KR100350886B1 - a vibration absorption structure of cabin for truck - Google Patents

Abstract

The present invention relates to a cabin vibration absorption structure of a truck, the cabin of the body frame

An oil flow path 9 is formed between the cylinder shell 6 and the piston 7 inside the lower portion of the hydraulic cylinder which is mounted between the hydraulic cylinders to receive the hydraulic pressure from the oil pump and to tilt the cabin during engine room maintenance. As a result, the vibration generated in the cabin 1 during driving may be absorbed while the oil flows through the oil flow path 9. Therefore, there is no need for a shock absorber for absorbing the cabin vibration, thereby reducing the cost.

Description

Vibration absorption structure of cabin for truck

The present invention relates to a cabin vibration absorbing structure of a truck, and more particularly to a cabin vibration absorbing structure of a truck that can absorb the vibration of the cabin without the need for a separate shock absorber.

In general, the engine room of the truck is formed in front of the vehicle body. To maintain the engine room, the cabin 1 is tilted around the hinge shaft 3 installed on the body frame 2, and the seat is lifted up. To open the door.

Therefore, as shown in FIG. 2, the vehicle body frame 2 is provided with a hydraulic cylinder 4, so that the hydraulic cylinder 4 can be operated to tilt the cabin 1 as described above if necessary.

Meanwhile, as the truck travels, the cabin 1 is vibrated, and in order to absorb the vibration, the shock absorber 5 installed between the tilting hydraulic cylinder 4 and the cabin 1 is conventionally used. B was used to absorb the vibration of the cabin (1) using a torsion bar (not shown) installed in the body frame.

However, in the vibration absorption structure of the cabin as described above, the vibration of the cabin is absorbed by using a separate shock absorber such as a shock absorber or a torsion bar. There was an issue that was raised.

Accordingly, the present invention has been invented to solve the above problems, it is possible to absorb the vibration generated in the cabin when driving the vehicle without installing a separate shock absorber, such as shock absorber or torsion bar necessary parts and workmanship The purpose of the present invention is to provide a cabin vibration absorption structure of a truck that can reduce the cost and cost.

1 is a side view of a truck,

Figure 2 is a schematic side view of a truck showing a cabin vibration absorption structure of a conventional truck,

3 is a schematic side view of a truck showing a cabin vibration absorption structure of a truck according to the present invention, corresponding to FIG.

4 is a partial sectional view of a hydraulic cylinder, which is a main part of the present invention.

Explanation of symbols on the main parts of the drawing

1: cabin, 2: body frame,

3: hinge shaft, 4: hydraulic cylinder,

5: shock absorber, 6: cylinder shell,

7: piston, 8: piston ring,

9: oil flow path.

The present invention for achieving the above object is that the hydraulic cylinder is installed between the cabin and the vehicle body to absorb the shock of the cabin, the hydraulic cylinder has a structure in which an oil flow path is formed between the cylinder shell and the piston It is.

Therefore, the vibration of the cabin is absorbed by the free movement of the oil.

Hereinafter, with reference to the accompanying drawings, the present invention will be described in detail.

3 is a schematic side view of a truck to which a cabin vibration absorbing structure of a truck according to the present invention is applied, the present invention provides a cabin (1) in the hydraulic cylinder (4) itself mounted to the body frame (2) for tilting the cabin (1) The structure absorbs vibrations transmitted from

That is, the hydraulic cylinder 4 has a lower inner circumferential surface of the cylinder shell 6 and the cylinder as shown in FIG. 4 (which schematically shows a lower end surface of the hydraulic cylinder on the side of the body frame in which the piston of the hydraulic cylinder is located). A gap is formed between the pistons 7 embedded in the shell 6 so that the gap functions as a flow path 9 of oil.

The oil flow path 9 is not formed in the entire longitudinal direction of the cylinder shell 6, but is formed in a section of about 5 cm on the inner circumferential surface of the lower end, and the piston 7 in the running state in which the cabin 1 is not tilted. ) Is lowered so that the vibration transmitted from the cabin 1 is absorbed in the hydraulic cylinder 4 while the oil flows through the oil flow path 9.

Therefore, since there is no need to install a separate shock absorber it is possible to reduce the number of parts and processes to reduce the cost.

(Unmarked 8 is the oil seal or piston ring, and actually the oil seal or piston ring, not the piston, comes into contact with the inner circumferential surface of the cylinder shell.)

On the other hand, since the oil flow path (9) is formed, the oil leakage occurs when the oil is delivered to the piston (7), so that there is a concern that the tilting force of the hydraulic cylinder (4) will be lowered, but there is a concern that As described above, the oil flow path 9 is formed only in a portion of the lower side of the cylinder, and since the gap of the oil flow path 9 is very narrow, the amount of oil pressure lost through the oil flow path 9 is very small. On the contrary, since the hydraulic pressure applied to the hydraulic cylinder 4 during cabin tilting is very large, the formation of the oil flow path 9 does not lower the tilting force of the hydraulic cylinder 4 as a whole.

As described above, according to the present invention, it is possible to absorb the cabin vibration generated when driving in the hydraulic cylinder itself, there is no need to install a separate shock absorbing member to reduce the number of parts and workmanship and accordingly the effect of reducing the production cost have.

Claims (1)

In the tilting structure of a truck, a hydraulic cylinder (4) is provided between the cabin (1) and the body frame (2) so that the hydraulic cylinder (4) pushes up and tilts the cabin (1). Cabin vibration absorption structure of the truck, characterized in that the oil flow path (9) is formed between the cylinder shell (6) and the piston (7) in the lower portion of the hydraulic cylinder (4).