KR19990011008U - Reaction Force Control Device of Gas Spring - Google Patents

Abstract

The present invention relates to a reaction force control device of a gas spring, the purpose of which is to increase the orifice hole when the gas expansion is active, while to reduce the size of the orifice hole when the gas is sluggish to always obtain a constant gas reaction force. have.

The present invention for achieving this object is a compressed gas is filled in the cylinder having a cylindrical shape, in which a piston head having a plurality of orifice holes and a piston installed to extend from the piston head to the outside of the cylinder is provided. It is installed to be moveable, one end of the rod is equipped with a temperature sensor for sensing the ambient temperature and sending out a detection signal, the motor for receiving the signal of the temperature sensor to rotate the drive shaft in proportion to the size of the signal Is installed in the piston head, and a plurality of stoppers are connected to each of the radially extending arms of the drive shaft to open and close the orifice hole.

Therefore, the size of the orifice hole is appropriately adjusted in proportion to the size of the temperature sensed by the temperature sensor, so that a gas spring with a constant reaction force can be obtained regardless of the season.

Description

Reaction Force Control Device of Gas Spring

The present invention relates to a gas spring to be used in the hood or trunk of an automobile, and in particular, the gas spring which can easily obtain a constant reaction force of the gas spring by properly adjusting the orifice hole formed in the piston head of the gas spring according to the ambient temperature The reaction force control device of the.

In general, a gas spring is filled with gas in a cylindrical cylinder, and in automobiles, when a hood or a trunk is opened, the gas spring is used to lift the hood or the trunk with an internal gas reaction force so as to be easily opened.

The conventional gas spring as described above is shown in cross-sectional view in FIG. 1, that is, the piston 2 is installed inside the cylinder 1 having a cylindrical shape so as to be movable along the longitudinal direction of the cylinder. 2) has a piston head 4 with an orifice hole 3 formed therein, and a rod 5 protruding to the outside of the cylinder while being integrally attached to the piston head.

The piston head is partitioned into two chambers in the cylinder, and compressed gas is filled in each chamber.

Accordingly, when the piston head is moved along the inner wall of the cylinder, the volume of one chamber is reduced while the volume of the other chamber is increased, and the gas in the volume chamber is reduced along the orifice hole formed in the piston head. Reaction force is generated in the process of introducing gas from one chamber to the other chamber through the orifice hole.

However, the gas injected into the cylinder is a compressible gas, and its expandability is changed according to the ambient temperature. For example, in summer, the gas is actively expanded and the gas repulsion force is increased, whereas in the winter, the gas is sluggish and the gas is sluggish. Repulsive force becomes small.

In other words, there is a drawback that the magnitude of reaction force that can be obtained by the gas spring changes according to the temperature around the gas spring.

The present invention has been devised to solve the above-mentioned drawbacks, and when the gas expands actively, the orifice hole is enlarged, whereas when the gas is sluggish, the orifice hole is made small so that a constant gas reaction force can always be obtained. The purpose is to provide a reaction force control device.

1 is a schematic cross-sectional view of a gas spring according to the prior art,

Figure 2 is a schematic cross-sectional view of the gas spring with a reaction force control device according to the present invention,

3 is a cross-sectional view taken along the line A-A of FIG.

Explanation of symbols for the main parts of the drawings

11-cylinder 12-piston

13-orifice hole 14-piston head

15-rod 16-temperature sensor

17-Motor 18-Spigot

The present invention for achieving the above object is a compressed gas is filled in the cylinder of the cylindrical shape, in which the piston head having a plurality of orifice holes and extending from the piston head to the outside of the cylinder The installed piston is installed to be movable, and one end of the rod is equipped with a temperature sensor that detects the ambient temperature and emits a detection signal, and receives the signal of the temperature sensor and rotates the drive shaft in proportion to the magnitude of the signal. A motor is installed in the piston head, while a plurality of stoppers are connected to each of the arms extending radially in the driving shaft to open and close the orifice hole.

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

Figure 2 is a schematic cross-sectional view of the gas spring is attached to the reaction force control device according to the present invention, Figure 3 is a cross-sectional view of the AA line of Figure 2, that is, the compressed gas is filled in the cylinder 11 of the cylindrical shape and In addition, the piston 12 is installed to be movable along the longitudinal direction of the cylinder, the piston 12 is a piston head 14 having a plurality of orifice holes 13 and the cylinder head is integrally attached to the piston head It is provided with a rod 15 which extends to the outside of the projection.

And one end of the rod is attached with a temperature sensor 16 for sensing the ambient temperature, the temperature sensor is connected to the motor 17 mounted on the piston head, the output shaft of the motor A plurality of stoppers 18 having the same shape as the orifice holes are provided extending in the radial direction.

That is, the motor is installed at the geometric center of the piston head, and four arms are installed to extend radially with a constant angular displacement on the axis of the motor, and the stopper is integrally attached to the tip of the arm. The arm is configured to be rotated by the rotational force of the motor, and the arm is formed to an appropriate length so that the plug can be arranged on the orifice hole in the course of being rotated by the motor.

Accordingly, when the motor is rotated, the stopper is also rotated by the arm. When the stopper is positioned above the orifice hole, the stopper blocks the orifice hole, while the stopper continuously rotates to open the orifice hole. Will let you.

In other words, depending on the rotation angle of the motor, the orifice hole may be fully or partially opened by a stopper as well as fully closed.

Therefore, for example, when the temperature sensed by the temperature sensor exceeds a certain temperature, the detection signal is transmitted to the motor, and the motor rotates in proportion to the magnitude of the input signal, so that the orifice hole is completely closed by the plug. Open or partially open or completely closed.

In other words, when the temperature around the cylinder is high, the motor rotates to increase the opening degree of the orifice hole, while when the temperature around the cylinder is low, the motor rotates to reduce the orifice hole.

Meanwhile, the reaction force of the gas is inversely proportional to the size of the orifice hole. Accordingly, even if the temperature around the gas spring is changed, a constant reaction force can always be obtained by properly adjusting the size of the orifice hole.

For example, in the summer, the expansion of the gas is active, so that the orifice is largely controlled. In the winter, the expansion of the gas is relatively sluggish, so the orifice is adjusted small. Therefore, a gas spring with constant reaction force is obtained regardless of the season. It will be possible.

As described above, according to the gas spring reaction force control device according to the present invention, the size of the orifice hole formed in the piston head is properly adjusted according to the temperature change around the gas spring, so that a constant reaction force is always maintained regardless of the season. This has the effect of obtaining a gas spring with excitation and improves the merchandise.

Claims (1)

Compressed gas is filled in the cylindrical cylinder, and the piston is provided with a piston head having a plurality of orifice holes in the cylinder and a piston having a rod extending to the outside of the cylinder to move in the cylinder. To A temperature sensor mounted on one end of the rod for sensing ambient temperature and emitting a detection signal, and a motor for receiving the signal of the temperature sensor and rotating the drive shaft in proportion to the magnitude of the signal; Reaction force regulating device of a gas spring characterized in that it has a stopper for opening and closing the orifice hole is connected via each of the arms extending in the radial direction.