JP4142625B2 - Main body structure of turning work vehicle - Google Patents

Description

  The present invention relates to a main body structure of a turning work vehicle, and more particularly to a main body frame that is turnably mounted on a crawler traveling device, and a swing cylinder peripheral structure that is a swinging actuator inside the main body frame.

  2. Description of the Related Art Conventionally, a swing that is a left-right swinging actuator for swinging a boom left and right is provided in a main body frame of a turning work vehicle, and has a base end connected to a boom bracket at a front end of the main body frame. A cylinder is provided. This arrangement position is arranged on either the left or right side in a plan view, and both the fuel tank and the hydraulic oil tank are arranged using the upper space. The state in which both the containers are provided is disclosed in, for example, Japanese Patent Application Laid-Open No. 7-189298, and as can be seen from FIG. 10, the lower swing cylinder SC crosses at least one container in plan view. In the rocking outer limit position, the shape crosses the lower part of both containers.

Further, as a method of increasing the capacity of the fuel tank in a limited space, for example, as disclosed in JP-A-7-186742, the tank is expanded below the seat or behind the seat. The tank disposed above the swing cylinder is conventionally supported by a bracket projecting above the swing cylinder. However, this bracket does not cover the entire range of swinging of the swing cylinder. Further, the plan view shape of the main body frame in a small turning work vehicle designed so that the rear portion of the main body portion does not protrude outside the crawler in the entire turning range has conventionally been circular as shown in FIG.
JP-A-7-189298 JP-A-7-186742

  The present invention relates to an improvement in the shape of a container such as a fuel tank and a bracket structure in order to provide a turning work vehicle capable of small turning. In the main body structure of the above-described conventional turning work vehicle, first, as the container arrangement structure above the swing cylinder, it is necessary to secure a swinging space for the swing cylinder below both containers. It will be limited. In order to increase the capacity in a limited space in the main body frame, the shape of the fuel tank must be complicated, as in JP-A-7-186742, and the processing and assembling processes are complicated and costly. It also takes.

  Also, since the tank support bracket disposed above the swing cylinder has a problem in strength if it is disposed so as to cover the entire range of swinging of the swing cylinder, it covers up to the middle of the swinging range of the left and right. The amount of protrusion is about. In order to cover this, it is necessary to have a structure in which the tank supported by the bracket protrudes downward outside the swing range of the swing cylinder and is fixed to the main body frame. In the state where it is directly attached to the frame, the impact applied to the main body frame is received and there is a problem in protecting the tank.

  The body frame, which is conventionally applied to a small turning work vehicle so that the rear part does not protrude outside the crawler during turning, has a circular shape in plan view, which is convenient for processing. , The center of gravity tends to lean forward. If the curvature of the front outer surface is increased and the shape is narrower than the rear, the area will be smaller, the center of gravity will be closer to the rear, and the balance will be better, but the fuel tank capacity will be arranged in the horizontal direction. In the present situation secured by enlarging the size, it was difficult to make such a shape.

The present invention uses the following means in order to solve the above problems.
A swing cylinder (SC), which is a swinging actuator, and two containers, a fuel tank (2) and a hydraulic oil tank (3), are arranged in a body frame (1) having a circular rear part. In the structure of the main body of the turning work vehicle provided, a swing cylinder (SC) is provided in the main body frame (1) below the right bonnet (8) mounting portion so as to be swingable left and right. The cylinder (SC) swings left and right between a right swing limit position (R) and a left swing limit position (L), and the operation is performed above the left and right swing space of the swing cylinder (SC). An oil tank (3) is disposed, a fuel tank (2) is disposed adjacent to the right side of the hydraulic oil tank (3), and an adjacent side surface of the fuel tank (2) to the hydraulic oil tank (3) Is the swing limit position of the swing cylinder (SC) to the right The hydraulic oil tank bracket (4) is straddled from the main body frame (1) so as to form a swinging space of the swing cylinder (SC). The hydraulic oil tank (3) is fixed on the bracket (4), and the front part shape of the main body frame (1) is inward of the extension line (X / X) in the plan view circular shape in the rear part in plan view. It has a narrowed shape .

