KR20130000464A - Pneumatic cylinder with variable discharge vent - Google Patents

Abstract

PURPOSE: A single-acting pneumatic cylinder with a variable discharge vent is provided to prevent the abnormal abrasions of a piston by minimizing the inflow of foreign materials into a cylinder barrel with a variable discharge vent. CONSTITUTION: A single-acting pneumatic cylinder comprises a cylinder barrel(100), a head cover(200), a piston(300), a piston rod(400), an air injection port(500), and a variable discharge vent(600). The variable discharge vent comprises a vent member and a lower stopper(620). The vent member is installed in an installation hole(110) bored in the cylinder barrel to discharge air in the cylinder barrel outside. The lower stopper is protruded on one end of the outer periphery of the vent member. A discharge inlet(611) for discharging the internal air of the cylinder barrel is formed in one end of the vent member. A discharge outlet(612) for discharging the air entered from the discharge inlet to the outside is formed in the other side of the vent member. A connection passage(613) is formed between the discharge inlet and the discharge outlet.

Description

Single-acting pneumatic cylinder with variable discharge vent

The present invention relates to a single acting pneumatic cylinder having a variable discharge vent.

In particular, a single-acting pneumatic having a variable discharge vent operated by air pressure, the variable discharge vent is variable operation to be limited to open only when the air is discharged, and otherwise closed to operate to minimize foreign material inflow. It is about a cylinder.

Generally, there are pneumatic cylinders using hydraulic cylinders and gas, which use liquids largely depending on the kind of working fluid, by changing the pressure in the cylinder by regulating the flow of air or fluid and converting it into linear motion of the piston.

These pneumatic cylinders use compressed air only in one direction of movement and single acting, which is configured to return by self-weight or external force of springs, pistons and rods in the opposite direction, and alternates the compressed air on both sides. It is classified as double acting, which feeds the piston forward or backward.

1 shows an example of a conventional single-acting cylinder.

Referring to FIG. 1, a conventional single-acting cylinder includes a cylindrical cylinder barrel 1, a head cover 2 sealing both opening portions of the cylinder barrel 1, and an inner chamber of the cylinder barrel 1. A piston (3) partitioning the piston, a piston rod (4) connected to the piston (3) for transmitting power, an air injection port (5) for injecting air into the cylinder barrel (1), and It consists of the air vent 6 for discharging air from the inside of the cylinder barrel 1. As shown in FIG.

According to this configuration, when air is injected into the air injection port 5, the air pressure rises in the first chamber C1 partitioned by the piston 3, so that the piston 3 and the piston rod 4 are vented with air. It moves to (6), in the process of the air inside the second chamber (C2) is discharged to the outside through the air vent (6).

On the contrary, when air is not injected into the first chamber C1, the piston rod 4 moves the piston 3 in the direction of the air injection port 5 by, for example, external force.

However, in the conventional single-acting cylinder of this configuration, the air vent 6 is always open in the form of a hole so that when the piston 3 proceeds toward the air injection port 5, foreign matter contained in the outside air is present. It can flow in, which adversely affects the operation of the piston 3, which causes the life of the piston 3 to be shortened.

Accordingly, the present invention has been proposed to solve the conventional problems as described above, the main object of the present invention, while the inlet operation by the air pressure in addition to the air discharge mode other than the cylinder barrel is blocked by the outside inflow of foreign matter contained in It is to provide a single-acting pneumatic cylinder having a variable discharge vent that can limit the maximum.

Main aspect of the present invention for achieving the above object,

A vertical cylindrical cylinder barrel, a head cover sealing both openings of the cylinder barrel, a piston partitioning an inner chamber of the cylinder barrel, a piston rod connected to the piston to transmit power, and the cylinder barrel A single-acting pneumatic cylinder composed of an air injection port for injecting air into the inside of the cylinder and a variable discharge vent for discharging air from the inside of the cylinder barrel,

The variable discharge vent may include a vent member installed in a longitudinal direction in an installation hole drilled in the cylinder barrel to discharge air in the cylinder barrel to the outside; The lower stopper is formed to protrude to one end of the outer peripheral surface of the vent member;

A discharge inlet for discharging air in the cylinder barrel is formed at one side of the vent member, and a discharge outlet for discharging air introduced into the discharge inlet is formed at the other side of the vent member. It is a single-acting pneumatic cylinder having a variable discharge vent formed with a connection passage for connecting them in communication with the inlet and the discharge outlet.

