KR100582665B1 - Measured-material sliding block for measurement - Google Patents

Abstract

The present invention is for measuring an object of a relatively large weight, such as an automobile engine, in particular, provided with a separate moving block to be supplied to the high pressure air from the air compressor to the pressure chamber on the bottom and measured on the upper side of the surface plate By allowing it to be used as a pedestal of water,

After placing the workpiece of the large weight on the upper side of the moving block, the high-pressure air is discharged to the lower side of the moving block, thereby allowing the moving block to be floated at a predetermined interval from the upper surface of the moving block to easily move and move the moving block. The measurement object sliding movement block having the effect of making it possible to adjust the position and make more accurate measurement and precise measurement.

Surface plate, measuring instrument, pressure chamber, pressure gauge, pressure regulating valve, measuring object

Description

Measuring material sliding block for measurement {Measured-material sliding block for measurement}             

1 is an overall perspective view of a mobile block of the present invention

Figure 2 is a cross-sectional plan view of the mobile block of the present invention

Figure 3 is a connection diagram using the mobile block of the present invention

4a to 4b are side cross-sectional view of the mobile block of the present invention,

Figure 4a is a cross-sectional view of the state seated on the upper surface

Figure 4b is a cross-sectional view of a state raised to the upper surface plate

Figure 5 is a cross-sectional view showing the surface plate departure prevention action of the mobile block of the present invention

Figure 6 is a perspective view of the use state of the mobile block of the present invention

Explanation of symbols on the main parts of the drawings

1,1 ': Handle 2,2': Pressure chamber

3,3 ': Air pipe 4,4': Outlet

5: intermittent valve 6: pressure gauge

7: Air filter 8: Operation lever

9: pressure regulating valve 10: main body

11,11 ': Mounting hole

20: air compressor 21: table

22: measuring object 23: measuring instrument

24: fixing hole

The present invention is to measure a relatively large object, such as an automobile engine, in particular, by placing a large object on a separate moving block so that the moving block is suspended from the surface plate by a predetermined gap by high pressure discharge air. The present invention relates to a measurement workpiece sliding movement block capable of easily moving and positioning an object on a large weight body.

In order to precisely measure various workpieces and molded articles, it is generally measured using a measuring instrument having a precision on the upper surface of a surface plate having a smooth surface.

In particular, if you want to measure an object made of a relatively large weight such as an engine of a car, since a three-dimensional measurement cannot be performed with a general two-dimensional measuring instrument, the object is placed on the upper part of a large surface plate and various curved surfaces using a three-dimensional measuring instrument. By measuring the projections and projections in three dimensions, it is possible to measure the exact value.

At this time, since the large-scale heavy chain measuring object cannot be moved and changed by artificial force, it is roughly settled on the upper side of the surface plate by using a crane or a hoist, and the worker of the service life can accurately position it on the upper side of the surface plate. Or using a separate tool or the like to move the object within the measurement range of the instrument.

However, as described above, there is an unreasonable problem that requires a large number of working people because the movement of a large weight chain object is impossible when setting the object by the position movement, and change the position of the object using a separate tool such as a lever If you want to do that, there is a problem that the upper surface of the surface plate is damaged or scratched by the tool.

In particular, when the measuring object has a size outside the measuring range of the measuring instrument, accurate movement of the measuring object is required according to the measuring range. Since it is a large weight body, it cannot be moved depending on an artificial force, so a crane or a hoist is used. Since the object is not precisely moved by a conventional tool, there is a problem in that it is not only repeated positioning but also an incorrect measurement result.

The present invention has been made to eliminate the problems described above, provided with a separate moving block for receiving a high-pressure air from the air compressor to be discharged to the pressure chamber of the bottom to be used as a pedestal of the workpiece on the upper side of the surface plate ,

After placing the workpiece of the large weight on the upper side of the moving block, the high pressure air is discharged to the lower side of the moving block, thereby allowing the moving block to be floated by a predetermined distance from the upper surface of the surface plate, so that it can be easily moved and positioned. It is an object of the present invention to provide a measuring workpiece sliding movement block having the effect of making easier measurement and precise measurement.

Hereinafter, preferred embodiments of the present invention will be described.

1 is an overall perspective view of the mobile block of the present invention, Figure 2 is a plan view of the entire cross-sectional view of the mobile block of the present invention, Figure 3 is a connection state of the mobile block of the present invention.

Handles 1 and 1 'are formed on both sides of the main body 10 on the enclosure, and a plurality of groove-like pressure chambers 2 and 2' are formed on the bottom of the main body 10,

In the center of the pressure chamber (2) (2 ') is coupled to the discharge port (4) (4') connected to the air pipe (3) (3 ') inside the main body 10, respectively, the respective air pipe (3) ) (3 ') is connected to a separate air compressor 20,

An intermittent valve 5, a pressure gauge 6, and an air filter 7 are sequentially connected to the air pipes 3 and 3 ′ positioned inside the main body 10, thereby providing The operating lever 8 and the pressure gauge 6 are configured to be exposed to one side of the main body 10.