Since the present invention is configured as described above, the following effects can be obtained.
In the conventional example shown in FIG. 10, the bottom surface of the fuel tank 2 ′ is arranged at a constant height as shown in FIG. 11 in order to secure a swinging space of the swing cylinder SC. The upper part is covered with a bonnet and cannot be expanded. Therefore, the capacity had to be expanded in the horizontal direction, but if the fuel tank 2 according to the present invention shown in FIG. 4 is arranged with respect to the swing cylinder SC, the capacity can be expanded downward as shown in FIG. It is also possible to reduce the installation space in the horizontal direction of the fuel tank.
And suppression of the horizontal arrangement space of the fuel tank can reduce the horizontal area of the main body frame 1. Therefore, using this, as shown in FIG. 4, the front portion of the main body frame 1 has a shape constricted inwardly with respect to the extension line X · X having a circular shape in the plan view in the rear portion in plan view. This means that the weight of the main body frame 1 and each member installed in the body frame 1 is applied to the rear part as compared to the front part.
In the present invention, for example, the capacity of the container (for example, fuel tank) can be expanded in the vertical direction, and the space for arranging the container in the horizontal direction can be suppressed. Can be lumped.
Conventionally, a turning work vehicle having a main body part having a circular shape at the rear part with a small turn has been problematic in that the center of gravity is shifted forward and the balance of the center of gravity in the front and rear is lost. Since the front part is lighter than the rear part, it is lighter than the rear part, so that the center of gravity hangs behind the main body part, and the rear part of the main body frame is circular so that it can be turned slightly. Can provide a car.

  An excavation work vehicle according to an embodiment of the present invention will be described with reference to the accompanying drawings. 1 is a front view of an excavation work vehicle, FIG. 2 is a left side view, FIG. 3 is a plan view, FIG. 4 is an internal plan view of a main body according to the present invention, and FIG. 5 is a fuel tank 2 and a hydraulic oil tank 3. FIG. 6 is a rear view showing the support structure of the hydraulic oil tank 3, and FIG. 7 is a rear view showing the arrangement structure of the battery 6 and the take-out guide 7 in the main body. 8 is a side view of the boom cylinder C1, (a) is a front view of the base end of the boom cylinder C1, FIG. 9 is an internal plan view of a conventional main body, and FIG. 10 is a conventional fuel tank 2 ′ and hydraulic oil tank 3; FIG. 11 is a schematic front view, FIG. 12 is a plan view showing a support structure of a conventional hydraulic oil tank 3 ′, and FIG. 13 is a rear view.

  A schematic overall configuration of a turning work vehicle according to the present invention will be described. The present invention relates to a structure of a main body of a turning work vehicle. The main body is provided on a main body frame 1 rotatably disposed on a crawler traveling device 10 having crawlers 10a and 10a on the left and right. 9, and the engine room extends from the body frame 1 to the hood 8. In addition, since it is of a type that is small to some extent and capable of small turning, when the main body part is turned left or right, the main body part (particularly the rear part) does not protrude outward from the left and right crawlers 10a and 10a. As shown in plan view 3, the rear portion of the main body frame 1 has a circular shape, and its maximum diameter is smaller than the crawler width of the crawlers 10 a and 10 a.

  From the front end of the main body frame 1, the work arm support portion 1 a protrudes forward, and a boom bracket 11 is pivotally supported at the front end so as to be horizontally rotatable, and supports the work arm including the boom 12, the arm 13, and the bucket 14. Yes. The entire working arm can be swung left and right by the rotation of the boom bracket 11, but the piston rod tip of a hydraulically driven swing cylinder SC having a base end in the main body frame 1 is used as the actuator. The boom bracket 11 is pivotally connected to a cylinder bracket portion 11a that protrudes horizontally. The boom bracket SC swings the boom bracket 11 left and right by extending and contracting the piston rod. In addition, the boom 12, the arm 13, and the bucket 14 in the working arm are each provided with a hydraulically driven boom cylinder C1, an arm cylinder C2, and a bucket cylinder C3 as actuators.

