KR101322497B1 - The double sealing sturucture air cylinder - Google Patents

Abstract

According to the present invention, even if the piston packing which repeatedly reciprocates in the cylinder together with the piston is worn out due to friction with the inner wall of the cylinder, the air inside the cylinder leaks out of the cylinder through the gap between the piston rod and the inner wall of the cylinder. The double seal structure of the air cylinder to double block and block, the configuration is provided with a piston as an actuator inside the cylinder, the piston rod in the center of the piston is connected to the driven body outside the cylinder of the cylinder In the air cylinder penetrating the upper center portion, the air cylinder A and the air port B are formed on the upper and lower portions of the cylinder, respectively, and the piston packing made of rubber material is mounted on the outer circumference of the piston to seal the inner wall of the cylinder. A piston in contact with the upper surface of the piston on the lower surface of the inner space of the cylinder; The subsidiary milling is mounted, and the piston rod packing which is in contact with the outer circumference of the piston rod is mounted on the middle inner side of the upper side of the cylinder through which the piston rod penetrates. The piston rod located on the outside of the cylinder is a rubber-sealed cap that is in contact with the lower surface in the upper cylinder sealing when the cylinder is fixed to the piston rod.

Description

 The double sealing sturucture air cylinder

The present invention relates to a double-sealed structure of an air cylinder, and more particularly, even if the piston packing which repeatedly reciprocates linearly inside the cylinder with the piston is worn out due to friction with the inner wall of the cylinder, the air in the cylinder and the piston rod The double seal structure of the air cylinder which makes it easier to prevent contamination due to leakage during use in the clean room and the closed vacuum by allowing the double sealing and blocking of leakage to the outside of the cylinder through the gap between the cylinder inner wall. will be.

In general, an air cylinder is a linear reciprocating motion in a pneumatic circuit, and as shown in FIG. 1, a piston 2 is provided as an actuator within the cylinder 1, and a center of the piston 2 is provided. The piston rod (3) connected to the driven body outside the cylinder (1) passes through the upper center portion of the cylinder (1), and each of the upper and lower portions of the cylinder (1) is an air port A and an air port B (1b). Is formed to reciprocate the piston 2 and the piston rod 3 in a vertical direction by supplying or discharging air into the cylinder 1 through the air ports A 1a and B 1b. It is possible to exercise. At this time, a rubber packing piston packing (2a) is mounted on the outer periphery of the piston (2) for sealing with the inner wall of the cylinder (1). FIG. 1 shows a state in which air is supplied to the inside of the cylinder 1 through the air port B 1b, and the piston 2 moves upward by the internal air pressure. The cylinder 1 below the piston 2 is shown in FIG. The air supplied therein can be sealed by the piston packing 2a mounted on the outer periphery of the piston 2 to move the piston 2 by pushing the internal air pressure without leaking into the upper space of the piston 2. It is configured to.

However, the piston packing is formed of a rubber material and the friction is repeatedly generated on the inner wall of the cylinder while repeatedly linearly reciprocating the inside of the cylinder with the piston, the wear is bound to occur, the wear of the piston packing is There is a problem in that the sealing ability to separate the two spaces is reduced, thereby reducing the reliability and losing its function.

Accordingly, the present invention has been made to solve the above-mentioned conventional problems, the object of which is that even if the piston packing which repeatedly reciprocates linearly inside the cylinder with the piston wears out due to friction with the inner wall of the cylinder, Air can be easily sealed and blocked from leaking to the outside of the cylinder through the gap between the piston rod and the inner wall of the cylinder. It is to provide a double sealing structure of the cylinder.

One embodiment of the double sealing structure of the air cylinder according to the present invention for achieving the object of the present invention, the piston is provided as an actuator in the interior of the cylinder, and connected to the driven body outside the cylinder at the center of the piston In the upper central portion of the cylinder, the upper and lower portions of the cylinder A and the air port B is formed, respectively, the outer periphery of the piston is equipped with a rubber piston packing for sealing with the cylinder inner wall A piston upper hermetic ring contacting the upper surface of the piston is mounted on the lower surface of the inner space of the cylinder, and a piston rod packing contacting the outer periphery of the piston rod is mounted on the middle inner surface of the upper side of the cylinder through which the piston rod passes. The upper surface of the cylinder is fitted with a cylinder upper sealing ring in contact with the outer space of the cylinder, Ton rod is characterized in that the airtight cap is in contact with the rubber material is fixed to the piston rod when the upper cylinder group when reversing mill.

