KR19990006278U - Seal structure of gas spring telgate - Google Patents

Abstract

The present invention relates to a sealing structure of a gas spring telgate, and more particularly, a sealing member for preventing leakage of gas and oil filled in a demand space of an outer cylinder is filled by a pressure change that varies depending on an operation direction of a piston. The present invention relates to a sealing structure of a gas spring telgate in which a wing piece is formed to prevent leakage of the gas and oil. The sealing structure of a conventional gas spring telgate is a sealing of an elastic body by oil and gas after a long time. There was a problem that the member is cured, and the annular ring, which is in contact with the inner surface of the outer cylinder, is relaxed and leaked. Another problem is that the gas spring telgates installed on both sides of the back door receive different moments, so when the door is closed and opened, the hinge which fixes the back door is damaged and the back door is twisted. . The present invention is devised to solve the above problems, and even after a long time, the sealing member of the elastic body is hardened by oil and gas to prevent leakage even when the stone ring frame which is in contact with the inner surface of the outer cylinder is relaxed, By preventing the gas spring telgate from receiving different moments, the hinge which fixes the back door by tilting when the back door is closed and opened is broken, and the back door is prevented from being twisted.

Description

Seal structure of gas spring telgate

The present invention relates to a sealing structure of a gas spring telgate, and more particularly, a sealing member for preventing leakage of gas and oil filled in a receiving space of the outer cylinder is filled by a pressure change that varies depending on the operating direction of the piston. It relates to a sealing structure of the gas spring telgate formed wing pieces to prevent leakage of the gas and oil.

The car is equipped with a door that is used for getting in and out of a car or for loading cargo, and is usually a front door mainly used by front passengers and a rear door mainly used by passengers in rear seats. There is a rear door, and depending on the vehicle, a back door is installed at the rear or a side orr is installed at the side.

In the door as described above, the front and rear doors are rotatably installed by hinges, and door checkers are installed between the hinges and the hinges to prevent excessive operation. On the other hand, the back door is hinged and fixed at the top as shown in FIG. The gas spring telgate 100 is installed to prevent this from occurring.

The sealing structure of the gas spring telgate as described above is attached to the end of the piston 300 rod 310 to the head 210 of the stud back door ballen ball 200 is fixed to the vehicle body as shown in Figure 2 Installed in the installed base is prevented from being separated by the stop ring 600.

On the other hand, on the other side of the piston 300, the rod 310 is inserted into the outer cylinder 320, a plurality of compression plates for compressing gas and oil are formed up and down, the oil chamber is installed between the compression plates This prevents leakage of gas and oil during compression of the piston rod.

In addition, the lower end of the piston rod 310 is installed through the outer cylinder 320, the engaging frame 340a formed to be spaced apart from the engaging frame 340 formed in the opening 330 of the outer cylinder 320. Between the fixing member 400 is provided with a step to prevent the flow of the piston rod 310 and the departure from the outer cylinder 320, the sealing member 500 is provided between the fixing member 400 Is installed. A diaphragm is installed between the sealing member 500, and the sealing member 500 is installed on the outer circumferential surface of the body 510 to be pressed against the inner surface of the outer cylinder 320 to prevent leakage. Formed structure.

The sealing structure of the conventional gas spring telgate configured as described above has the piston rod of the gas spring telgate actuated when the back door is opened and closed to pressurize the gas and oil filled in the outer cylinder and release the pressurized force. The pressure also acts on the sealing member. Thus, after a long time, the sealing member of the elastic body is hardened by oil and gas, and the circumferential ring which is in contact with the inner surface of the outer cylinder relaxes and leaks. Another problem is that the gas spring telgates installed on both sides of the back door receive different moments, so when the door is closed and opened, the hinge that fixes the back door is damaged, causing problems such as non-throwing of the back door. There is this.

The present invention was devised to solve the above problems, and its purpose is to leak even if the dol ring which is in contact with the inner surface of the outer cylinder is hardened by the sealing member of the elastic body by oil and gas after a long time. It is prevented, and the gas spring telgate is prevented from receiving different moments to close and open the back door when the hinge to fix the back door is broken, and the purpose of preventing the backdoor phenomenon.

The object of the present invention is a gas spring telgate which prevents the opening / closing of the balancer during the operation of the back door and preventing sagging due to the weight of the door. Sealing member provided with an auxiliary sealing member integrally formed on the lower end of the body to prevent leakage of the gas and oil filled in the sealing member to prevent the leakage of gas and oil filled in the operating direction of the piston It is achieved by a gas spring telgate made of a.

