KR200361050Y1 - A Device for Air Draw out of Oil pressure Cylinder - Google Patents

Abstract

The present invention is to open the check valve by supplying the hydraulic oil to the upper side of the piston in the hydraulic cylinder after the completion of the lowering, so that the operating oil of the upper piston side is transferred to the tube side connecting pipe through the check valve, the piston lower and the tube side This makes it easy and easy to discharge the air remaining in the connecting pipe, thus eliminating the need to separate the hydraulic line to remove the air, thereby preventing damage to the hydraulic cylinder connection and keeping the weight in a constant position at all times. It is possible to improve the function of the hydraulic crane, and to the air discharge device of the hydraulic cylinder to prevent the fall of heavy materials.

The technical configuration of the hydraulic cylinder 110, one side of the piston 140, the check valve 200 which is installed in the spring 210 is installed, the hydraulic oil of the upper side of the piston 140 tube side connection pipe 150a It is the point that it is installed so that spillage is possible.

Description

A device for air draw out of oil pressure cylinder

The present invention relates to an air discharge device of a hydraulic cylinder that can easily and easily discharge and remove the air flowing into the hydraulic cylinder working oil of the hydraulic equipment such as a hydraulic crane, in particular, check with one side of the piston of the hydraulic cylinder By installing a valve and opening the check valve by supplying hydraulic oil to the upper side of the piston after the piston in the hydraulic cylinder is completed, the hydraulic oil on the upper side of the piston is transferred to the tube-side connecting pipe through the check valve, so that the lower piston And the air remaining in the tube-side connecting pipe can be easily and easily discharged, and accordingly, there is no need to separate the hydraulic line for removing the air, thereby preventing damage to the hydraulic cylinder connection and always maintaining a constant weight. Can be held in position to improve the functionality of the hydraulic crane. , It is one of the air discharging apparatus of the hydraulic cylinder so as to prevent dropping of a heavy object.

In hydraulic equipment such as hydraulic cranes, which are generally known, it is common to use one or more hydraulic cylinders in combination to generate a large force and a relatively long stroke in the operation of the hydraulic cylinder, which is an essential component for operating the hydraulic crane. to be.

In the hydraulic cylinder constituting the conventional hydraulic system related to the above technique, as shown in FIGS. 1 and 2, thrust is generated to one end of the rod 20 of the hydraulic cylinder 10 to push the heavy material 30. Raised and lifted, the rod-side connecting pipe 50b and the tube-side connecting pipe 50a are communicated with each other on the upper and lower sides of the piston 40 filled with the hydraulic oil of the hydraulic cylinder 10, and the hydraulic oil supply pump 60 and It is spoken with the hydraulic oil tank 70. At this time, the rod-side connecting pipe (50b) and the tube-side connecting pipe (50a) is made of a configuration for connecting through the connecting portion (80).

Therefore, as shown in FIG. 1, when hydraulic oil flows into the hydraulic cylinder 10 through the tube-side connecting pipe 50a by the operation of the hydraulic oil supply pump 60, the hydraulic cylinder 10 The piston 40 is lifted up by the inflow of the hydraulic oil, and the hydraulic oil on the upper side of the piston 40 is discharged to the hydraulic oil tank 70 through the rod-side connecting pipe 50b by the lift-up operation of the piston 40. Accordingly, the rod 20 connected to the piston 40 is operated to be lifted up so that the weight 30 is pushed up by the thrust transmitted from one end thereof to maintain the constant position.

On the contrary, the piston 40 and the rod 20 connected thereto are drawn by the hydraulic oil diverting valve 90 to perform the lowering operation of the heavy weight.

However, due to the suction process from the hydraulic oil tank 70 and the air inflow from the pipe joint and the sudden change of the flow path between the rod side connecting pipe 50b and the tube side connecting pipe 50a, (Bubble) is generated, there is a disadvantage that the setting stroke through the rod 20 of the hydraulic cylinder 10 is not made properly.

On the other hand, in order to remove the air in the hydraulic cylinder 10, as shown in Figure 2, the connection portion 80 between the tube-side connecting pipe (50a) must be disassembled to artificially remove the air, the boom of the hydraulic crane When assembled in a welded structure such as this, it causes a delay in operation of the crane due to frequent air removal work, and when the inflowed air is not discharged, it causes a volume reduction by cooling the air, and the weight falls, and the air is easily compressed. Or there are many problems, such as being unable to control the stroke stroke movement of the cylinder by the property of expansion.

