JP2018150741A - Construction machine - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a construction machine in which it is possible to detach a hydraulic oil tank easily even when the tank contains hydraulic oil.SOLUTION: A bottom surface of a cartridge type hydraulic oil tank 18 is provided with a first mounting part 20 in the shape of a frustum that has a discharge port 20b for hydraulic oil. On a frame 11 side on which the hydraulic oil tank 18 is mounted, a second mounting part 25 in the shape of a frustum, which fits to the first mounting part 20 in a convex-concave manner, is provided. An opening-closing valve 22 biased in a direction of blocking the discharge port 20b is provided inside the first mounting part 20, and a connection cylindrical part 25a connected to the discharge port 20b is provided in the second mounting part 25. The opening-closing valve 22 is operated by the connection cylindrical part 25a so as to open the discharge port 20b while the first mounting part 20 and the second mounting part 25 are fitted to each other in the convex-concave manner.SELECTED DRAWING: Figure 4

Description

  The present invention relates to a construction machine in which a hydraulic oil tank that stores hydraulic oil supplied to a hydraulic pump is detachable.

  In general, a hydraulic excavator as a typical example of a construction machine is a self-propelled lower traveling body, an upper revolving body (structure) that is pivotably mounted on the lower traveling body, and a front side of the upper revolving body. And a work device attached to be rotatable. The upper swing body has a frame, and a driver's seat on which an operator sits is provided on the frame. The upper rotating body is equipped with an engine that drives a hydraulic pump. On the frame, a hydraulic oil tank that stores hydraulic oil supplied to the hydraulic pump, a fuel tank that stores fuel supplied to the engine, A battery or the like for storing energy is provided.

  This type of hydraulic excavator has a small hydraulic excavator called a mini excavator suitable for work in a narrow work site, and a hydraulic oil tank and a fuel tank with a relatively small capacity are provided on the upper swing body of such a hydraulic excavator. It has been.

  In such a hydraulic excavator, for example, as one of maintenance operations, there is a case where an operation of cleaning sand, dust, or the like that has entered the hydraulic oil tank or the fuel tank is performed. At that time, in order to make it possible to remove the hydraulic oil tank or the fuel tank alone, the hydraulic oil tank is formed with a height dimension larger than that of the fuel tank, and the hydraulic oil tank and the fuel tank are placed on the frame. There has been proposed a configuration in which a battery is attached to a bracket that is disposed adjacent to the hydraulic oil tank so as to be positioned above the fuel tank (see, for example, Patent Document 1).

  In the hydraulic excavator described in Patent Document 1, when removing the hydraulic oil tank from the frame, if the bracket is removed from the hydraulic oil tank together with the battery, and the battery and the bracket are placed on a fuel tank or the like, The hydraulic oil tank can be removed or attached as a single item while the electrical wiring connected to the battery remains unchanged. In addition, when removing the fuel tank from the frame, the battery attached to the hydraulic oil tank has no attachment relationship with the fuel tank, so that the fuel tank can be detached or attached as a single item.

JP 2005-41316 A

  Since hydraulic excavators are often used in harsh work sites where fine sand or dust flies, foreign matter that enters from the sliding parts of the hydraulic cylinder, which is a component of the work equipment, may enter the hydraulic oil. Depending on the type of foreign matter, there is a risk of malfunction of hydraulic equipment. Therefore, it is desired to analyze the components of the hydraulic oil stored in the hydraulic oil tank periodically or at an appropriate timing.

  Here, although the prior art described in Patent Document 1 is designed so that the hydraulic oil tank can be attached and detached as a single item, the hydraulic oil tank can be attached and detached while the hydraulic oil remains in the hydraulic oil tank. The point that the oil tank is of a cartridge type is not disclosed. For this reason, when analyzing the component of the hydraulic oil stored in the hydraulic oil tank, the required amount of hydraulic oil is removed from the oil supply port provided on the top surface of the hydraulic oil tank with the hydraulic oil tank attached to the frame. It must be taken out and transferred to the sample container, and it must be transported to the inspection site before analysis of the components. During the transfer, foreign matter is mixed into the sample hydraulic fluid, or it is activated to increase the number of samples. There are problems such as the need to take out oil multiple times.

  As an example of a cartridge-type hydraulic oil tank, a coupling that can open and close the hydraulic oil discharge port is provided inside the bottom surface of the hydraulic oil tank, and when the hydraulic oil tank is installed by an on-off valve built into this coupling, A configuration is conceivable in which the discharge port is opened and the discharge port is automatically closed when the hydraulic oil tank is removed. However, when such a coupling is attached inside the bottom surface of the hydraulic oil tank, there is a problem that vibration due to the operation of the hydraulic excavator acts on the coupling when the hydraulic oil tank is installed, and the coupling is damaged by the vibration. To do.