1 is a perspective view showing a portion where a gas spring telgate is generally installed

2 is a cross-sectional view showing a sealing structure of a conventional gas spring telgate

3 is a cross-sectional view showing a sealing structure of a gas spring telgate to which the technique of the present invention is applied

Figure 4 is an operating state showing the operating state of the present invention

* Description of the symbols for the main parts of the drawings *

2: sealing member 5: body

6: stone ring frame 7: wing

Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings. The sealing structure (1) of the gas spring telgate of the present invention is installed in the base installed at the end of the piston rod 310 in the head of the stud back door ballen ball 200 is fixed to itself by a stop ring (500) It is installed to prevent departure.

On the other hand, on the other side of the piston rod 310, a plurality of compression plates which are inserted into the outer cylinder 320 to compress gas and oil are formed up and down, and oil chambers are installed between the compression plates to form piston rods. Prevents leakage of gas and oil when compressed during operation.

In addition, the lower end of the piston rod 310 is installed through the outer cylinder 320, the engaging frame 340a formed at a predetermined interval spaced apart from the engaging frame 340 formed in the opening 330 of the outer cylinder 320. Between the fixing body 400 is provided with a step to prevent the flow of the piston rod 310 and the departure from the outer cylinder 310, the sealing member (2) is provided between the fixing member (400) Is installed. A diaphragm 3 is installed between the sealing members 2, wherein the sealing member 3 is pressed against the inner surface of the outer cylinder 320 on the outer circumferential surface of the body 5 to prevent leakage. And a wing piece 7 which is formed at the lower end thereof integrally with the circumferential ring 6 and flows according to a change in pressure.

The use state of the gas spring telgate according to the present invention of the structure as described above is the volume according to the pressurized oil and gas filled in the receiving space in the outer cylinder 320 as shown in Figure 4 when the back door is closed It is accompanied by a change and a change of pressure at the same time. This is because when the back door is closed, the piston rod 310 is pressed into the receiving space of the outer cylinder 320, thereby increasing the space of the receiving space filled with oil and gas, thereby increasing the amount of oil and gas per volume (variation). Becomes smaller and the pressure lowers.

On the other hand, when the piston rod is pressed into the outer cylinder 320, it refers to the usual times without opening the back door. When the pressure is low as described above, the force acting on the sealing member 2 is naturally reduced. On the contrary, when the back door is opened, the piston rod 310 is drawn out of the outer cylinder and pressurizes oil and gas, which is to alleviate the impact of the open back door to prevent damage to the vehicle body and the back door.

However, at this time, the volume of the receiving space is small, as opposed to when the back door is closed, thereby increasing the amount of oil and gas per displacement, thereby increasing the pressure. The increased pressure is applied to the inner wall of the outer cylinder 320 and the fixture 400, the gas and oil leaks between the fixture 400 and the inner surface of the outer cylinder 320, the lower end of the fixture Sealing member (2) is installed to prevent leakage.

On the other hand, the wing piece 7 of the sealing member 2 which is pressed by the pressure is lifted up to be in close contact with the inner surface of the outer cylinder 320 to prevent leakage of oil and gas. In addition, even if the sealing member 2 is hardened due to long use, the wing piece 7 is pressed against the inner surface of the outer cylinder 320 to prevent leakage.

When the back door is closed again, the pressure drops, so that the wing piece 7 compressed to the inner surface of the outer cylinder 320 is removed to seal the inner surface to the outer surface of the body.

The sealing structure of the gas spring telgate of the present invention, which is constructed and operated as described above, has a sealing member for preventing leakage of gas and oil filled in the receiving space of the outer cylinder, and the gas filled by the pressure change depending on the operation direction of the piston And a sealing member formed with a wing piece to prevent leakage of oil. The gas spring telgate is a stone in which the sealing member of the elastic body is hardened by oil and gas after a long time, and is in contact with the inner surface of the outer cylinder. Leakage is prevented even when the frame is relaxed, the spring spring telgate receives the different moments, and when the door is closed and opened, the hinge that fixes the back door is broken and the back door is prevented from falling. There is.

Claims (1)

In the gas spring telgate, which is inclined due to an unbalance of the balancer when the back door is operated, a sealing member (2) for preventing leakage of gas and oil filled in the receiving space of the outer cylinder is provided. Sealing structure of the gas spring telgate, characterized in that it comprises a wing piece (7) formed integrally to the lower end of the body to prevent leakage of the gas and oil filled by the pressure change according to the operating direction.