In addition, an additional aspect of the present invention is a single-acting pneumatic cylinder having a variable discharge vent, characterized in that it further comprises an upper stopper formed on the other end of the outer peripheral surface of the vent member.

In addition, an additional aspect of the present invention is a single-acting pneumatic cylinder having a variable discharge vent, characterized in that an airtight packing for sealing the gap with the outer peripheral surface of the vent member is provided on the inner surface of the head cover.

The present invention can be configured to minimize the inflow of foreign substances into the cylinder barrel by configuring the discharge vent to be variable to open only when the air is discharged, thereby preventing abnormal wear of the piston further contributes to the extension of the life of the pneumatic cylinder Has an advantage.

1 is a longitudinal sectional view of a conventional single-acting pneumatic cylinder.
2 is a cross-sectional view of the single-acting pneumatic cylinder according to the present invention, a cross-sectional view of the air discharge mode.
3 is a cross-sectional view of the single-acting pneumatic cylinder according to the present invention, in a non-discharge mode.
4 is another embodiment of a variable discharge vent according to the present invention.

Embodiments of the present invention are disclosed below.

The disclosed embodiments are provided so that those skilled in the art can easily understand the spirit of the present invention, and the present invention is not limited thereto. The embodiments of the present invention may be modified in other forms within the scope and spirit of the present invention. As used herein, the term " and / or " is used to include at least one of the preceding and following elements. "On" other elements herein means that other elements are directly located on one element and that the third element is further located on the one element . Although each element or portion of the specification is referred to by using the expressions of the first and second expressions, it is not limited thereto. The thickness and relative thickness of the components represented in the drawings may be exaggerated to clearly express embodiments of the present invention. In addition, matters represented in the accompanying drawings may be different from the form actually embodied in the schematic drawings in order to easily explain the embodiments of the present invention.

2 is a cross-sectional view of the single-acting pneumatic cylinder according to the present invention, a cross-sectional view of the air discharge mode, Figure 3 is a cross-sectional view of the single-acting pneumatic cylinder according to the present invention, a non-discharge mode.

2 and 3, the single-acting pneumatic cylinder 10 according to the present invention, the cylinder barrel 100, the head cover 200, the piston 300, the piston rod 400, the air injection port 500 And a variable discharge vent 600.

The cylinder barrel 100 is open at both sides to serve as an outer case of the single-acting pneumatic cylinder 10, and may be, for example, a cylindrical shape in both the vertical directions in which both sides are open.

The head cover 200 is installed to be inserted into both open sides of the cylinder barrel 100 to serve to seal the opening of the cylinder barrel 100. Meanwhile, a rod bearing 700 may be installed inside the upper head cover of the head cover 200 to smoothly guide the linear movement of the piston rod 400.

Piston 300 is installed in the inner chamber of the cylinder barrel 100 is operated in the longitudinal direction of the cylinder barrel 100 in accordance with the air pressure.

One end of the piston rod 400 is connected to the piston 300, and the other end thereof is exposed to the outside through the rod bearing 700 and the upper head cover in the drawing. Here, the exposed end of the piston rod 400 is jointed with the external device.

Air injection port 500 is formed on the lower side of the cylinder barrel 100, the air injection port 500 is connected to the air injection means not shown, the air supplied from the air injection means It is injected into the cylinder barrel 100 through the port 500.

The variable discharge vent 600 serves as an outlet for discharging the air in the cylinder barrel 100 to the outside according to the reciprocating motion (for example, up and down or left and right reciprocating motion) of the piston 300, It is a key part.

The variable discharge vent 600 is installed in the longitudinal direction (for example, vertically or horizontally) in the installation hole 110 perforated on one side of the upper surface of the cylinder barrel 100 to enable a variable flow, Vent member 610 which serves to discharge the air in the cylinder barrel 100 to the outside, and is formed to protrude to one end (for example, the bottom) of the outer peripheral surface of the vent member 610 variable discharge vent 600 ) Is configured as a lower stopper 620 to prevent the departure from the outside. Here, it will be obvious that the outer diameter of the lower stopper 620 should be larger than that of the installation hole 110.