  Of these, the grease nipple at the base end of the boom cylinder C1 will be described with reference to FIG. Each of the hydraulic cylinders C1 to C3 of the working arm and the swing cylinder SC have a pivot portion at the base end and the tip of the piston rod, and therefore, a grease nipple for grease compensation is provided. Conventionally, at any position, it protrudes like the grease nipple 15 at the tip of the piston rod of the boom cylinder C1 in FIG. 8, but the grease nipple at the base end of the boom cylinder C1 protrudes in this way. In particular, the grease nipple protrudes outside the crawler 10a when turning left and right, and may interfere with the outside, which is a problem for a turning work vehicle characterized by a small turning. Therefore, in this embodiment, as shown in FIG. 8, at the base end of the boom cylinder C1, a notch portion 16 is provided inside, and the grill nipple 15 is provided therein.

The main body structure will be described with reference to FIGS. The main body frame 1 has a circular rear portion as described above, and a swing cylinder SC is provided inside the main body frame 1 below the right bonnet 8 mounting portion so as to be swingable left and right. In FIG. 4, R indicates a rightward swing limit position, and L indicates a leftward swing limit position. A hydraulic oil tank 3 is disposed above the left and right swing space of the swing cylinder SC, and a fuel tank 2 is disposed adjacent to the right side of the hydraulic oil tank 3. Both the hydraulic oil tank 3 and the fuel tank 2 are covered with a bonnet 8.

  As shown in FIG. 4, the side surface of the fuel tank 2 adjacent to the hydraulic oil tank 3 is along the right side surface of the swing cylinder SC at the rightward swing limit position, that is, it interferes with the swing cylinder SC. It is arranged at a position that is not. In order to avoid complication of the bottom surface shape of the fuel tank 2, the horizontal direction is thus set to a position along the right side surface of the swing cylinder SC at the right swing limit position. Since there is no interference, the lower end portion is extended to the bottom surface of the main body frame 1 as shown in FIG. As a support structure, as shown in FIG. 4, a horizontal mounting portion 2 a is integrally protruded from the front end of the fuel tank 2 by resin molding and screwed to the upper surface portion of the front end of the main body frame 1. A horizontal mounting portion 2b is projected from the rear end of the lower end integrally with the fuel tank 2 by resin molding, and is directly fastened to the bottom of the main body frame 1 with bolts.

Here, the positional relationship between the conventional swing cylinder and the fuel tank will be described. In the conventional example shown in FIG. 10, the bottom surface of the fuel tank 2 ′ is arranged at a constant height as shown in FIG. 11 in order to secure a swinging space of the swing cylinder SC. (The upper part is covered with a bonnet and cannot be expanded.) Therefore, the capacity has to be expanded in the horizontal direction. However, the arrangement of the fuel tank 2 according to the present invention shown in FIG. Then, as shown in FIG. 5, the capacity can be expanded downward, and the horizontal arrangement space of the fuel tank can be suppressed.

  And suppression of the horizontal arrangement space of the fuel tank can reduce the horizontal area of the main body frame 1. Therefore, using this, as shown in FIG. 4, the front portion of the main body frame 1 has a shape constricted inwardly with respect to the extension line X · X having a circular shape in the plan view in the rear portion in plan view. This means that the weight of the main body frame 1 and each member installed in the body frame 1 is applied to the rear part as compared to the front part.

  As shown in FIG. 9, in the conventional main body frame 1 'having a substantially circumferential shape from the front to the rear in plan view, the weight applied to the front is not so light as compared to that applied to the rear. . This is because the weight of the rear portion itself is reduced because the rear portion of the main body frame 1 has a substantially circular shape in plan view so as not to bulge backward in order to make a small turn. In this turning work vehicle having a small turning adaptive type main body, the work arm is supported at the front end of the main body frame 1, so that the center of gravity hangs forward and the balance between the front and rear centers of gravity is poor. there were.