  The present invention has been made to solve the above-described problems, and an object of the present invention is to provide a construction machine in which a hydraulic oil tank can be easily attached and detached while the hydraulic oil is contained.

  In order to achieve the above-mentioned object, a typical present invention is configured such that an engine for driving a hydraulic pump is mounted on a structure body (such as a swivel body) to which a working device is attached and is supplied to the hydraulic pump. In a construction machine in which a hydraulic oil tank for storing hydraulic oil is detachable from a frame of the structure, a frustum-shaped first mounting portion having a hydraulic oil discharge port is provided on a bottom surface of the hydraulic oil tank. The frame is provided with a frustum-shaped second mounting portion that fits unevenly with the first mounting portion, and is attached to the inside of the first mounting portion in a direction to close the discharge port. A biased on-off valve is provided, and the second mounting portion is provided with a connecting cylinder portion connected to the discharge port, and the first mounting portion and the first mounting portion are concavo-convexly fitted. When the open / close valve is in the connected state, It is characterized in that it opens the discharge port is operated by part.

  According to the present invention, the hydraulic oil tank can be easily attached and detached while the hydraulic oil is contained. Problems, configurations, and effects other than those described above will be clarified by the following description of embodiments.

1 is a side view of a hydraulic excavator according to an embodiment of the present invention. The top view which shows the upper turning body of the state which removed the cab etc. FIG. FIG. 3 is a perspective view corresponding to FIG. 2. The principal part sectional drawing which shows the attachment state of a hydraulic-oil tank. Explanatory drawing which shows the attachment or detachment operation | movement of a hydraulic oil tank.

  Hereinafter, as a construction machine according to an embodiment of the present invention, a case where the present invention is applied to a small hydraulic excavator will be described as an example and described in detail based on the drawings.

  FIG. 1 is a side view of a hydraulic excavator according to an embodiment of the present invention. As shown in FIG. 1, a hydraulic excavator 1 that is a typical example of a construction machine includes a crawler type self-propelled lower traveling body 2, an upper revolving body 3 that is rotatably mounted on the lower traveling body 2, And a working device 4 attached to the front side of the upper swing body 3 so as to be able to be raised and lowered. The upper swing body 3 is formed in a substantially circular shape substantially equal to the vehicle width of the lower traveling body 2. As a result, the hydraulic excavator 1 is configured as a small rear turning type hydraulic excavator whose rear side is substantially within the vehicle width of the lower traveling body 2 when the upper revolving body 3 is turned.

  The work device 4 includes a boom 5 that is rotatably attached to the upper swing body 3, an arm 6 that is rotatably attached to the distal end portion of the boom 5, and a pivotally attached to the distal end portion of the arm 6. Bucket 7, boom cylinder 8 provided between upper swing body 3 and boom 5, arm cylinder 9 provided between boom 5 and arm 6, and between arm 6 and bucket 7. It is comprised by the provided bucket cylinder 10 grade | etc., And the boom 5, the arm 6, and the bucket 7 operate | move when the corresponding cylinders 8-10 expand or contract.

  Next, the configuration of the upper swing body 3 will be described with reference to FIGS. The upper swing body 3 has a frame 11 constituting a base, and a driver's seat 12 provided on the frame 11 is covered with a box-shaped cab 13. An engine 14 is mounted on the rear side of the frame 11, and a hydraulic pump 15 driven by the engine 14 is disposed on one end side of the engine 14. A heat exchanger 16 such as a radiator or an oil cooler is disposed on the other end side of the engine 14. Further, a control valve 17 is mounted on the front side of the frame 11, and this control valve 17 is connected to various operation levers (not shown), a hydraulic pump 15, a hydraulic oil tank 18, and the like.

  The hydraulic oil tank 18 is mounted on the frame 11 on the right side of the driver's seat 12, and the hydraulic oil supplied to the hydraulic pump 15 is stored in the hydraulic oil tank 18. As will be described in detail later, the hydraulic oil tank 18 is configured as a cartridge type that can be attached to and detached from the frame 11. A fuel tank 19 is mounted on the frame 11 adjacent to the front side of the hydraulic oil tank 18, and fuel to be supplied to the engine 14 is stored in the fuel tank 19.