At one side of the vent member 610 (ie, the upper side of the lower stopper 620), an outlet inlet 611 for discharging the air inside the cylinder barrel 100 is formed, and at the other side (ie, the vent). The upper side of the member 610 is formed with a discharge outlet 612 for discharging the air introduced into the discharge inlet 611 to the outside. In addition, the discharge inlet 611 and the discharge outlet 612 are connected in communication with each other by a connecting passage 613.

Therefore, when air is injected into the cylinder barrel 100, the variable discharge vent 600 moves from the state of FIG. 2 to the state of FIG. 3, that is, upward by the injected air pressure, so that the discharge outlet 612 communicates with the outside. As it is possible to discharge the air in the cylinder barrel 100 to the outside, on the contrary, since the air pressure does not work in the state that the air is not injected into the cylinder barrel 100, the variable discharge vent 600 is self-weight (or, External force) is moved downward as shown in FIG. 2, so that the discharge outlet 612 is blocked from the outside, thereby stopping the air discharge action.

As such, when the discharge outlet 612 is located inside the cylinder barrel 100, the outer outlet is disconnected from the outside, so that foreign matter does not flow into the cylinder barrel 100 so that the piston 300 has a favorable effect. Ultimately, the life of the pneumatic cylinder is extended and the reliability of the product is improved.

In addition, it can be understood that such a variable discharge vent 600 is very useful for a structure that must continuously maintain a heavy object upward on the piston rod 400. This is because the piston rod 400 is forced down by a heavy object, and a considerable pressure of air must be injected through the discharge inlet 611 to lift the piston 300. At this time, the variable discharge vent 600 moves upward to discharge the air through the discharge outlet 612 to lift the piston 300. On the contrary, when the air is not injected, the piston rod 400 forces downward. However, since the variable discharge vent 600 moves downward by its own weight to block the discharge outlet 612, the piston rod 400 no longer descends by preventing air from being introduced through the discharge outlet 612. It will also prevent you from doing so.

On the other hand, as shown in Figure 4, the other end of the outer peripheral surface of the vent member 610 (for example, the upper end of the outer peripheral surface of the variable discharge vent 600) variable discharge vent is drawn into the interior of the cylinder barrel 100 The upper stopper 630 may be installed to prevent it.

In addition, an airtight packing 210 may be installed on an inner surface of the head cover 200 to seal a gap with an outer circumferential surface of the vent member 610.

The scope of the present invention is not limited to the above-described embodiments but may be implemented in various forms of embodiments within the appended claims. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the appended claims.

10: single acting pneumatic cylinder
100: cylinder barrel
200: head cover
300: piston
400: piston rod
500: air injection port
600: variable discharge vent
610: exhaust vent
620: lower stopper

Claims (3)

A cylinder cylinder 100 having a vertical cylindrical shape, a head cover 200 sealing both opening portions of the cylinder barrel 100, a piston 300 partitioning the inner chamber of the cylinder barrel 100, and The air is discharged from the piston rod 400 connected to the piston 300 to transmit power, and the air injection port 500 and the cylinder barrel 100 to inject air into the cylinder barrel 100. As a single-acting pneumatic cylinder consisting of a variable discharge vent 600 for
The variable discharge vent 600 is installed to be variable in the longitudinal direction in the installation hole 110 perforated in the cylinder barrel 100 is vent member 610 that serves to discharge the air in the cylinder barrel to the outside ; The lower stopper 620 is formed to protrude to one end of the outer peripheral surface of the vent member 610;
A discharge inlet 611 for discharging air in the cylinder barrel 100 is formed at one side of the vent member 610, and is introduced into the discharge inlet 611 at the other side of the vent member 610. A discharge outlet 612 is formed for discharging the air to the outside, and between the discharge inlet 611 and the discharge outlet 612 is a single-acting type having a variable discharge vent formed with a connection passage 613 for connecting them in communication. Pneumatic cylinder.
The method of claim 1,
Single-acting pneumatic cylinder having a variable discharge vent, characterized in that it further comprises an upper stopper (630) formed on the other end of the outer peripheral surface of the vent member (610).
The method according to claim 1 or 2,
The inner surface of the head cover 200 is a single-acting pneumatic cylinder having a variable discharge vent, characterized in that the airtight packing for sealing the gap with the outer peripheral surface of the vent member (610) is installed.

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