In the main body structure according to the present invention, since the horizontal arrangement space of the fuel tank 2 is reduced as described above, the horizontal area of the front portion of the main body frame 1 is reduced, and the weight of the front portion is reduced. Therefore, the center of gravity of the main body part is applied to the rear, so that the front-rear center of gravity balance is improved. In addition, the front portion of the narrow body frame 1 is a turning work vehicle having a conventional substantially circular body frame 1 ′, and a body frame molding die that is smaller than the model of this embodiment is used. If it is used, it can be molded easily and there is no need to prepare a special mold.

  Alternatively, the crawler traveling device 10 that can change the crawler width of the left and right crawlers 10a and 10a at the same time as reducing the left and right width of the main body frame 1 by using the reduction in the horizontal arrangement space of the fuel tank 2 is used. Thus, for example, when the road width is such that the turning work vehicle cannot pass with the original crawler belt width, the crawler belt width can be reduced to allow passage. That is, the left and right widths of the main body frame 1 are made considerably shorter than the original crawler belt width so that the crawler travel device 10 can cope with the crawler belt width reduction operation.

  Next, the configuration and arrangement structure of the hydraulic oil tank 3 will be described. As shown in FIG. 4, a horizontal mounting portion 3 a is integrally projected at the front end of the hydraulic oil tank 3 by resin molding, and is screwed to the upper surface portion of the front end of the main body frame 1. On the other hand, immediately after the rear end of the hydraulic oil tank 3, as shown in FIGS. 4 and 6, the hydraulic oil tank bracket 4 straddling the swinging space of the swing cylinder SC is disposed. A mounting portion 3b that protrudes integrally from the rear end of the lower end of the hydraulic oil tank 3 by resin molding is screwed.

  Here, as shown in FIGS. 12 and 13, the bottom surface of the conventional hydraulic oil tank 3 ′ is partly attached to the bottom surface of the main body frame 1 ′ and partly higher than the swing space of the swing cylinder SC. It has become a two-stage shape. In that respect, in the embodiment according to the present invention, as shown in FIG. 6, the entire bottom surface has a horizontal surface, which is easy to process, and since there is no portion to be directly attached to the bottom surface of the main body frame 1, The problem that the generated vibration propagates directly to the hydraulic oil tank 3 can be solved.

  Further, in the conventional support structure for the hydraulic oil tank 3 ′, as shown in FIG. 9, the hydraulic oil tank bracket portion 5′a is formed on a part of the cover plate 5 ′ that covers the upper surface of the work arm support portion 3′a. A part of the hydraulic oil tank 3 'is screwed to this as shown in FIGS. Since the strength of the hydraulic oil tank bracket portion 5 ′ a deteriorates if it extends too much, it can be extended only to the middle part of the left and right swing region of the swing cylinder SC. Therefore, the conventional hydraulic oil tank 3 ′ has had to extend the bottom surface outside the swing region of the swing cylinder SC downward and be screwed onto the main body frame 1 ′.

  In this regard, in the support structure for the hydraulic oil tank 3 according to the present invention, as shown in FIG. 4, the hydraulic oil tank bracket 4 is separate from the cover plate 5 that covers the upper surface of the work arm support portion 3a. The strength can be ensured even when the cylinder SC is extended so as to cover the entire lateral swing region of the cylinder SC, and the hydraulic oil tank 3 is screwed to the hydraulic oil tank bracket 4, so that the entire bottom surface is horizontal. It became possible to make it.

  The cover plate 5 is pasted on the vertical rib 1b projecting vertically upward from the bottom surface of the main body frame 1 (the conventional cover plate 5 'is also pasted on the vertical ribs 1'b and 1'b). However, the vertical rib 1b extends from the rear end of the cover plate 5 to the left of the swing limit of the left side of the swing cylinder SC, and below the hydraulic oil tank 3 and the hydraulic oil tank bracket 4. The hydraulic oil tank 3 and the movable oil tank bracket 4 are reinforced and supported from below.

