1. Field of the Invention
The present invention relates to a floor structure of a construction machine and a method of assembling the same.
2. Description of the Related Art
Cabs of construction machines are classified into a cabin specification and a canopy one. In both specifications, on a floor of the cab is disposed a floor plate, on which a floor mat having a substantially constant thickness is laid.
In the cabin specification, as disclosed in Japanese Utility Model Registration No.2584492, for example, a door open-close device is attached to a platform of the cabin which an operator is getting on or off. In this case, a stepwise part is formed on the platform of the floor plate so as to provide a space to accommodate the door open-close device.
On the other hand, in the canopy specification, since there is no door open-close device, a substantially flat floor plate is assembled into the floor without this stepwise part.
To assemble the floor structure as mentioned above, however, two types of floor plates, that is, the floor plates with and without the stepwise part need to be prepared depending on the specification. This increases the number of parts including the floor plates and associated components, disadvantageously resulting in decrease in productivity, and additionally leading to increase in manufacturing costs.
It is an object of the present invention to provide a floor structure of a construction machine that can employ the same floor plate in both cabin and canopy specifications, regardless of type of the specification, and a method of assembling the same.
The floor structure of a construction machine according to the present invention has the following basic structure.
That is, the floor structure of the present invention comprises a canopy disposed above an operator's seat via a support, a floor plate disposed below the operator's seat and having a stepwise part at its end edge on a platform side for an operator, the stepwise part being formed so as to be located at a lower level in a downward direction, and a floor mat covering the floor plate. This floor mat has a protrusion corresponding to the stepwise part, and is wanted on the floor plate in such a manner that the protrusion of the floor mat is fitted into the stepwise part to fill in the stepwise part, thereby substantially leveling an upper surface of the floor mat.
A method of assembling a floor structure according to the present invention has the following basic steps.
That is, the method of assembling a floor structure in the present invention comprises the steps of forming a stepwise part at an end edge of a floor plate constituting the floor structure in such a manner that the stepwise part is located at a lower level outside of the floor plate, and then, on assembling the floor structure, when the floor structure is for a cabin specification on which a cabin with a door is mounted, housing a device for opening and closing the door in the stepwise part to fill in the stepwise part, while mounting on said floor plate a first floor mat having a substantially constant thickness, and on the other hand, on assembling the floor structure, when the floor structure is for a canopy specification on which a canopy without a door is mounted, mounting on the floor plate a second floor mat having a protrusion corresponding to the stepwise part, instead of the device. In the latter case, this protrusion is disposed at an end edge of the second floor mat, and fitted into the stepwise part in such a manner that said protrusion fills in said stepwise part.
In this case, in use of the cabin specification structure with the cabin mounted thereon, the device for opening and closing the door is housed in the stepwise part of the floor plate to fill in the stepwise part, so that the first floor mat with a substantially constant thickness may be mounted on the floor plate.
On the other hand, in use of the canopy specification structure without having a door, the second floor mat with the corresponding protrusion (convex portion) provided at its end edge is mounted on the floor plate, so that the stepwise part of the floor plate is filled in with the protrusion. This makes it possible to employ the floor plate in both the cabin specification and the canopy specification, regardless of type of the specification, thereby reducing the number of parts constituting the floor, thus leading to a decrease in manufacturing costs.
A method of assembling a floor structure of a construction machine, and a floor mat of the floor structure according to the present invention will be described below with reference to
Cabs of construction machines are classified into a cabin specification having a cabin with an openable door for a platform, which an operator gets on or off, and a canopy specification in which a roof is supported via a support so as to be located above an operator's seat without an openable door.
Now, a hydraulic excavator will be explained as an example of the construction machine.
In
In the cab R is mounted an operator's seat 2 for an operator. On the right and left sides of the seat, control boxes 2b, each having an operating lever 2a, are disposed. In either cabin specification or canopy specification, a floor plate 4 which will be described later is disposed below the operator's seat 2 (under operator's feet). A first floor mat 5 is mounted on this floor plate 4.
It should be noted that a traveling lever 2c, a traveling pedal 2d, a swing pedal 2e for swinging a boom 6 in a lateral direction, and an optional pedal 2f for operating an optional device such as a breaker, or an earth discharging plate are protruded from the front part of the operator's seat 2.
The cabin 3 includes a frame 3a surrounding the operator's seat 2, and a roof 3b. Glass panels 3c and 3d are provided on the front and right sides of the cabin 3, respectively. An openable door 3e to open and close in a sliding manner is provided on a platform of the cabin 3.
