KR0127421Y1 - Gas spring for adjustable reaction force - Google Patents

Abstract

The present invention installs a reaction force adjusting piece having a plurality of adjustment holes facing different diameters of the piston orifice at a position substantially in contact with the piston, and rotates the adjusting piece by a motor or artificially to step the gas reaction force in the gas spring tube step by step. The present invention relates to a gas spring capable of adjusting a reaction force, and to which a small amount of oil (9) and a gas (8 ') are filled, and a rod guide (3) is fitted on the upper portion thereof, and the tube ( 1) the piston 4, which is installed to slide in the front end and has a through hole 4a formed in a longitudinal direction thereof, is fitted to the through hole 4a so that the flow rate of oil flowing through the through hole 4a can be arbitrarily adjusted. In the gas spring consisting of a flow control plate (6) coupled to the upper or lower portion of the piston (4) is formed a plurality of adjustment holes (5) of different sizes in position, the outer side at the top The jaw 11 is formed and the lower end of the flow regulating plate 6 is integrally coupled to the inner end of the flow regulating plate 6 to fit into the coupling groove 13 of the piston rod (2) (12) Rotating rod (7) is formed is coupled to the upper portion of the outer peripheral surface of the piston rod (2).

Description

Gas spring with adjustable reaction force

1 is a side cross-sectional view showing a conventional gas spring.

Figure 2 is a side cross-sectional view showing a gas spring capable of adjusting the reaction force according to the present invention.

3 is a plan sectional view showing a reaction force adjusting piece.

4 is a perspective view showing a state in which a part of the rotating rod which is the main part of the present invention is cut.

* Explanation of symbols for main parts of the drawings

1: tube 2: piston rod

3: road guide 4: piston

4a: Orifice 5: Adjuster

6: flow control plate 7: rotating rod

11: outside step 12: inside step

13: fastening groove

The present invention relates to a gas spring capable of adjusting the reaction force, and more particularly, a reaction force adjusting piece in which a plurality of adjusting holes facing the orifice of the piston are installed at different diameters is installed at a position almost in contact with the piston, and the adjusting piece is a motor. Or it relates to a gas spring capable of reaction force adjustment to artificially rotate to adjust the gas reaction force in the gas spring tube step by step.

In general, as shown in FIG. 1, the gas spring is provided with a rod guide 3 which blocks the outside air and guides the direction of movement of the piston rod 2 at the inner end of the hollow shape, and the piston rod 2 The piston 4 is provided with an orifice 4a perforated at the inner end of the piston 4 in each chamber 8, 8 ′ inside the tube 1 partitioned by the piston 4. Oil 9 for smooth sliding and the nitrogen gas 10 to have a predetermined reaction is filled with a structure.

In addition, the conventional gas spring is configured such that the reaction force of gas is always generated to push the piston 4 due to the area difference between one side surface of the piston 4 on which the piston rod 2 is installed and the other side surface thereof. .

However, in order to adjust the gas spring set reaction force in the related art, the orifice diameter of the piston must be determined, which inevitably requires trial and error to be manufactured several times according to the set reaction force, and thus, problems such as an increase in working time and waste of material cost have been generated. .

In order to solve such problems in the related art, Japanese Laid-Open Patent Publication No. 61-175642 configures a flow control plate on the lower part of the piston so that the flow rate of oil flowing through the piston hole can be arbitrarily adjusted, and in the flow control plate, the piston By forming a plurality of control holes of different sizes at a position corresponding to the through hole of the user, the user can arbitrarily adjust the flow rate through the through hole of the piston.

By the way, such a conventional design has to be provided with a control rod to rotate the flow control plate formed with a plurality of adjustment holes, the control rod is usually thinner so that it can be inserted into the piston rod, a large force is required during rotation And a separate rotation means such as a step motor or a rotary solenoid is required, there was a problem that is easy to bend or damaged.

Therefore, the present invention has been devised to solve the above problems, the purpose of which is to install a plurality of flow control plate perforated with a different diameter of the control hole facing the orifice in a position almost in contact with the piston, the flow control plate Is integrally formed on the rotating rod fitted to the upper circumferential surface of the piston rod to allow the flow control plate to rotate even with a small force and not bend easily. In order to achieve the above object, the present invention is installed at one end of a hollow tube filled with oil and gas, and is installed at a rod guide and an inner end of the rod guide, which block outside air and guide the direction of movement of the piston rod. In the gas spring consisting of a piston sliding with the inner diameter of the tube, a plurality of control holes of different sizes are formed at a position corresponding to the through hole of the piston, and a flow control plate coupled to the upper or lower portion of the piston is fitted on the outer circumferential surface of the piston rod. Is integrally coupled with the combined rotary rod, characterized in that configured to be rotated as the rotary rod is rotated.