In addition, one type of the double sealing structure of the air cylinder is provided with a piston as an actuator in the cylinder, and a piston rod connected to a driven body outside the cylinder at the center of the piston passes through the upper and lower center portions of the cylinder. And an air port A and an air port B formed at upper and lower portions of the cylinder, respectively, and a piston packing made of rubber material is mounted on the outer circumference of the piston to seal the inner wall of the cylinder. On the lower side, a piston upper airtight ring in contact with the upper and lower surfaces of the piston is mounted, and a piston rod packing in contact with the outer periphery of the piston rod is mounted on the upper and lower middle inner surfaces of the cylinder through which the piston rod passes. The upper and lower cylinders of the upper cylinder sealing contact with the outer space of the cylinder is mounted, the piston rod located on the outside of the cylinder when the upper cylinder If the milling machine is characterized in that the airtight cap is in contact with the rubber material is fixed to the piston rod.

As described above, the present invention is a piston that seals between the upper surface of the piston and the cylinder when the piston and the piston rod are advanced even if the piston packing which repeatedly reciprocates in the cylinder together with the piston is worn out due to friction with the inner wall of the cylinder. A cylinder upper machine mounted on the upper surface of the cylinder together with the piston rod packing when the piston and the piston rod are retracted to allow double sealing and blocking by the upper air sealing and the piston rod packing that seals between the piston rod and the inner wall of the cylinder. The airtight cap of the piston rod in contact with the milling and the upper cylinder of the cylinder can also be double-blocked and shut off, making it more suitable for pneumatic circuits requiring high-precision operation. To prevent contamination due to leakage during use It is possible to have the net effect is capable of further increasing the reliability of operation of the air cylinder.

1 is a longitudinal sectional view schematically showing the internal structure of a typical air cylinder.
Figure 2 is a longitudinal sectional view schematically showing the internal structure of the air cylinder according to the present invention.
Figure 3 is a longitudinal sectional view showing a state in which the piston and the piston rod of Figure 2 is advanced.
4 is a longitudinal sectional view showing a state in which the piston and the piston rod of Figure 2 is reversed.
Figure 5 is a longitudinal cross-sectional view showing another embodiment of the present invention.

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

Figure 2 is a longitudinal sectional view schematically showing the internal structure of the air cylinder according to the present invention, a conventional air cylinder is provided with a piston (2) as an actuator in the cylinder (1), the central portion of the piston (2) A piston rod 3, which is connected to the driven body outside the cylinder 1, passes through the upper center portion of the cylinder 1, and has an air port A 1a and an air port B (above and below the cylinder 1, respectively). 1b) is formed, and a rubber piston packing 2a is mounted on the outer periphery of the piston 2 to seal the inner wall of the cylinder 1.

In such an air cylinder, the present invention, even if the piston packing (2a) that is repeatedly reciprocating linearly in the cylinder (1) with the piston (2) is worn due to friction with the inner wall of the cylinder (1) It is characterized by having a double sealing structure so that air does not leak out of the cylinder 1 through a gap between the piston rod 3 and the cylinder 1.

To this end, the present invention is a piston upper sealing ring (4), the piston rod packing (6), the cylinder upper sealing ring (8), and the airtight cap (7) is further mounted to the cylinder (1), the piston The upper hermetic ring 4 is formed in a rubber O-ring shape and is fitted into an annular groove formed in the lower surface of the upper portion of the inner space of the cylinder 1, and the upper surface of the piston 2 is moved forward by the piston 2. It is to prevent the upper air of the piston (2) from leaking through the gap of the portion where the piston rod (3) penetrates (see Fig. 3).

The piston rod packing (6) is also formed in the form of a rubber O-ring is fitted in the annular groove of the inner wall of the cylinder (1) through which the piston rod (3), the air through the upper piston ring (4) Is sealed to seal between the piston rod (3) and the inner wall of the cylinder (1) by the piston rod packing (6) is to be configured to block the leakage air double.

