KR19990018866A - Piston Outer Diameter Measuring Device - Google Patents

Abstract

The piston outer diameter measuring device of the present invention is horizontally disposed on the ground or the die, and the base portion 11 and the support portion 11a each having the support portion 11a formed integrally on the upper surface and the groove 11b formed on the surface thereof. The first rail rod 12 and the second rail rod 13 having the lower end vertically disposed, and the upper end of each of the rail rods 12 and 13 are fixed and aligned with the groove 11b of the base 11. A main body 10 including a fixing piece 14 having a fixing hole 14a positioned therein, and a first hole into which the rail rods 12 and 13 of the main body 10 are inserted to be movable up and down. A moving member 21 having a hole 21b and a second hole 21b formed therein and a guide hole 23 located in a straight line between the base 11 groove 11b and the fixing hole 14a. And a fixing member 22 formed integrally with the moving member and having a hole 22a formed therein for fixing the frame 8 of the micrometer 1 to the fixing bolt 14. Guide 20, the end portion is rotatably inserted and supported in the groove 11b of the base 11, the fixing hole 14a of the fixing piece 14 and the guide hole 23 of the moving member 21 A rod 31 rotatably inserted into the rod 31, a height adjusting member 30 integrally formed with a handle 32 for rotationally driving the rod 31, and a base 11 of the main body 10. It is arranged horizontally on the die or ground to be disposed, positioned at a distance from the base 11, the piston to be inspected is composed of a piston stand 40, which is disposed on the upper surface, characterized in that the piston and the micro Since only the micrometer is moved up and down while the meter is correctly fixed in position, the outer diameter of the piston can be measured at the optimum position of the piston, so that the outer diameter of the piston can be measured accurately and stably at all times.

Description

Piston outer diameter measuring device.

The present invention relates to a device for measuring the outer diameter of the piston reciprocating in the cylinder of the cylinder block of an automobile engine, and more particularly, the piston outer diameter that can be accurately positioned in place without the flow of micrometers can measure the outer diameter of the piston It relates to a measuring device.

In general, the car is equipped with an engine to drive the car. Such an engine is composed of, for example, a cylinder block in which a plurality of cylinders are formed, a crankcase in which a crankshaft is built, a cylinder head disposed in the cylinder block, and a piston reciprocally mounted permanently in the cylinder of the cylinder block.

When the piston is mounted in the cylinder, an appropriate clearance should be formed between the cylinder and the piston. When the clearance is large, the compression pressure caused by blow-by gas is lowered, the oil consumption is increased, and the engine is increased. On the other hand, when the gap is small, the oil film between the piston and the cylinder is destroyed, and friction wear is increased, as well as annihilation occurs due to such friction.

Accordingly, the diameter of the piston inserted into the cylinder should be optimally formed, as well as the diameter of the piston should be accurately measured and inspected accordingly.

The measurement of the diameter of such a piston uses a micrometer 1 as shown in FIG. That is, with the piston 2 to be measured being placed, for example, in a die not shown, the piston between the anvil 4 and the spindle 5 of the micrometer 1 using both hands 3. The outer diameter of the piston 2 is measured by rotating the thimble 6 in the state where (2) is placed and then reading in the state fixed by using the hatch storm 7.

However, the piston outside diameter measurement is not only difficult for the operator to accurately measure the outside diameter by setting everything arbitrarily, but also because the micrometer cannot be placed at the correct position during the measurement, the flow may be generated and the measurement state becomes unstable due to time There was an excessively exhausted problem.

Accordingly, the present invention has been made to solve the above problems, an object of the present invention to provide a piston outer diameter measuring device that can accurately measure the outer diameter of the piston.

Another object of the present invention is to provide a piston outer diameter measuring device capable of freely moving the height as well as stably fixing the micrometer when measuring the outer diameter of the piston.

