.
The cover 10 is formed in a box shape that covers the entire upper surface of the electrical component 8 and has an open lower surface. As shown in FIGS. 4 and 6, the front edge of the cover 10 extends along the vehicle width direction, and the rear edge is curved along the rear edge of the upper swing body 3. As shown in FIGS. 2, 3, and 5, the cover 10 is formed in a stepped shape with both ends in the vehicle width direction being smaller in the vertical direction than the center, and the operator 10 is formed on the front surface. An inclined portion 10A corresponding to the maximum reclining amount of the backrest of the seat 5 is formed. By forming the inclined portion 10 </ b> A, a large reclining amount can be secured in the operator seat 5. Further, if the back of the operator seat 5 is made upright or inclined forward, a work space for removing the cover 10 from the vehicle body can be secured.

  At both ends of the cover 10 in the vehicle width direction, first and second recesses 11 and 12 opened toward the outside in the vehicle width direction are provided. More specifically, the first recess 11 is provided on the right column 6R side, and the second recess 12 is provided on the left column 6L side. The first recess 11 is a U-shaped recess formed so as to avoid the proximal end portion of the right column 6R, and the second recess 12 is formed so as to avoid the proximal end portion of the left column 6L. It is a rounded depression. The amount of depression in the vehicle width direction of the first recess 11 is formed larger than the amount of depression in the second recess 12. By providing the cover 10 with the first recess 11 and the second recess 12, the entire installation surface of the electrical component 8 can be covered in a wide range.

As shown in FIG. 4, the length dimension between the innermost end of the second recess 12 of the cover 10 and the outermost right end of the cover 10 is M2. This length dimension M2 is smaller than the inner dimension N2 (see FIG. 2) between the joint portion P of the left column 6L with respect to the upper swing body 3 and the joint portion Q with respect to the roof 7 of the right column 6R. (M2 <N2).
As shown in FIG. 4, the length dimension between the innermost ends of the first recess 11 and the second recess 12 of the cover 10 is M1. The length dimension M1 is smaller than the inner dimension N1 (see FIG. 3) along the vehicle width direction between the pair of support posts 6L and 6R at the point where the height from the lower end is H2 (M1 <N1). ).

[Explanation of how to remove and install the cover]
A method for removing the cover 10 will be described.
First, after removing the four bolts 9 that fix the cover 10 to the upper swing body 3,

  While the second recess 12 is locked to the left column 6L, the second recess 12 side is rotated about the vehicle longitudinal direction as the rotation axis, and the first recess 11 side of the cover 10 is further lifted and inclined ( 2 and 5). Then, the first recess 11 is detached from the right column 6R inward in the vehicle width direction.

By making the cover 10 slanted, the first recess 11 is detached from the right column 6R inward in the vehicle width direction. For example, compared with the case where the cover 10 is divided for removal, the removal work is performed. It can be done easily.
As described above, the length dimension M2 between the innermost end of the second recess 12 of the cover 10 and the outermost right end of the cover 10 is smaller than the inner dimension N2 between the PQs described above (M2). <N2) Therefore, before the end of the cover 10 on the first recess 11 side interferes with the roof 7, the first recess 11 can be removed from the right column 6R inward in the vehicle width direction.

When the first recess 11 is disengaged from the right column 6R, the cover 10 is twisted so that the first recess 11 side moves backward with the second recess 12 as the center, and then the second recess 12 is moved from the right column 6R. When it is separated and removed, the cover 10 is removed.
When the cover 10 is attached, the procedure is reversed from the procedure described above.