The present invention has been made in order to improve the conventional problems as described above, the object is, by opening the check valve installed on one side of the piston by the supply of hydraulic oil to the piston upper side after the completion of the lowering of the hydraulic cylinder, the piston upper side Of the hydraulic oil is transferred to the tube-side connecting tube through the check valve, so that the air remaining in the lower part of the piston and the tube-side connecting tube can be easily and easily discharged, and accordingly, the hydraulic line for removing the air It eliminates the need for separate operation to prevent damage to the hydraulic cylinder connection, improves the function of the hydraulic crane by keeping the heavy weight at a constant position at all times, and provides an air discharge device of the hydraulic cylinder that can prevent the heavy weight from falling. It is in

1 is a structural view of the operation of the piston lowered state of the conventional hydraulic cylinder.

Figure 2 is an operating structure for the air discharge of the hydraulic cylinder piston lowered state of Figure 1;

Figure 3 is an operation structure of the piston lowered state of the hydraulic cylinder for air discharge according to the present invention.

4 is an operation structural view of the piston in a raised state according to FIG.

5 is a view showing an air discharge process of the hydraulic cylinder according to the present invention.

6 is a view showing an air discharge process of the hydraulic cylinder according to another embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

110 ... hydraulic cylinder 120 ... rod

130 ... weight 140 ... piston

150b ... rod-side connector 150a ... tube-side connector

160 ... Oil Supply Pump 170 ... Oil Tank

180 ... connection 190 ... orifice

191.Oil inlet hole 200..Check valve

210 ... Spring 220 ... Directional switching valve

The present invention as a technical means for achieving the above object, the lifting and lowering the weight by the thrust of one end of the rod of the hydraulic cylinder, the rod side connecting pipe and tube side on the piston, the lower side of the hydraulic oil is filled The connecting pipes are communicated with each other, and the hydraulic oil supply pump and the hydraulic oil tank through the directional valve are communicated, wherein the rod-side connecting pipe and the tube-side connecting pipe are installed in the hydraulic cylinder to be connected through the connecting part.

An orifice is formed in the upper portion of the piston of the hydraulic cylinder is the oil inlet hole is formed in which the operating oil flows, the lower side of the piston is installed a check valve is installed in the spring, the hydraulic oil of the upper piston through the piston By providing an air discharge device of the hydraulic cylinder consisting of a configuration that is installed so that the outflow to the tube-side connection pipe.

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

3 is an operation structural view of the piston lowered state of the hydraulic cylinder for air discharge according to the present invention, Figure 4 is an operation structural view of the piston up state according to Figure 3 and Figure 5 is an air discharge process of the hydraulic cylinder according to the present invention As shown in the drawing, a heavy object 130 is positioned at one end of the rod 120 of the hydraulic cylinder 110, and rod-side connecting pipes (up and down) are provided on the upper and lower sides of the piston 140 in which the hydraulic oil of the hydraulic cylinder 110 is filled. 150b) and the tube side connection pipe 150a communicate with each other so as to communicate with the hydraulic oil supply pump 160 and the hydraulic oil tank 170 through the direction switching valve 220, wherein the rod side connection pipe 150b and the tube are connected. The side connection pipe 150a is installed to be connected through the connection part 180, respectively.

In addition, one side of the piston 140 of the hydraulic cylinder 110, the check valve 200 is installed in the spring 210 is installed, the hydraulic oil of the upper side of the piston 140 is connected to the tube side via the piston 140 It consists of a configuration that is installed so that the outflow to the pipe (150a).

Referring to the operation and effects of the present invention made of such a configuration as follows.

3 to 5, when the hydraulic oil is introduced into the hydraulic cylinder 110 through the tube-side connecting pipe 150a by the operation of the hydraulic oil supply pump 160, the hydraulic cylinder 110 The piston 140 of the hydraulic fluid is raised by the inflow of the hydraulic fluid, the hydraulic oil of the piston 140, the upward operation of the hydraulic fluid flows out to the hydraulic oil tank 170 through the rod-side connecting pipe (150b) As a result, the rod 120 connected to the piston 140 moves upward to smoothly perform the lifting operation of the heavy material 130 by the thrust generated at one end thereof.

On the contrary, the rod-side connecting pipe 150b is connected to the hydraulic oil supply pump 160 by the directional oil valve 220 installed in the hydraulic system, and the rod-side connecting pipe ( When the hydraulic oil is supplied to 150b), the hydraulic oil supplied to the upper side of the hydraulic cylinder 110 lowers the piston 140, and the hydraulic oil below the piston 140 passes through the tube side connecting pipe 150a. The oil is discharged to the tank 170.

