KR200191882Y1 - Device for marine level intervention - Google Patents

Abstract

The present invention allows the valve to be opened and closed by the diaphragm and the air vent pin, so that the air pressure at the inlet and outlet of the body is always maintained at a constant balance, so that the precise measurement of the precision measuring equipment placed on the table is possible and the horizontal adjustment is possible. It relates to a leveling device for simplifying the configuration of the device to improve productivity, in particular, in the leveling device is connected to the air tank is connected to the inlet side of the body and the air spring holding the table on the outlet side of the body, The cap is coupled to the top and the upper end of the cap is provided with a lever pivoted in contact with the bottom of the table, the inside of the cap is provided with a diaphragm having a valve for transmitting the pneumatic flow back from the outlet side to the top of the cap, The upper part of the cap is lifted by backflow pneumatic pressure to press one end of the lever to keep the lever level. The air vent pin is provided, the inside of the body is configured to be provided with a valve stem for pressing the diaphragm to open the inlet.

Description

Leveling device {device for marine level intervention}

The present invention relates to a leveling device, and more particularly to the diaphragm and the By opening and closing the valve by the avent pin, it is possible to finely control the amount of air supplied to the vibration suppression apparatus, and also relates to a horizontal adjustment device that improves productivity by simplifying the configuration.

In general, as electronic components and precision equipment components are radically developed, automation for mass production is in progress. In order to measure and observe products such as semiconductors manufactured in the production line, the relevant precision measurement equipment should be installed.

Such precision measuring equipment such as microscope, roundness measuring instrument, electronic scale and optical device should be considered in various situations depending on the measurement and observation environment when installing in research institute or laboratory. Precision measuring equipment should be kept constant at all times in the installed state at all times, especially when the vibration is completely blocked to make precise measurement.

The design for maintaining the horizontal level of the conventional precision measurement equipment has been disclosed in Korean Utility Model Publication No. 95-2428. When the high precision equipment such as microscope or electronic scale is mounted on the table, the hydraulic pressure and flow rate of the air tank compressed air to the inlet side and the air spring compressed air to the outlet side according to the load applied to the lever to balance the eccentric load By adjusting it properly, the vibration can be prevented with a constant level.

However, the conventional leveling device has a disadvantage that the structure is complicated and the number of parts is large and productivity is reduced because the spring is doubled and the stem and the valve are far apart.

The present invention was developed in view of the conventional problems, and an object of the present invention is to open and close the valve by the diaphragm and the air vent pin, so that the air pressure at the inlet side and the outlet side of the body always maintains a constant balance table It is to provide a leveling device that enables the precise measurement of the precision measuring equipment placed in the and to improve the productivity by simplifying the configuration of the leveling device.

1 is a front view of a table installed with a general horizontal adjustment device

Figure 2 is a perspective view of the subject innovation leveling device

Figure 3a, b is a cross-sectional view showing the operating state of the subject innovation leveling device

<Description of Signs of Major Parts of Drawings>

1: Body 1a: Inlet 1b: Outlet

2: cap 3: lock nut 4: push bolt

5: lever 6: level adjusting bolt 7: spring holder

8 spring 9 valve stem 10 valve

11 diaphragm 12 tray 13 air vent pin

14 Table 15 Air Spring 16: Leg

In order to achieve the above object, the present invention provides a horizontal adjusting device in which an air tank is connected to the inlet side of the body and an air spring is connected to the outlet side of the body. It is provided with a lever rotated in contact with the bottom of the table, the inside of the cap is provided with a diaphragm having a valve for transferring the pneumatic flow back from the outlet side to the top of the cap, the top of the cap is raised by the back pressure Is provided with an air vent pin for pressing the one end of the lever so that the lever is horizontal, the inside of the body is configured to be provided with a valve stem pressed by the diaphragm to open the inlet.

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

1 is a front view of a table installed with a general horizontal adjustment device, Figure 2 is a perspective view of the subject innovation leveling device. A table 14 on which the precision measuring equipment is placed These tables are supported by legs provided with air springs 15. And it is provided with a horizontal adjusting device for supplying a constant pneumatic pressure to these air springs (15).

The horizontal adjusting device is provided with a body (1) fixed to one side of any one leg 16, the upper portion of the body (1) is provided with a lever (5) contacting the bottom surface of the table (14) is rotatable. And the front end of the lever (5) is provided with a level adjusting bolt (6) that can adjust the height in contact with the bottom surface of the table (14).

The lever 5 is rotatably provided at the upper end of the cap 2 fastened to the upper portion of the body 1, and the diaphragm and the valve of the present invention are built in the cap 2. Figure 3 is a cross-sectional view of the subject innovation leveling device, the cap (2) is fastened and fixed to the threaded portion of the body (1) through the threaded portion. In addition, a flexible synthetic rubber diaphragm 11 is provided inside the cap 2, and a tray 12 for pressing the diaphragm 11 at a uniform pressure is provided on the upper surface of the diaphragm 11. do.