In addition, the air pipes 3 and 3 'positioned between the discharge ports 4 and 4' and the air filter 7 are equipped with a separate pressure regulating valve 9, which is the main body 10. The air pressure of the discharge ports 4 and 4 'supplied to the pressure chambers 2 and 2' by the pressure regulating valve 9 can be varied so as to be exposed to the outside of the

The upper surface of the main body 10 is formed with a plurality of mounting holes (11, 11 ') made of a screw hole of a predetermined interval, the various mounting to the upper portion of the sliding block by the mounting holes (11, 11') In order to fix the measurement object firmly, even when measuring an object larger than the main body 10, a large measurement object can be fixed to the mounting holes 11 and 11 'by using a separate bracket or the like. It can also be configured.

In the drawings, reference numeral 21 denotes a surface plate, 22 a measurement object, 23 a measuring instrument, and 24 a fixing hole.

If described in more detail by the accompanying drawings the operation of the measurement object sliding movement block for the present invention as described above are as follows.

First, the moving block of the present invention is used in the state of being placed on the upper surface of the surface plate 21, and the measurement object 22 is placed on the upper surface of the moving block instead of placing the measurement object directly on the surface plate 21. ) And put the desired measurement using the measuring instrument (23).

Such a moving block is used when the position of the measured object is to be changed in the state in which the measured object 22 is raised, and the movable block is lifted by a predetermined distance from the lower surface plate 21 so that a large weight is obtained even with a light force. It is possible to reposition the workpiece and the moving block of the sieve at the same time.

That is, the movable block is composed of a rigid enclosure main body 10, and a plurality of pressure chambers 2, 2 'are formed on the bottom surface of the body 10, and the pressure chamber 2 2 'is formed in the shape of a downwardly open groove, and is formed in a relatively deep and large groove.

When high-pressure air is discharged from the discharge ports 4 and 4 'coupled to the centers of the respective pressure chambers 2 and 2', the discharge air increases the pressure in the pressure chambers 2 and 2 '. The pressure is converted into an action force for raising the moving block from the bottom surface, that is, the upper surface of the surface plate 21.

In particular, each of the pressure chambers 2, 2 ′ and the discharge ports 4, 4 ′ in the center thereof are simultaneously connected by air pipes 3, 3 ′ formed inside the main body 10. When the air is supplied from the outside air compressor 20 and discharged to the pressure chamber 2, 2 'through the discharge ports 4, 4', the inside of the pressure chamber 2, 2 'is discharged. The moving block is supported at predetermined intervals by the pressure expansion.

At this time, the air provided from the air compressor 20 is to be cut off or supplied by a separate intermittent valve (5), the intermittent valve (5) is built into the main body 10 and the operating lever for operating this Since only (8) is exposed to the outside of the main body 10, when operating the above-mentioned operating lever (8) from the outside is to control the air supplied while the valve is opened or blocked.

In addition, the pressure gauge 6 formed in the supply line of the high-pressure air through the air pipe (3) (3 ') is the air pipe at the time of lifting the moving block by increasing the pressure of the pressure chamber (2) (2'). 3) It is possible to recognize the pressure inside (3 '), the appropriate pressure is to determine the height of the support of the moving block, most preferably the upper surface of the surface plate 21 and the moving block body 10 Ideally, the pressure should be set so that it is about 0.0025 to 0.003 mm apart from the bottom.

Therefore, it is possible to estimate the pressure of the air acting on the support of the moving block through the pressure gauge (6), when the pressure is lower or higher than the proper line, by operating a separate pressure control valve (9) Since the pressure inside the air pipes 3 and 3 'is added or subtracted, efficient setting of a constant flotation height becomes possible.

Therefore, as shown in FIG. 4A, after operating the external air compressor 20 while the movable block is placed on the upper side of the surface plate 21, the high-pressure supply is performed when the operation lever 8 on one side is turned ON. Air passes through the air filter (7) through the air pipe (3) (3 '),

The air filter 7 plays a role of removing moisture or oil remaining in the air to be supplied, such as disturbing the flow of air or polluting the upper surface of the surface plate 21 by moisture or oil. To remove it.

At this time, the pressure of the air supplied to the air pipe (3) (3 ') is mounted in the state exposed to the outside of the main body 10 so that the operator can easily observe through a separate pressure gauge (6) It is.

The air in which the water and oil are removed in this way is discharged through the respective discharge ports 4 and 4 'along the air pipes 3 and 3' and the pressure chambers 2 and 2 'on the bottom surface of the main body 10. The pressure in the pressure chambers 2 and 2 'increases with continuous discharge of high pressure air, and the increasing pressure acts as a repulsive force of the moving block from the surface plate 21 fixed from the ground. Therefore, from above a certain pressure, as shown in FIG. 4B, the main body 10 is lifted from the surface plate 21.