At this time, one side of the piston 140 of the hydraulic cylinder 110, the check valve 200 is installed in the spring 210 is installed, even if the piston 140 inside the hydraulic cylinder 110 is completely seated on the floor. When the hydraulic oil of the upper side of the piston 140 reaches the pressure set by the spring 210 of the check valve 200 is supplied to the tube-side connecting pipe 150a via the check valve 200.

Therefore, as shown in FIG. 5, the air (bubble) generated in the lower side of the piston 140 and the tube side connecting pipe 150a, together with the hydraulic oil flowing out of the tube side connecting pipe 150a, the hydraulic oil tank. Inflow to the 170, wherein the air discharged to the working oil tank 170 is separated from the working oil is discharged into the atmosphere.

When the discharge of the air contained in the hydraulic fluid is completed as described above, the hydraulic fluid is introduced to the lower side of the piston 140 of the hydraulic cylinder 110 through the hydraulic oil supply pump 160 again by the operation of the direction switching valve 220, The check valve 200 on one side of the piston is to block the inflow of the working oil by the elasticity of the spring 210, it is possible to perform the lifting operation of the smooth weight 130 through the tension of the rod 120.

6 is a view showing the air discharge process of the hydraulic cylinder according to another embodiment of the present invention, the check valve 200 is installed in the spring 210 on one side of the piston 140 of the hydraulic cylinder 110, An orifice 190 in which an oil inlet hole 191 through which the operating oil of the upper part of the piston 140 flows is formed is installed above.

Therefore, by adjusting the inflow amount of the hydraulic oil flowing through the oil inlet hole 191 of the orifice 190, the hydraulic oil of the upper side of the piston 140 is unnecessarily discharged to the lower side of the piston 140 during the lower stroke of the piston 140, When the rod 120 is pulled in, the pulling speed and the drop in input may be prevented to smoothly perform the work.

In addition, instead of the check valve 200 as in the above embodiment, one side of the piston 140 of the hydraulic cylinder 110 is provided with a relief valve so that the piston 140 is upper side when the set pressure of the relief valve is reached. It is to be able to pass the hydraulic fluid of the piston 140 to the lower side.

According to the air discharge device of the hydraulic cylinder of the present invention as described above, by opening the check valve installed on one side of the piston by the supply of hydraulic oil to the piston upper side after the piston in the hydraulic cylinder is lowered, the hydraulic oil of the piston upper side check valve By being transferred to the tube-side connection pipe through, it is possible to easily and easily discharge the air remaining in the lower piston and tube-side connection pipe, and accordingly, there is no need to separate the hydraulic line for removing the air accordingly. It is possible to prevent damage to the hydraulic cylinder connecting portion, and to maintain the heavy weight at a constant position at all times to improve the function of the hydraulic crane, and there is an excellent effect of preventing the falling of the heavy weight.

Although the present invention has been illustrated and described in connection with specific embodiments, it is understood that the present invention may be variously modified and changed without departing from the spirit or the scope of the present invention provided by the following utility model claims. It will be appreciated that those skilled in the art can easily know.

Claims (3)

A rod-side connecting pipe 150b and a tube are disposed on the upper and lower sides of the piston 140 in which the heavy weight 130 is raised and lowered to one end of the rod 120 of the hydraulic cylinder 110, and the hydraulic oil of the hydraulic cylinder 110 is filled. The side connection pipe 150a communicates with each other so as to be in communication with the hydraulic oil supply pump 160 and the hydraulic oil tank 170 through the directional valve 220. In this case, the rod side connecting pipe 150b and the tube side connecting pipe ( 150a) in the hydraulic cylinder which is installed to connect through each of the connecting portion 180, One side of the piston 140 of the hydraulic cylinder 110, the check valve 200 is installed in the spring 210 is installed, so that the operating oil of the upper side of the piston 140 can flow out to the tube-side connection pipe (150a). Air discharge device of the hydraulic cylinder, characterized in that consisting of a configuration that is installed. According to claim 1, The oil inlet hole through which the operating oil of the upper portion of the piston 140, the check valve 200 is installed on the spring 210 to one side of the piston 140 of the hydraulic cylinder 110 flows ( 191 is an orifice 190 is formed, the air discharge device of the hydraulic cylinder, characterized in that is installed. delete