The cylinder upper hermetic ring 8 and the hermetic cap 7 are supplied with air through the air port A 1a, and when the piston 2 and the piston rod 3 inside the cylinder 1 are moved backward, the cylinder 1 Air leaked through the piston rod packing (6) even though the air supplied to the inside is blocked by the piston rod packing (6) sealing between the piston rod (3) and the inner wall of the cylinder (1) In order to block the double, the cylinder upper airtight ring 8 is formed in the shape of a rubber O-ring is fitted into the annular groove in contact with the outer space of the cylinder 1 on the upper surface of the cylinder 1, the airtight The cap 7 is also formed of a rubber material and is fixed to the piston rod 3, and the piston is doubled by contacting the upper cylinder ring 8 mounted on the upper surface of the cylinder 1 when the piston rod 3 is retracted. Ball leaks through the gap between the rod 3 and the inner wall of the cylinder 1 A is configured to block. (See Figure 4.)

Thus, the present invention is a piston as shown in FIG. (2) and the piston upper hermetic ring (4) sealing between the upper surface of the piston (2) and the cylinder (1) during the advance of the piston rod (3) between the piston rod (3) and the inner wall of the cylinder (1) It is possible to double-block and block by the sealing piston rod packing (6), as shown in Figure 4 when the piston (2) and the piston rod (3) in the reverse with the piston rod packing (6) It is also possible to double block and block by the upper cylinder sealing ring (8) mounted on the upper surface of 1) and the airtight cap (7) of the piston rod (3) in contact with the upper cylinder sealing ring (8).

5 is a longitudinal sectional view showing another embodiment of the present invention, where the difference is a pair of piston rods 3 and 3a which penetrate the upper and lower portions of the cylinder 1 above and below the center of the piston 2. And a piston upper hermetic ring (4) contacting the upper and lower surfaces of the piston (2) on the upper and lower sides of the inner space of the cylinder (1) as in one embodiment of the present invention, and the piston rod (3) The piston rod packing 6, which is in contact with the outer circumference of the piston rod 3, 3a, is mounted on the upper and lower middle inner surfaces of the cylinder 1 through which the 3a passes. The upper and lower cylinders of the upper cylinder ring (8) in contact with the outer space of the cylinder (1) is mounted, the piston rod (3) (3a) located on the outside of the cylinder (1) when the reverse upper cylinder ring (8) ) Is characterized in that the airtight cap (7) made of rubber, which is in contact with the bottom surface, is fixed to the piston rod (3) (3a). It is suitable for operating the blood of the fuselage.

As such, the present invention is that the air inside the cylinder leaks to the outside of the cylinder through the gap between the piston rod and the cylinder inner wall even if the piston packing which repeatedly reciprocates in the cylinder with the piston is worn out due to friction with the inner wall of the cylinder. This can be blocked and blocked twice, so that it is possible to more easily prevent contamination due to leakage when used in the clean room and the sealed vacuum.

Although the double sealing structure of the air cylinder according to the present invention has been described in detail above, this is only for describing the most preferred embodiment of the present invention, and the present invention is not limited thereto. Is determined and defined. It will be apparent to those skilled in the art that various changes and modifications can be made by those skilled in the art without departing from the scope of the present invention.

1: Cylinder 1a, 1b: Airport A, B
2: piston 2a: piston packing
3,3a: piston rod 4: piston upper sealing
5: Piston bottom sealing 6: Piston rod packing
7: Airtight Cap 8: Cylinder Top Sealing

Claims (2)

A piston 2 is provided as an actuator inside the cylinder 1, and a piston rod 3, 3a connected to a driven member outside the cylinder 1 at the center of the piston 2 includes a piston Passing through the upper and lower center portion, the air cylinder A (1a) and the air port B (1b) is formed on the upper and lower portions of the cylinder 1, respectively, the cylinder (1) on the outer periphery of the piston (2) In the piston packing (2a) made of rubber material for sealing with the inner wall,
On the upper and lower sides of the inner space of the cylinder 1, a piston upper hermetic ring 4 in contact with the upper and lower surfaces of the piston 2 is mounted, and the cylinder 1 through which the piston rods 3 and 3a pass. A piston rod packing 6 is mounted on the upper and lower middle middle surfaces of the piston rod 3 and 3a so as to be in contact with the outer space of the cylinder 1 on the upper and lower surfaces of the cylinder 1. The upper cylinder sealing ring (8) is mounted, the piston rod (3) (3a) located on the outside of the cylinder (1) is a rubber-sealed cap (7) of the rubber material in contact with the lower surface of the upper cylinder sealing ring (8) when the reverse The double seal structure of the air cylinder characterized by being fixed to this piston rod (3) (3a).
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