  When the electrical component 8 is long in the vertical direction, the electrical component 8 may interfere with the operation of twisting the cover 10 so that the first recess 11 side moves backward with the second recess 12 as the center. When such a situation is assumed, after removing the bolt 9, the cover 10 is lifted to a height position H2 where the lower surface of the cover 10 is at least higher than the upper part of the electrical component 8 at the height position H1. The above-described removal work may be performed. As described above, the length dimension M1 between the innermost ends of the first recess 11 and the second recess 12 of the cover 10 is smaller than the inner dimension N1 along the vehicle width direction between the pair of columns 6L and 6R. (M1 <N1). Therefore, when the cover 10 is lifted to the height position H2, the cover 10 is not sandwiched between the pair of support posts 6L and 6R, and the cover 10 can be reliably lifted to the height position H2. Since the cover 10 is lifted to a height position H2 where the lower surface is higher than the upper part of the electrical component 8, the cover 10 can be removed without being obstructed by the electrical component 8.

  According to the above-described embodiment, when attaching / detaching the cover 10, an operator lifts the entire cover 10 up to a height that does not interfere with the electrical component 8, and then moves the cover 10 in the front-rear direction. It is only necessary to continuously rotate and twist the cover 10 instead of the operation, and the attachment / detachment work while avoiding interference with the electrical component 8 can be facilitated.

It should be noted that the present invention is not limited to the above-described embodiments, and modifications, improvements, and the like within the scope that can achieve the object of the present invention are included in the present invention.
For example, in the embodiment, the pair of support columns 6L and 6R are inclined so as to approach each other as they go upward, but in the present invention, the pair of support columns 6L and 6R may extend in parallel.

  In the embodiment, the amount of depression of the first recess 11 of the cover 10 is larger than the amount of depression of the second recess 12, but the amount of depression of the first recess 11 and the second recess 12 is equal. Good. However, it is preferable that the end portion of the cover 10 does not protrude from the upper swing body 3.

  The present invention can be used for a smaller hydraulic excavator, for example, a small rear turning type.

  DESCRIPTION OF SYMBOLS 1 ... Hydraulic excavator, 10 ... Cover, 11 ... 1st recessed part, 12 ... 2nd recessed part, 6L, 6R ... Support | pillar, 7 ... Roof, 8 ... Electrical component.

When the first recess 11 is disengaged from the right column 6R, the cover 10 is twisted so that the first recess 11 side moves backward with the second recess 12 as the center, and then the second recess 12 is moved from the left column 6L. When it is separated and removed, the cover 10 is removed.
When the cover 10 is attached, the procedure is reversed from the procedure described above.

Claims (6)

In a canopy-spec hydraulic excavator having a pair of struts erected apart in the vehicle width direction and a roof erected on the upper ends of the pair of struts,
Electrical components installed on the vehicle body between the pair of columns and on the lower back side of the back of the operator seat;
A cover that covers the electrical component from above;
A hydraulic excavator, characterized in that recesses that are open outward in the vehicle width direction are provided at both ends of the cover in the vehicle width direction. The hydraulic excavator according to claim 1,
The hydraulic excavator, wherein the cover is attached to the vehicle body at a position lower than an upper part of the electrical component. The hydraulic excavator according to claim 1 or 2,
The inner dimension between the joint portion of one of the pillars to the vehicle body and the joint portion of the other pillar to the roof is the innermost end of the recess corresponding to the one pillar of the cover. A hydraulic excavator characterized in that it is larger than the length dimension between the outermost end on the side corresponding to the other support column of the cover. The hydraulic excavator according to any one of claims 1 to 3,
The pair of struts are inclined so as to approach each other as they go upward,
The inner dimension along the vehicle width direction between the pair of struts at a height position where the lower surface of the cover is raised at least higher than the upper part of the electrical component by lifting the cover is the distance between the recesses of the cover. A hydraulic excavator characterized by being larger than the length between the innermost ends. The hydraulic excavator according to any one of claims 1 to 4,
The cover is formed with an inclined portion corresponding to the maximum reclining amount of the backrest of the operator seat on the front surface. The hydraulic excavator according to any one of claims 1 to 5,
The excavator, wherein the recesses provided at both ends of the cover have different indentations.

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