The door 3e has a circular arc shape as viewed in a plane, and is guided by a guide rail (not shown) to open and close in a longitudinal direction (the direction of arrow A).
The floor plate 4 disposed below the operator's seat 2 has a stepwise part 4a formed on its platform side, which part is formed so as to be located at a lower level in a downward direction by one step than the most part of the floor plate (the main surface of the floor plate). A device 3f for opening and closing the open-close door 3e is disposed on this stepwise part 4a.
In the figure, the floor plate 4 is disposed below an operator in the cab. The floor plate 4 can be constituted into a desired shape by processing a steel sheet and/or combining steel sheets.
In the present embodiment, the stepwise part 4a which provides a space to accommodate the device 3f for opening and closing the door is formed such that the part 4a is located at a lower level by one step on the platform side of the floor plate 4. Accordingly, this floor plate 4 can be commonly used for both specifications, that is, for the cabin specification having the device 3f and for the canopy specification without needing the device 3f.
On the other hand, there are prepared two types of floor mats 5 to be mounted on the floor plate 4, namely, one type for the cabin specification, and the other type for the canopy specification.
The floor mat 5 as shown in
On the surface of the first floor mat 5, an uneven pattern 5a which has pits and projections serving as a slip stopper is formed. On the side edge and rear edge thereof, frame portions 5b are provided in an upright posture for preventing discharge of sand and mud on the first floor mat 5 into the cab.
Accordingly, the back side of the floor mat preferably has the grid pattern having a number of recesses so as to reduce its weight. In particularly, protrusions help enhance the effect of weight reduction.
The formation of the grid pattern maintains strength of the floor mat, while reducing its weight.
Thus, in the case of the cabin specification with the cabin 3 mounted, the device 3f for opening and closing the door 3e (see
Now, the floor structure for the canopy specification will be described with reference to
In the following figures, elements that are in common to
In the canopy specification, the cabin 3 (see
For this reason, a second floor mat 25 with protrusions 25d disposed on the platform side, which will be described later, is mounted on the floor mat 4, to thereby fill in the stepwise part 4a.
This second floor mat 25 has a number of protrusions (leg portion) 25d provided in an upright posture, each having the substantially same length h′ as the length h of the stepwise part 4a.
The leg portion 25d, as shown in
Since the leg portion 25d has to support the weight of an operator when the operator gets on and off the cab, it has enough strength not to be deformed easily.
The back surface part of the floor mat other than the part S corresponding to the stepwise part 4a has a number of recesses 25c formed in the grid pattern, in the same way as the first floor mat 5.
It is noted that on the front surface of the second floor mat 25, an uneven pattern 25a for a slip stopper is also formed (see
As will be described in the above description, in the assembly method of the floor structure according to one preferred embodiment, for the cabin specification with the cabin 3 mounted, the device 3f is housed or received in the stepwise part 4a of the floor plate 4, so that the stepwise part is filled in and leveled by the upper cover of the device 3f. Thereafter the first floor mat 5 having the substantially constant thickness is mounted on the floor plate 4, thus constituting the floor.
On the other hand, for the canopy specification, the second floor mat 25 is mounted on the floor plate 4 with the protrusions 25d provided on the platform side of the second floor mat 25 to face the stepwise part 4a of the floor plate 4, so that the stepwise part 4a is filled in with the protrusions 25d to form an even leveled surface, thus constituting the floor.
In the above-mentioned embodiments, the rear small rotating type hydraulic excavator 1 has been described as one example of the construction machine to which the present invention is applied. The present invention is not limited thereto, and may be applied to an arbitrary construction machine which can selectively install a canopy and a cabin for opening and closing in a sliding manner.
It should be noted that the traveling lever 2c on the floor plate 4, the traveling pedal 2d, the swing pedal 2e for swinging the boom 6 in a lateral direction, and the optional pedal 2f for operating the optional device such as the breaker, or the earth discharging plate never limit the present invention, and are not essential. Further, various modifications to the design thereof may be possible on the basis of a basic concept of the present invention.
Although the invention has been described with reference to the preferred embodiments in the attached figures, it is noted that equivalents may be employed and substitutions made herein without departing from the scope of the invention as recited in the claims.
Number | Date | Country | Kind |
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2003-096415 | Mar 2003 | JP | national |
Number | Date | Country |
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2584492 | Nov 1998 | JP |
Number | Date | Country | |
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20040187409 A1 | Sep 2004 | US |