These objects are achieved by a preferred embodiment of the present invention, according to one aspect of the present invention, the horizontally disposed on the ground or die, the support is integrally formed on the upper surface and the base is formed on the surface, the support portion A main body including a first rail rod and a second rail rod, each lower end of which is disposed vertically, and a fixing piece having a top end of each rail rod fixed thereto and a fixing hole perforated in a line with the groove of the base; A moving member in which a first hole and a second hole in which each rail rod of the main body is inserted to be movable up and down are drilled, and a guide hole is disposed in a straight line between the base groove and the fixing hole; The guide is formed integrally with the member and includes a fixing member in which a fixing hole in which a frame of the micrometer is fixed by the fixing bolt is formed therein, and an end thereof is A height adjusting member rotatably inserted into the groove of the base and rotatably inserted into the fixing hole of the fixing piece and the guide hole of the moving member, and a height adjusting member integrally formed with a handle for rotationally driving the rod; A piston outer diameter measuring device is provided, which is arranged horizontally on a die or ground on which the base is disposed, spaced at a predetermined distance from the base, and a piston mounting table on which a piston to be inspected is disposed on an upper surface thereof. .

1 is a perspective view showing a typical piston outer diameter measuring method.

Figure 2 is an exploded perspective view showing a piston outer diameter measuring device according to the present invention.

Figure 3 is a state of use of the piston outer diameter measuring device according to the present invention.

* Explanation of symbols for main parts of the drawings

1: micrometer 10: main body

11: base 12, 13: rail rod

20: guide 21: moving member

22: fixed member 30: height adjustment member

31: rod 40: piston mounting base

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

2 is an exploded perspective view of a piston outer diameter measuring apparatus according to a preferred embodiment of the present invention, Figure 3 is a perspective view showing a state of use of the piston outer diameter measuring apparatus according to the present invention.

2 and 3, the piston outer diameter measuring apparatus according to the present invention is composed of a main body 10, a guide 20, a height adjusting member 30 and a piston mounting base 40.

In more detail, the main body 10 includes a base 11, for example, which is leveled and disposed on a flat surface such as the ground or die D.

A support portion 11a is integrally formed on the upper surface of the base 11, and two rail rods, that is, the first rail rod 12 and the second rail rod 13 are vertically formed on the support portion 11a. The groove 11b is formed on the support portion 11a between the rail rods 12 and 13.

The first rail rod 12 has a circular cross section and the second rail rod 13 has a rectangular cross section, and the central axis of each of the rail rods 12 and 13 is on the center line of the support part 11a. To be placed on

In addition, a groove formed in the support portion 11a of the main body 10 at the center of the fixing piece 14 for fixing the rail rods 12 and 13 integrally to the upper end of each of the rods 12 and 13. A hole 14a opposed to 11a is drilled.

The guide 20 is inserted into each rail rod 12 and 13 of the main body 10 so as to be movable up and down along the rail rods 12 and 13.

The guide 20 includes a moving member 21 in which the rail is mounted on the rods 12 and 13, and a micrometer fixing member 22 fixed to one side of the moving member 21.

In more detail, the movable member 21 has a first hole 21a through which the first rail rod 12 of the main body 10 is inserted and a second hole through which the second rail rod 13 is inserted. 21b) is perforated. Of course, each hole corresponds to the cross-sectional shape of the rail rod to be inserted. The first hole 21a is circular and the second hole 21b is rectangular.

In particular, the second hole 21b is opened through the rear surface of the movable member 21. This is for smooth insertion and movement of the movable member 21.

On the other hand, the position of the movable member 21, namely. A guide hole 23 corresponding to the groove 11b of the main body 10 and the hole 14a of the fixing piece 14 is formed between the first hole 21a and the second hole 21b. A spiral is formed inside the guide hole 23.

On the other hand, in place of the moving member 21 is formed with a fixing hole 24 in communication with the first hole 21a to fix the moving member 21 in a proper position, the fixing hole 24 ), A spiral is formed, and a bolt-shaped fixing piece 24a is inserted into the fixing hole 24 in the form of a bolt.

Further, the micrometer fixing member 22 welded to the moving member 21 or integrally formed by another method is formed in a curved shape similar to the frame 8 of the micrometer 1, and the fixing member ( 22, a fixing hole 25 corresponding to the corresponding hole 8a is drilled out of a plurality of holes formed in the frame 8, and the fixing bolt 26 is releasable in each of the fixing holes 25. Is fixed.

Of course, it is preferable that the washer 26a is permanently installed in the fixing bolt 26 to fix the frame 8 of the micrometer to the fixing member 22 more firmly and stably.

