KR20000026367A - Air cylinder - Google Patents

Abstract

PURPOSE: An air cylinder is provided to obtain moderate supply pressure of compressed air by evaluating the action of a piston to the supply pressure of the compressed air by using the scale on an inside observation window. CONSTITUTION: An air cylinder composed of a cylinder body, a piston rod and a piston(250) additionally comprises an inside observation window(260) on a certain position of the cylinder body to confirm the state of action inside the cylinder body. Herein, the inside observation window is transparent and marked with scale thereon. Thereby, a user confirms the movement of the piston via the inside observation window with naked eyes.

Description

Air cylinder

The present invention relates to an air cylinder for reciprocating linear motion by compressed air, and more particularly, to an air cylinder provided with an internal confirmation window so as to know an operating state therein.

An air cylinder is a mechanical device that converts the energy of compressed air into mechanical energy, and is reciprocated linearly by the air pressure acting on the piston. Such air cylinders are widely used in various industrial fields as well as in manufacturing devices for semiconductor devices.

Hereinafter, a conventional air cylinder will be described with reference to the drawings.

1 is a perspective view showing a conventional air cylinder.

As shown in FIG. 1, a typical air cylinder includes a cylindrical cylinder body 110, an upper cap 120 and a lower cap 130 installed at both ends of the cylinder body 110, and the upper and lower portions. Caps 120 and 130 are provided on the upper and lower air ports 121 and 131 to allow the compressed air to enter and exit the cylinder body 110, and reciprocate linearly in the cylinder body 110. The piston rod 140 is installed so that the piston rod 140, the piston 150 is installed on the outer peripheral surface of the piston rod 140 and reciprocated by the air pressure, and the cylinder body 110 is installed on the outer peripheral surface of the piston 150 And a packing 151 for sealing between the piston 150 and the like.

However, the conventional air cylinder has no method of checking the operating state inside. Therefore, when the pressure of the compressed air supplied into the cylinder body 110 falls below the driving pressure or the parts inside the cylinder body 110 are damaged, the air cylinder does not work. Since this is not made, there is a problem in the operation of the mechanism, such as operated by the air cylinder.

In addition, when periodically checking the operation state of the air cylinder or to check whether there is an abnormality in the cylinder body 110, there is an inconvenience to disassemble the air cylinder because it is impossible to check with the naked eye.

The present invention has been made to solve the problems of the prior art as described above, and an object of the present invention is to provide an air cylinder with an internal confirmation window so as to know the operating state of the inside.

1 is a perspective view showing a conventional air cylinder,

Figure 2 is a perspective view showing an air cylinder with an inner confirmation window according to the present invention.

<Explanation of symbols for the main parts of the drawings>

110,210 ... cylinder body 120,220 ... top cap

121,221 ... Top Airport 130,230 ... Bottom Cap

131,231 ... Lower Airports 140,240 ... Piston Road

150,250 ... piston 151,251 ... packing

260 ... inside confirmation window 261 ... ruler

In order to achieve the above object, an air cylinder according to the present invention includes: a cylinder body, a piston rod installed on the cylinder body so as to reciprocate linear movement, and installed on the piston rod to reciprocate linear movement of the piston rod by air pressure. An air cylinder comprising a piston; It is characterized in that the internal confirmation window is installed in a predetermined portion of the cylinder body so as to know the operating state inside the cylinder body.

Here, the internal confirmation window is preferably a transparent window, it is preferable that the ruler is drawn on the internal confirmation window.

Therefore, according to the present invention, since the operation state of the air cylinder can be easily confirmed from the outside, prompt actions are made when an abnormality occurs.

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

2 is a perspective view showing an air cylinder with a transparent window according to the present invention.

As shown in FIG. 2, the air cylinder according to the present invention includes a cylinder body 210, a piston rod 240, a piston 250, and an internal confirmation window 260.

The cylinder body 210 is generally cylindrical in shape, and the upper cap 220 and the lower cap 230 are installed at both ends thereof to seal the inside thereof. In addition, an upper air port 221 is provided in the upper cap 220 and a lower air port 231 is provided in the lower cap 230 to allow the compressed air to enter and exit the cylinder body 210. The piston rod 240 is installed to reciprocate linear motion inside the cylinder body 210, the outer peripheral surface of the disk-shaped piston 250 is installed. The piston 250 reciprocates by air pressure, and serves to reciprocate the piston rod 240. In addition, a packing 251 for sealing between the cylinder body 210 and the piston 250 is installed on an outer circumferential surface of the piston 250.

The inner confirmation window 260 is installed in a predetermined portion of the cylinder body 210 to determine the operating state inside the cylinder body 210. The inner confirmation window 260 has a rectangular shape that is longer in the reciprocating direction of the piston rod 240. In addition, the inner confirmation window 260 may be of a translucent or transparent material, but preferably of a transparent material that is easier to check the inside, and the packing 251 is preferably in a prominent color such as red. Do. In addition, a ruler 261 is drawn on the inner confirmation window 260 to know the moving distance of the piston 250.

Referring to the operation of the air cylinder according to the present invention described above are as follows.

When compressed air flows into the upper air port 221, pressure is applied to the piston 250 inside the cylinder body 210, whereby the piston 250 moves in one direction. As the piston 250 moves, the piston rod 240 also moves in the same direction. At this time, the air escapes through the lower airport 231. On the other hand, when compressed air flows into the lower air port 231, the piston rod 240 is moved in the opposite direction. As such, the piston rod 240 reciprocates linearly according to the supply position of the compressed air.

The air cylinder according to the present invention operated as described above, the visual confirmation of the movement of the piston 250 by the internal confirmation window 260. Therefore, if the air cylinder does not operate due to a decrease in pressure of the compressed air or damage to some parts, it is possible to check this immediately, so that quick measures are made. And, if you want to check the operation state of the air cylinder regularly or whether there is an abnormality in the cylinder body 210, it is easy to check with the naked eye without the need to disassemble the air cylinder. In addition, since the operation of the piston 250 with respect to the supply pressure of the compressed air can be digitized by the ruler 261 drawn on the internal confirmation window 260, an appropriate compressed air supply pressure and a minimum driving pressure can be obtained.

The technical scope of the present invention is not limited to the above-described embodiment, and it is apparent that the technical spirit of the present invention can be applied to various types of air cylinders by those skilled in the art.

As described above, the air cylinder according to the present invention can easily check the operating state of the inside through the internal confirmation window from the outside. Therefore, when an abnormality occurs, such as when the air cylinder is not operated, the operation state and cause of the abnormality can be immediately known, thereby making it possible to take prompt measures. In addition, since the operation of the piston with respect to the supply pressure of the compressed air can be quantified by the ruler drawn on the inner confirmation window, an appropriate compressed air supply pressure can be obtained.

Claims (3)

An air cylinder comprising a cylinder body, a piston rod installed on the cylinder body so as to reciprocate linearly, and a piston installed on the piston rod to reciprocally linearly move the piston rod by air pressure; Air cylinders, characterized in that the internal confirmation window is installed in a predetermined portion of the cylinder body to know the operating state inside the cylinder body. The method of claim 1, The internal confirmation window is an air cylinder, characterized in that the transparent window. The method according to claim 1 or 2, Air cylinders characterized in that the ruler is drawn on the inner confirmation window.