JPH08128066A - Mounting structure of dozer lifting hydraulic cylinder in back hoe - Google Patents

Abstract

PURPOSE: To provide this mounting structure that is able to make a hydraulic hose be hard to hitch on other things in time of operations, and also to prevent any trouble in a dozer lifting hydraulic cylinder due to covering earth and sand or the like over the exposed part of a piston rod, besides improving the extent of operability. CONSTITUTION: Both ends of a dozer lifting hydraulic cylinder 31 are pivotally connected each to both sides for a machine frame 2 and a support arm 29 supporting a dozer 11 free of vertical rocking motion in a state of having the one end pivotally connected to this machine frame 2. A tip part of a piston rod 34 of this cylinder 31 is pivotally connected to the side of the support arm 29 and a base end of a cylinder tube 33 to the side of the machine frame 2, respectively. In addition, a protective cover 35 protecting an exposed part of the piston rod 34 is installed there.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hydraulic cylinder for raising and lowering a dozer on a machine base side and a support arm side which supports a dozer so that the dozer can swing up and down with one end portion pivotally connected to the machine base. The present invention relates to a mounting structure for a hydraulic cylinder for raising and lowering a dozer in a backhoe whose both ends are pivotally connected to each other.

[0002]

2. Description of the Related Art Conventionally, in the mounting structure of the hydraulic cylinder for raising and lowering the dozer in the above backhoe, the base end of the cylinder tube of the hydraulic cylinder for raising and lowering the dozer is on the support arm side, and the tip of the piston rod is on the machine base side. They were connected to each other pivotally. According to this configuration, the cylinder tube is largely displaced in the front-rear direction as the piston rod is extended and driven, so that the hydraulic hose extending from the cylinder tube to the machine base side has a large slack that can cope with the displacement. Had.

[0003]

However, in the structure in which the hydraulic hose extending from the cylinder tube to the machine base side has a large slack as described above, it is easy to catch the hydraulic hose on another object during work. .

An object of the present invention is to provide a hydraulic cylinder for raising and lowering a dozer in a backhoe, which can improve workability by making it difficult for the hydraulic hose extending from the cylinder tube to the machine base side to be caught by another object during work. To provide a mounting structure.

[0005]

A feature of the present invention is that a tip end portion of a piston rod of a dozer lifting hydraulic cylinder is pivotally connected to a support arm side, and a cylinder tube base end portion is pivotally connected to the machine base side. A protective cover for protecting the exposed portion of the piston rod is provided.

[0006]

The tip of the piston rod of the hydraulic cylinder for raising and lowering the dozer is pivotally connected to the support arm side, and the base end of the cylinder tube is pivotally connected to the machine base side. Therefore, the cylinder tube is used to drive the extension of the piston rod. Although it swings up and down with it, it is hardly displaced in the front-back direction. Therefore, the hydraulic hose extending from the cylinder tube to the machine base needs only to have a slight slack enough to cope with the above-mentioned vertical swing, and it is possible to prevent the hydraulic hose from being caught on other objects during work. it can.

Since the piston rod is provided with a protective cover for protecting the exposed portion, the exposed portion of the piston rod becomes closer to the earth and sand side by the above arrangement of the hydraulic cylinder for raising and lowering the dozer. Nevertheless, it is possible to avoid soil and the like from being applied to the exposed portion, and it is possible to prevent damage to the hydraulic cylinder for lifting and lowering the dozer due to the application of the earth and sand and the like.

[0008]

Therefore, it is possible to prevent the hydraulic hose from being caught on another object at the time of working, and it is possible to prevent the hydraulic cylinder for lifting and lowering the dozer from being damaged due to dirt and the like on the exposed portion of the piston rod. It was possible to provide a mounting structure for a hydraulic cylinder for raising and lowering a dozer on a backhoe that can improve workability.

[0009]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 shows a backhoe as an example of a work vehicle. This backhoe is provided with a swivel base 3 on a machine base 2 supporting a pair of left and right crawler traveling devices 1 so that the swivel base 3 can swivel around a vertical axis X, and the swivel base 3 includes a control unit 4, a driving unit 5, and a lateral unit. A backhoe device 6 capable of swinging is mounted and equipped, and the machine base 2 is provided with a dozer 11.