In addition, the upper surface of the tray 12 is provided with an air vent pin 13 exposed to the center of the upper surface of the cap (2). The lower end of the air vent pin 13 is placed on the upper surface of the tray 12, and one end of the lever 5 is provided with a pressing bolt 4 for pressing the air vent pin 13, respectively. A small hole is formed in the air vent pin 13 through which the outside air flows into the inside of the cap 2 to bring the inside of the cap to atmospheric pressure.

The diaphragm 11 and the valve 10 penetrating the tray 12 are fastened to the center of the diaphragm 11. In addition, a valve stem 9 is provided at the center of the body 1 to block the inlet 1a of the lower part of the body, and the valve stem 9 is lifted by the spring 8 so that the inlet 1a is always Allow them to be blocked. In addition, one side of the outer circumferential surface of the body 1 is provided with an outlet 1b for sending air pressure toward the air spring 15 of the vibration suppression apparatus. Reference numeral 3 denotes a lock nut fastened to the top of the cap 2 to limit the rotation of the lever 5, and 7 denotes a spring holder for supporting the spring 8, respectively.

The invention thus constructed operates as shown in FIG. 3. The inlet 1a of the body 1 is connected to an air tank, not shown, and the outlet 1b is connected to the air spring 15 of the vibration suppression device by pneumatic lines, respectively. In this state, when the table 14 is horizontal or in a stable state where vibration does not occur, pneumatic pressure from the air spring 15 is transmitted to the inside of the cap 2 via the outlet 1b. And the valve 10 is formed in the center of the diaphragm 11 is delivered to the air vent pin 13, the air vent pin 13 is raised by the pneumatic pressure from the air spring 15 and the pressing bolt (4) Push it up so that the lever (5) is level.

3B is a state in which the table 14 loses horizontality or vibration is generated, and the pressure balance between the inlets and outlets 1a and 1b of the body 1 is broken. At this time, since the table 14 is inclined to one side, the force is transmitted to the pressing bolt 4 via the level adjusting bolt 6 and the lever 5. When the pressing bolt 4 is lowered, the air vent pin 13 in contact with this is lowered together, and the tray 12 and the diaphragm 11 are lowered together. When the diaphragm 11 is lowered, its valve 10 is blocked and the valve stem 9 presses down on the spring 8 and lowers. When the valve stem 9 is lowered, the inlet 1a is opened and the pneumatic pressure of the air tank is introduced into the body 1 through the inlet 1a and then transferred to the air spring 15 via the outlet 1b.

Therefore, when the air pressure of the air spring 15 is reinforced and the table 14 sag to one side is raised to its original state, and the table 14 is horizontal and the pressure balance between the inlet and the outlet 1a and 1b is maintained, the air spring ( The diaphragm 11 is raised by the pneumatic pressure flowing back from the 15 to the outlet 1b. When the diaphragm 11 is raised, the valve 10 falls from the valve stem 9 so that the pneumatic pressure flowing back from the outlet 1b is transmitted through the valve 10 into the cap 2 and the air vent pin ( 13) is raised again. Then, the lever 5 is returned to its original state while the air vent pin 13 is raised.

As described above, according to the present invention, a cap is coupled to an upper portion of a body, and a diaphragm having a valve is provided inside the cap. Therefore, when the balance of pressure is maintained, the air vent pin provided on the upper portion of the diaphragm is raised by pneumatic pressure from the air spring, and the lever is kept horizontal. When the table is tilted to one side or vibration is generated, the pressure balance is broken and the diaphragm is lowered to press the valve stem blocking the inlet to open the inlet.

Therefore, the air pressure from the inlet is transferred to the air spring through the outlet, so that the table is automatically leveled. According to the present invention, the configuration of the horizontal adjusting device is simplified, so that assembly performance is improved and productivity is improved.

Claims (1)

In the horizontal adjustment device is connected to the air tank 15 is connected to the inlet (1a) side of the body (1) and the air spring (15) holding the table 14 on the outlet (1b) side of the body (1), A cap 2 is coupled to the upper portion of the body 1, and an upper portion of the cap 2 includes a lever 5 pivoted in contact with the bottom surface of the table 14. The inside of the cap 2 is provided with a diaphragm 11 having a valve 10 for transferring the pneumatic flow back from the outlet 1b side to the top of the cap 2, The upper portion of the cap (2) is provided with an air vent pin (13) for pressing up one end of the lever (5) so as to be raised by the back flow pneumatic pressure to keep the lever (5) horizontal, Leveling device, characterized in that the inside of the body (1) is provided with a valve stem (9) pressed by the diaphragm (11) to open the inlet (1b).