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

Figure 2 is a side cross-sectional view showing the interior of the reaction force adjustable gas spring according to the present invention, Figure 3 is a cross-sectional view showing a reaction force adjustment piece and Figure 4 is a part of the rotating rod which is the main part of the present invention is cut As a perspective view showing a state, a small amount of oil (9) and gas (8 ') is filled in the inside, and the rod guide (3) is fitted in the upper portion and the tube (1) and the sliding so as to slide in the tube (1) A plurality of pistons having different sizes in positions corresponding to the through holes 4a are installed at the front end thereof so that a piston 4 having a through hole 4 a formed in the longitudinal direction thereof can be arbitrarily adjusted in the flow rate of the oil flowing through the through holes 4 a. In the gas spring consisting of two regulating holes 5 and a flow regulating plate 6 coupled to the upper or lower portion of the piston 4, an outer step 11 is formed at the upper end and the flow regulating plate 6 at the lower end. ) Is integrally combined and the flow rate The rotating rod 7 having an inner step 12 formed therein for coupling to the fastening groove 13 of the piston rod 2 is inserted into the upper part of the outer surface of the piston rod 2 and coupled to the inside of the plate 6. The reaction force in the tube 1 can be adjusted by selectively adjusting the adjusting holes 5 of different diameters of the flow regulating plate 6 to the orifice 4a of the piston 4 while rotating the rotary rod 7 artificially. It is.

On the other hand, the adjustment hole 5 of the flow control plate 6 is positioned to face the orifice 4a of the piston 4, the adjustment hole 5 having the maximum diameter of the formed adjustment hole (5) is at least orifice ( It should be formed smaller or equal to that of 4a).

On the other hand, since the outer step 11 formed on the upper portion of the rotary rod 7 functions as a stopper during the compression operation of the piston rod 2, the length of the rotary rod 7 and the position of the outer step 11 are gas. It must be determined to suit the installation environment of the spring.

In addition, the inner step 12 is fitted in the fastening groove 13 of the piston 4 is configured so that the rotary rod 7 can also move together during the reciprocating movement of the piston rod (2). On the other hand, in the present invention, since the rotary rod 7 is configured to be in direct contact with the rod guide 3 and the inner sealing material, the outer circumferential surface of the rotary rod 7 should be chrome coated and the piston rod 2 needs to be chrome coated. There is no.

In other words, the present invention does not require high processing precision as before when producing the piston rod 2, only the outer peripheral surface of the rotary rod 7 need to be precisely processed.

It describes the effect of the present invention configured as described above.

When the gas spring is made of finished product, the maximum set reaction force in the tube 1 is determined by the diameter of the orifice 4a of the piston 4. When the reaction force is smaller than the set reaction force, the rotary rod 7 is rotated to rotate in the direction in which the adjustment hole 5 of the flow regulating plate 6 gradually decreases, and the orifice 4a and the adjustment hole 5 of the piston 4 are adjusted. Let them penetrate each other.

The reaction force always acts largely on one side of the piston 4 where the piston rod 2 is not installed, so that the piston 4 is pushed toward the piston rod 2 so that the oil 9 and the gas 10 flow through the flow regulating plate 6. By the control hole (5) of the) will be able to attenuate the reaction force in a multi-stage format.

When the present invention is applied, not only the effect of the set maximum reaction force is satisfied, but also the effect of selectively attenuating reaction force according to the intended use is to be able to widen the range of use.

In addition, in the present invention, since the outer step 11 formed on the upper portion of the rotary rod 7 functions as a stopper during the piston rod 2 compression operation, the piston rod 2 needs to operate only within a limited range. It can be used effectively when there is, in the present design, the piston rod (2) does not directly contact the guide rod (3) or the inner sealing material, there is no need for chrome coating work, the rotary rod (7) shorter than the piston rod (2) Since only the chromium coating on the outer circumferential surface of) can reduce the manufacturing cost of the gas spring.

On the other hand, since the rotary rod 7 integrally coupled with the flow regulating plate 6 is not installed inside the piston rod 2 but installed on the outer circumferential surface, a large force is not required when the rotary rod 7 rotates. The operator can also operate by hand.

Claims (1)

A small amount of oil (9) and gas (8 ') is filled in the inside, the rod guide (3) is fitted on the upper tube (1) is fitted to the tube (1) and the installation so as to slide in the tube (1) And a piston 4 having a through hole 4a formed in a longitudinal direction thereof at a distal end thereof so that the flow rate of oil flowing through the through hole 4a can be arbitrarily adjusted. In the gas spring consisting of a flow control plate 6 formed with a control hole 5 and coupled to the upper or lower portion of the piston 4, an outer step 11 is formed at an upper end and the flow control plate 6 at a lower end thereof. It is integrally coupled to the inside of the flow regulating plate (6) is a rotating rod (7) formed with an inner step (12) for fitting into the fastening groove 13 of the piston rod (2) piston rod (2) Gas spring, characterized in that coupled to the upper portion of the outer circumference.