  Finally, the take-out guide 7 for the battery 6 disposed in the main body frame 1 will be described. As shown in FIG. 4, the battery 6 is disposed along the inside of the side surface of the main body frame 2 and is covered with a bonnet 8. The bonnet 8 is formed with an opening 8a for taking out the battery and is usually covered with a cover. The opening 8a is located above the battery 6 installed at the bottom of the main body frame 2, and conventionally, the opening 8a is lifted by hand with a handle formed in the battery. However, when it comes to a large model, the battery becomes larger and it is difficult to lift it by hand.

  Therefore, in order to assist this lifting operation, as shown in FIGS. 4 and 7, an extraction guide 7 is erected along the outer surface of the battery 6 on the upper surface of the main body frame 2. When the battery 6 is taken out, as shown in FIG. 7, the battery 6 is tilted toward the opening 8a and put on the take-out guide 7. As a result, the weight applied to the hand holding the battery 6 is reduced, and then the battery 6 is taken out and put on the guide 7 while being slid and pulled upward.

  Containers that are not above the actuator will not interfere with the actuator at all. For this reason, this container can be extended vertically downward to increase the capacity. In a turning work vehicle, by applying this container to a fuel tank, the capacity of the fuel tank can be increased without expanding horizontally or complicating the shape. Also, by making the container support member straddle the actuator, the container supported by the support member does not need to be attached to the bottom of the main body frame according to the height attached to the support member, The entire bottom surface can be made horizontal to facilitate processing, and since the container is not directly supported by the main body frame, the container is not directly subjected to vibration generated in the main body frame, improving protection. To do.

It is a front view of an excavation work vehicle. Similarly, it is a left side view. It is also a plan view. It is an internal top view of the main-body part which concerns on this invention. 4 is a schematic front view showing the positional relationship between the fuel tank 2, the hydraulic oil tank 3, and the swing cylinder SC. 4 is a rear view showing a support structure of the hydraulic oil tank 3. FIG. It is a rear view which shows the arrangement structure of the battery 6 and the taking-out guide 7 in a main-body part. It is a side view of boom cylinder C1, (a) is a front view of boom cylinder C1 base end part. It is an internal top view of the conventional main-body part. It is a top view which shows the arrangement | positioning relationship between the conventional fuel tank 2 'and hydraulic oil tank 3', and the swing cylinder SC. Similarly, it is a schematic front view. It is a top view which shows the support structure of the conventional hydraulic oil tank 3 '. Similarly it is a rear view.

Explanation of symbols

SC Swing cylinder 1 Body frame 1b Vertical rib 2 Fuel tank 2a and 2b mounting part 3 Hydraulic oil tank 3a and 3b mounting part 4 Hydraulic oil tank bracket 5 Cover plate 6 Battery 7 Extraction guide 8 Bonnet

Claims (1)

A swing cylinder (SC), which is a swinging actuator, and two containers, a fuel tank (2) and a hydraulic oil tank (3), are arranged in a body frame (1) having a circular rear part. In the structure of the main body of the turning work vehicle provided, a swing cylinder (SC) is provided in the main body frame (1) below the right bonnet (8) mounting portion so as to be swingable left and right. The cylinder (SC) swings left and right between a right swing limit position (R) and a left swing limit position (L), and the operation is performed above the left and right swing space of the swing cylinder (SC). An oil tank (3) is disposed, a fuel tank (2) is disposed adjacent to the right side of the hydraulic oil tank (3), and an adjacent side surface of the fuel tank (2) to the hydraulic oil tank (3) Is the swing limit position of the swing cylinder (SC) to the right The hydraulic oil tank bracket (4) is straddled from the main body frame (1) so as to form a swinging space of the swing cylinder (SC). The hydraulic oil tank (3) is fixed on the bracket (4), and the front part shape of the main body frame (1) is inward of the extension line (X / X) in the plan view circular shape in the rear part in plan view. A main body structure of a turning work vehicle characterized by a narrow shape .

Images