  FIG. 4 is a cross-sectional view of the main part showing the mounting state of the hydraulic oil tank 18. As shown in FIG. 4, the first mounting part 20 that is recessed in a frustum shape toward the inside on the bottom surface of the hydraulic oil tank 18. A hydraulic oil discharge port 20b is formed in the connecting cylinder portion 20a that hangs down from the top surface of the first mounting portion 20. A coupling 21 is fixed inside the top surface of the first mounting portion 20 by welding or the like, and an opening / closing valve 22 and a spring 23 are accommodated in the coupling 21. The on-off valve 22 is biased in a direction to close the discharge port 20b by receiving the elastic force of the spring 23, and a sealing O-ring 24 is provided on the lower surface of the on-off valve 22 and the inner peripheral surface of the connecting cylinder portion 20a. It is attached.

  On the other hand, the frame 11 is provided with a second mounting portion 25 that protrudes upward in the shape of a frustum, and a connecting cylinder portion 25 a is projected on the top surface of the second mounting portion 25. The connecting tube portion 25a is inserted into the connecting tube portion 20a of the first mounting portion 20 and communicates with the discharge port 20b. In this communication state, the connecting tube portion 25a resists the resilience of the spring 23 against the spring 23. Therefore, the on-off valve 22 keeps the discharge port 20b open. Although not shown in the drawing, a plurality of flow holes for flowing hydraulic oil are formed in the case wall surface of the coupling 21 and the upper portion of the connecting cylinder portion 25a.

  A filter 26 is disposed inside the second mounting portion 25 so that the hydraulic oil discharged from the hydraulic oil tank 18 is filtered by the filter 26 and then supplied to the hydraulic pump 15 through the pipe 27. It has become.

  Here, the 1st attaching part 20 and the 2nd attaching part 25 are formed in the frustum shape by which an uneven | corrugated fitting is carried out, and it is possible to employ | adopt a frustum shape or a truncated pyramid shape as the frustum shape. For example, when the first mounting portion 20 has a concave frustoconical shape, the second mounting portion 25 may have a convex frustoconical shape that matches that, and the first mounting portion 20 has a concave pyramid shape. In this case, the second mounting portion 25 may be formed into a convex truncated pyramid shape that matches it. When the first mounting portion 20 and the second mounting portion 25 are in the shape of a truncated pyramid (such as a quadrangular pyramid or a pentagonal pyramid), when the first mounting portion 20 and the second mounting portion 25 are concavo-convexly fitted, The movement of the hydraulic oil tank 18 in the rotational direction can be restricted by the engagement of the cone surfaces.

  The hydraulic excavator 1 according to the present embodiment is configured as described above. Hereinafter, the attaching / detaching operation of the hydraulic oil tank 18 will be described with reference to FIG.

  FIG. 5A shows an attachment state in which the hydraulic oil tank 18 is mounted on the frame 11, and in this attachment state, the first attachment portion 20 provided on the bottom surface of the hydraulic oil tank 18 includes the frame 11. The second mounting portion 25 provided on the side is positioned by being unevenly fitted. In addition, the connecting cylinder portion 25 a protruding from the second attachment portion 25 is inserted into the connection cylinder portion 20 a of the first attachment portion 20 and communicates with the discharge port 20 b, and the connection cylinder portion 25 a is connected to the on-off valve 22. Is pushed up against the resilience of the spring 23, the on-off valve 22 keeps the discharge port 20b open. Thereby, even if the vibration accompanying operation | movement of the hydraulic shovel 1 generate | occur | produces, the vibration will be received by the uneven | corrugated fitting of the 1st attachment part 20 and the 2nd attachment part 25, and the coupling 21 will be damaged by vibration. Can be prevented.

  When the hydraulic oil tank 18 is removed from the frame 11, when the hydraulic oil tank 18 is lifted with the hydraulic oil contained, as shown in FIG. 5B, the connecting cylinder portion 25 a that has pushed up the on-off valve 22 is connected. In order to move to the lower side of 20a, the on-off valve 22 receives the elastic force of the spring 23 and moves to a position where it contacts the top surface of the first mounting portion 20. Therefore, the discharge port 20b of the hydraulic oil tank 18 is automatically closed by the on-off valve 22 at this time, so that the first mounting portion 20 is separated from the second mounting portion 25 as shown in FIG. However, the hydraulic oil does not leak from the hydraulic oil tank 18.

  Since the hydraulic oil tank 18 can be removed while the hydraulic oil is contained in this way, even when the component analysis of the hydraulic oil stored in the hydraulic oil tank 18 is performed, high-precision analysis is not affected by the external environment. It can be performed. Further, since the hydraulic oil can be exchanged for each hydraulic oil tank 18, it is possible to prevent impurities from being mixed when the hydraulic oil is exchanged.