As shown in FIG. 2, a support frame 7 made of a square pipe frame is provided on the machine base 2 so as to be connected in a pair in the front-rear direction with its longitudinal direction along the left-right direction.
On the other hand, the track frame 8 of the left crawler traveling device 1
In this case, the square pipes are provided at the front and rear two positions of the track frame 8 so as to face the inside of the fuselage to form the lateral frames 9, respectively. And the tip of those square pipes,
The support frame 7 is fitted into the support frame 7 and slidably supports the support frame 7 in the lateral direction. Also on the track frame 8 of the crawler traveling device 1 on the right side, the square pipes are projected toward the front and rear of the track frame 8 toward the inside of the machine,
Each of them constitutes a lateral frame 9, and the end portions of the square pipes are fitted to the support frame 7 and supported slidably in the lateral direction with the support frame 7.

A double-acting left traveling device driving hydraulic cylinder 10 and a right traveling device driving hydraulic cylinder 12 for changing and adjusting the distance between the left and right crawler traveling devices 1 are provided on the front and rear support frames 7. So that it runs horizontally between
The left and right crawler traveling devices 1 are separately provided, and the left and right crawler traveling devices 1 can be laterally moved independently of the machine base 2. Both ends of the left and right hydraulic cylinders 10 and 12 for driving the traveling device are pivotally connected to the truck frame 8 and the machine base 2, respectively.

As shown in FIG. 4, in the swivel base 3, when the left and right crawler traveling devices 1 are closest to the vertical axis X, the turning locus S of the outer peripheral surface of the swivel base 3 is left and right. The crawler traveling device 1 is configured so as to be substantially in contact with the left and right outer ends.

According to the above construction, the left and right crawler traveling devices 1 are independently movable laterally with respect to the machine base 2. Therefore, as shown in FIG. When excavating the soil near the side wall, only the crawler traveling device 1 on the wall W side is moved to the vertical axis X side without moving the crawler traveling device 1 on the side opposite to the wall W to the vertical axis X side. By exchanging the former, the excavation work can be performed with the former being further away from the vertical axis than the latter. in this case,
In a state where the left and right crawler traveling devices 1 are closest to the vertical axis X, the rotation locus S of the outer peripheral surface of the swivel base 3 is configured to be substantially in contact with the left and right outer ends of the left and right crawler traveling devices 1. Because of this (see FIG. 4), it is possible to reliably dig up to the end of the wall.

Since it is possible to excavate the edge of the wall with the distance between the left and right crawler traveling devices 1 widened,
Even when the swivel base 3 is swung to load the soil on the truck 25 stopped on the side opposite to the wall W and the backhoe device 6 is turned sideways, the balance of the airframe can be stabilized.

As shown in FIGS. 2, 6 (a) and 6 (b),
The dozer 11 includes a main dozer 17 and the main dozer 17
And a pair of left and right auxiliary dozers 18 provided at the left and right ends of the main dozer 17 so as to slide in and out in the lateral direction. Provide each separately along the
By moving the auxiliary dozer 18 out of the main dozer 17, the dozer 11 can be adjusted to have a width substantially equal to the lateral width of the pair of crawler traveling devices 1.

The auxiliary dozer 18 is superposed on the main dozer 17 from the back side. Then, the piston tip portions of the hydraulic cylinders 19 and 20 for driving the auxiliary dozer are connected to the auxiliary dozer 1
A rectangular pipe-shaped guide portion 27 attached to the rear side of the auxiliary dozer 18 while being connected to the overhanging edge portions on the left and right outer sides of the auxiliary dozer 18 and covering the auxiliary dozer driving hydraulic cylinders 19 and 20. Square guide pipe 28 on the back side of
It is slidably fitted inside.

The dozer 11 is constructed so as to be vertically swingable. Specifically, the dozer 11 is swingably supported by a pair of left and right support arms 29 whose one end is pivotally connected to the machine base 2. A hydraulic cylinder 31 for raising and lowering the dozer is attached to the base 2 and a frame 30 that connects the base ends of both support arms 29 to each other.
Both ends of each are pivotally connected separately. The hydraulic oil supply / discharge hydraulic hose 32 extends from the cylinder tube 33 to the machine base side.

The tip end of the piston rod 34 of the dozer lifting hydraulic cylinder 31 is pivotally connected to the frame 30 on the support arm 29 side, and the base end of the cylinder tube 33 is pivotally connected to the machine base 2 side. A protective cover 35 having an inverted U-shaped cross section for protecting the exposed portion of 34 is provided.

According to the above construction, the tip end of the piston rod 34 of the dozer lifting hydraulic cylinder 31 is pivotally connected to the support arm 29 side, and the base end of the cylinder tube 33 is pivotally connected to the machine base 2 side. From the cylinder tube 3
Although No. 3 swings up and down as the piston rod 34 is extended, it is hardly displaced in the front-back direction. Therefore, the hydraulic hose 32 extending from the cylinder tube 33 to the machine base 2 side does not have to have a large slack, and only needs to have a slight slack enough to cope with the above vertical swing. Moreover, it is possible to make it difficult for the hydraulic hose 32 to be caught on another object.