At this time, the lifting height is a very predetermined gap, in which the main body 10 floats and the high-pressure air compressed in the pressure chambers 2 and 2 'is exhausted to the outside. Since the amount of air discharged to ') and the amount of air flowing out to the outside are the same, the moving block is maintained at a predetermined interval from the upper surface of the surface plate.

Since the downward pressure is continuously applied by the loads of the measuring object 22 and the main body 10, the air amount provided from the discharge ports 4 and 4 ′ and the air amount discharged to the flotation gap are maintained in an equilibrium state. 10 is to maintain the suspended state in the upper surface of the surface plate 21 at stable intervals.

In the support state of the main body 10, the main body 10 may be easily moved to a desired position by holding the handles 1 and 1 'formed on both sides of the main body 10. When the movement of the main body 10, there is no interference or friction between the base plate 21 and there is no easy to move a large weight body.

In particular, when moving the block in the state in which the measuring object 22 on a large weight body is raised as described above, if the user pushes hard or applies excessive force unintentionally, it is moved or inadvertently necessary. If the fall off from the surface plate 21 will also occur.

Even in the case described above, as shown in FIG. 5, when any of the pressure chambers 2, 2 ′ below the main body 10 deviates from the edge of the surface plate 21, the pressure may be changed depending on the temporary opening of the pressure chamber. Since the pressure is not rapidly formed to support the main body 10 while being sharply lowered, the main body 10 is very safe because the sliding stops simultaneously with the opening of the pressure chambers 2 and 2 '.

In addition, the upper surface of the main body 10 has a plurality of threaded mounting holes 11, 11 'are formed at regular intervals, and the mounting holes 11, 11' are formed of the main body 10. In order to more firmly fix the measurement object 22 mounted on the upper surface with the main body 10, the measurement object 22 from the mounting holes 11 and 11 'of the main body 10 using a clamp or the like. By firmly fixing the, more stable fixing and precise measurement are possible.

In the case of a large measuring object larger than the main body 10, a separate bracket or the like is drawn out from the mounting holes 11 and 11 ', thereby enabling a firm fixing even in the large measuring object 22. .

Accordingly, as shown in FIG. 6, the measurement object 22 to be measured is placed on the upper surface of the main body 10 of the movable block placed on the upper side of the surface plate 21, and the main body of the main body 10 is measured within the measurement range of the measuring instrument 23. 10) can be easily adjusted by using the flotation force,

On the upper surface of the conventional surface plate 21, a plurality of fixing holes 24 are formed for the same purpose as the mounting holes 11 and 11 'of the main body 10. The high pressure air in the pressure chambers 2 and 2 'may leak out and the pressure thereof may be lowered. However, the pressure plate 2 and 2' have a relatively large area and size. Even if the pressure chambers 2 and 2 'are located in the upper fixing hole 24, only a brief pressure drop occurs, and this pressure drop hardly affects the lifting state of the sliding block. Even if a) is formed, it does not affect the movement of the sliding block. Thus, both a table having a general smooth surface and a table having a plurality of fixing holes 24 can be used easily and stably.

In the measurement object sliding moving block for measuring instrument of the present invention as described above, after placing the measured object of the large weight on the upper side of the moving block, the high pressure air is discharged to the lower side of the moving block, whereby the moving block is the upper surface of the surface plate. By allowing a predetermined interval from the float to be easily moved and position adjustment is to have the effect of making easier measurement and precise measurement.

Claims (3)

Handles 1 and 1 'are formed on both sides of the main body 10 on the enclosure, and a plurality of groove-like pressure chambers 2 and 2' are formed on the bottom of the main body 10, In the center of the pressure chamber (2) (2 ') is coupled to the discharge port (4) (4') connected to the air pipe (3) (3 ') inside the main body 10, respectively, the respective air pipe (3) ) (3 ') is connected to a separate air compressor 20, An intermittent valve 5, a pressure gauge 6, and an air filter 7 are sequentially connected to the air pipes 3 and 3 ′ positioned inside the main body 10, thereby providing The measurement lever sliding block for measuring, characterized in that the operating lever (8) and the pressure gauge (6) is exposed to one side of the main body (10). The method of claim 1, The air pipes 3 and 3 'positioned between the discharge ports 4 and 4' and the air filter 7 are equipped with a separate pressure control valve 9 so as to be exposed to the outside of the main body 10. Sliding moving block for the measurement object, characterized in that. The method of claim 1, Measuring workpiece sliding movement block, characterized in that formed in the upper surface of the main body 10 a plurality of threaded mounting holes (11) (11 ') at a predetermined interval.

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