  In addition, when attaching the hydraulic oil tank 18 to the flame | frame 11, the operation | movement contrary to the above is performed. That is, when the hydraulic oil tank 18 containing the hydraulic oil is lowered from above the second mounting portion 25, the first mounting portion 20 is moved as shown in FIGS. 5 (c) to 5 (b). In the process of engaging with the second mounting portion 25, the connecting tube portion 25a inserted into the connecting tube portion 20a comes into contact with the lower surface of the on-off valve 22, and as shown in FIG. When the portion 20 and the second mounting portion 25 are concavo-convexly fitted, the connecting tube portion 25a raises the on-off valve 22 to open the discharge port 20b.

  As described above, according to the present embodiment, the frustum-shaped first mounting portion 20 having the hydraulic oil discharge port 20b is provided on the bottom surface of the hydraulic oil tank 18, and the first on the frame 11 side. A frustum-shaped second mounting portion 25 is provided that fits the mounting portion 20 in a concave-convex manner. Inside the first mounting portion 20, an on-off valve 22 that is biased in a direction to close the discharge port 20b is provided. The second mounting portion 25 is provided with a connecting cylinder portion 25a connected to the discharge port 20b. When the first mounting portion 20 and the second mounting portion 25 are in a state of being concavo-convexly fitted, the on-off valve 22 is connected. Since the discharge port 20b is opened by being operated by the cylinder portion 25a, the hydraulic oil tank 18 can be easily attached and detached while the hydraulic oil is contained, and the hydraulic oil stored in the hydraulic oil tank 18 is stored. The component analysis can be performed with high accuracy.

  In the present embodiment, the first mounting portion 20 is formed in a truncated cone shape that is recessed inward from the bottom surface of the hydraulic oil tank 18, and the second mounting portion 25 is directed upward from the frame 11. It is formed in a protruding frustum shape, and the joint part of the connecting cylinder part 20a and the connecting cylinder part 25a is located above the mounting surface of the hydraulic oil tank 18, so that foreign matters such as dust enter from the joint part. Can be prevented. Moreover, the hydraulic oil filter 26 can be arranged by utilizing the internal space of the second mounting portion 25 protruding upward.

  However, the concavo-convex relationship between the first mounting portion 20 and the second mounting portion 25 may be the reverse of the above embodiment, and specifically, the first mounting portion 20 is directed downward from the bottom surface of the hydraulic oil tank 18. It is also possible to form a protruding frustum shape, and to form the second mounting portion 25 in a frustum shape that is recessed inward from the frame 11.

  In addition, embodiment mentioned above is an illustration for description of this invention, and is not the meaning which limits the scope of the present invention only to those embodiment. Those skilled in the art can implement the present invention in various other modes without departing from the gist of the present invention. The present invention may be applied to a construction machine other than a hydraulic excavator, such as a wheel loader. In this case, an engine and a hydraulic oil tank may be mounted on, for example, a chassis (structure) of the wheel loader.

1 Hydraulic excavator 2 Lower traveling body 3 Upper swing body (structure)
DESCRIPTION OF SYMBOLS 4 Work apparatus 5 Boom 6 Arm 7 Bucket 8 Boom cylinder 9 Arm cylinder 10 Bucket cylinder 11 Frame 14 Engine 15 Hydraulic pump 18 Hydraulic oil tank 19 Fuel tank 20 First attachment part 20a Connection cylinder part 20b Discharge port 21 Coupling 22 On-off valve 23 Spring 24 O-ring 25 Second mounting part 25a Connecting cylinder part 26 Filter 27 Piping

Claims (4)

An engine for driving the hydraulic pump is mounted on the structure to which the working device is attached, and a hydraulic oil tank for storing hydraulic oil to be supplied to the hydraulic pump is detachable from the frame of the structure. Construction machinery,
A frustum-shaped first mounting portion having a hydraulic oil discharge port is provided on the bottom surface of the hydraulic oil tank, and a frustum-shaped second mounting portion that is concavo-convexly fitted to the first mounting portion on the frame. Is provided,
An opening / closing valve biased in a direction to close the discharge port is provided inside the first mounting portion, and a connecting cylinder portion connected to the discharge port is provided in the second mounting portion. And
A construction machine characterized in that, when the first mounting portion and the first mounting portion are in a state where the first mounting portion and the first mounting portion are in a concavo-convex manner, the on-off valve is operated by the connecting cylinder portion to open the discharge port.   2. The construction machine according to claim 1, wherein the first mounting portion is formed in a frustum shape that is recessed inward from the bottom surface of the hydraulic oil tank, and the second mounting portion is located above the frame. Construction machine characterized in that it is formed in a frustum shape protruding toward the surface.   The construction machine according to claim 2, wherein a hydraulic oil filter is accommodated in the second mounting portion.   The construction machine according to any one of claims 1 to 3, wherein each of the first attachment portion and the first attachment portion is formed in a truncated pyramid shape.