Since the piston rod 34 is provided with the protective cover 35 for protecting the exposed portion, the exposed portion of the piston rod 34 is located on the earth and sand side by the arrangement of the dozer lifting hydraulic cylinder 31 as described above. Despite the proximity, it is possible to avoid soil and the like from being applied to the exposed portion, and it is possible to prevent damage to the dozer lifting hydraulic cylinder 31 due to the application of soil and the like.

As shown in FIG. 3, a pair of pressure oil supply / discharge passages 13 and 14 of the left and right traveling device driving hydraulic cylinders 10 and 12 are respectively provided from the hydraulic pump of the prime mover of the swivel base 3 to the machine base 2. 16 for supplying and discharging pressure oil to the side
A control valve 23 that extends to the swivel base 3 side via the shaft to extend and retract the left and right traveling device drive hydraulic cylinders 10 and 12.
Connected to The pressure oil supply / discharge passage 13 on one side of the hydraulic cylinder 10 for driving the left traveling device and the pressure oil supply / exhaust passage 14 on one of the hydraulic cylinder 12 for driving the right traveling device are connected below the rotary joint 16. Then, they are made to enter the rotary joint 16 in the state of one oil passage. The operation valve 23 and the rotary joint 16 are connected to the other pressure oil supply / discharge passage 13 of the left traveling device driving hydraulic cylinder 10 and the other pressure oil supply / discharge passage 14 of the left traveling device driving hydraulic cylinder 12. The number of pipes for the rotary joint 16 of the pipe system to both hydraulic cylinders 10 and 12 is provided by providing a switching valve 22 between the two so that hydraulic oil from the pump can be selectively supplied to and discharged from both oil passages. The number is reduced to three, thereby suppressing the increase in size of the rotary joint 16.

The operation valve 23 is a three-position switching type,
An operating lever 24 is provided for the operating valve 23. The rotary joint 16 is provided with an oil passage (not shown) that is connected to a hydraulic motor for driving the left and right crawler traveling devices 1 and a motor operating portion on the swivel base 3.

Synchronous driving means 21 for synchronously driving the traveling device driving hydraulic cylinders and the auxiliary dozer driving hydraulic cylinders located on the same left and right sides is provided on either the left or right side. The synchronous drive means 21 connects the hydraulic oil supply / discharge port 25 for the left auxiliary dozer drive hydraulic cylinder 19 to the left travel device drive hydraulic cylinder 10.
The hydraulic fluid supply / discharge port 26 for the hydraulic cylinder 20 for driving the right auxiliary dozer is connected to the hydraulic cylinder 12 for driving the right traveling device.
Are provided for each of the above.

It should be noted that reference numerals are added to the claims for convenience of comparison with the drawings, but the present invention is not limited to the configurations of the accompanying drawings by the entry.

[Brief description of drawings]

FIG. 1 is an overall side view showing a backhoe.

FIG. 2 is a partially cutaway plan view showing a crawler traveling device and its support structure.

FIG. 3 is a circuit diagram showing a hydraulic circuit in a traveling section of the backhoe.

FIG. 4 is an overall plan view of the backhoe with the widths of the left and right crawler traveling devices reduced.

FIG. 5 is an overall plan view of the backhoe with only one crawler traveling device separated from the center of the machine body.

[FIG. 6] (a) Partially cut side surface part around the dozer in the grounded state (b) Side surface part around the dozer in a state separated from the ground

[Explanation of symbols]

 2 Machine stand 11 Dozer 29 Support arm 31 Dozer lifting hydraulic cylinder 33 Cylinder tube 34 Piston rod

Claims (1)

[Claims] 1. A machine base (2) side and a support arm (29) side which supports a dozer (11) in a vertically swingable manner with one end portion pivotally connected to the machine base (2), A dozer lifting hydraulic cylinder mounting structure in a backhoe in which both ends of the dozer lifting hydraulic cylinder (31) are pivotally connected to each other, wherein a piston rod (34) of the dozer lifting hydraulic cylinder (31) is attached. A protective cover for pivotally connecting the tip end to the support arm (29) side and the base end part of the cylinder tube (33) to the machine base (2) side to protect the exposed part of the piston rod (34). (35) A mounting structure for a hydraulic cylinder for raising and lowering a dozer in a backhoe provided with (35).