The height adjusting member 30 is installed in association with the main body 10 and the guide 20.

In more detail, the height adjustment member 30 is the groove 11b of the support portion 11a of the main housing 10, the through hole 14a of the fixing piece 14, and the groove 11b and the through hole. (14) a rod portion 31 which is inserted through the guide hole 23 of the movable member 21 located in the die and in line with them, and a handle integrally formed at the upper end of the rod portion 31 ( 32).

The rod part 31 is inserted into each of the components and grooves so as to rotate only in a fixed position, and the handle 32 is integrally provided with a lever 32a for easy rotation and adjustment of the handle 32. Is formed.

Optionally, according to the present invention, a piston mounting base 40 for mounting the measured piston 2 is provided, the piston mounting base 40 being positioned at a horizontal level such as a die D, for example. The lower surface must be flat so that it can be placed horizontally, and the upper surface must also be horizontal so that the piston 2 to be measured can be kept vertical.

In the present embodiment, the piston holder 40 is formed in a cylindrical shape, but may be formed in various forms as long as it can maintain a horizontal shape.

According to the method of measuring the outer diameter of the piston by using a measuring device according to the present invention, first, the operator or inspector to arrange the piston (2) to be inspected in the state of maintaining the horizontal and vertical to the piston mounting table (40).

Thereafter, the operator adjusts the moving member 21 of the guide 20 to the height of the piston 2 by rotating the handle 31 of the height adjusting member 30 or the lever 32 fixed to the handle. At this time, the moving member of the guide 20 is moved up and down as the rod 31 is rotated by the screw coupling between the spiral formed in the rod 31 of the adjusting member 30 and the guide hole 23.

At the same time, the micrometer mounting portion 30 formed integrally with the moving member 21 is also moved to the piston 2, and thus the anvil of the micrometer 1 at the set point at which the outer diameter of the piston 2 is to be measured. It is located between (4) and the spindle (5), and the inspector tightens the fixing bolt 24a to firmly support the guide 20.

In this state, the operator or inspector rotates the thimble 6 to move the anvil 4 and the spindle 5 until it is completely fixed to the outer side of the piston 2 and the thimble 6 is idle. If the ratchet stop 7 is immediately rotated and fixed, the actual diameter of the piston 2 can be measured by reading the scale of the micrometer 1 at this time.

As a result, when measuring the outer diameter of the piston using the measuring device according to the present invention, only the micrometer is moved up and down while the piston and the micrometer are correctly fixed in position, thereby reducing the outer diameter of the piston at the optimum position of the piston. Since it can measure, there is an effect which can measure the outer diameter of a piston always accurately and stably.

While preferred embodiments of the present invention have been described above, it will be understood by those skilled in the art that various modifications and changes can be made without departing from the scope of the appended claims.

Claims (3)

The base 11 is horizontally disposed on the ground or die, the base 11 having the support 11a formed integrally on the upper surface and the groove 11b formed on the surface thereof, and the first rail having the lower end vertically disposed on the support 11a. Rod 12 and second rail rod 13, and fixing holes 14a which are fixed to the upper ends of the respective rail rods 12 and 13 and are in line with the grooves 11b of the base 11 The main body 10 including the perforated fixing piece 14, the first hole 21a and the second hole in which the rail rods 12 and 13 of the main body 10 are inserted to be movable up and down. 21b) is formed in a perforated and formed in the movable member 21 and the movable member 21 having a perforated guide hole 23 located in a straight line between the base 11 groove 11b and the fixing hole 14a. The guide 20, the end of which includes a fixing member 22 in which the fixing hole 22a in which the frame 8 of the micrometer 1 is fixed by the fixing bolt 14 is formed. A rod 31 rotatably inserted into the groove 11b of the base 11 and rotatably inserted into the fixing hole 14a of the fixing piece 14 and the guide hole 23 of the moving member 21. And a height adjusting member 30 integrally formed with a handle 32 for rotationally driving the rod 31, and horizontally disposed on a die or ground on which the base 11 of the main body 10 is disposed. Piston outer diameter measuring device, characterized in that consisting of a piston stand 40, which is spaced apart from the base at a predetermined distance, the piston to be inspected is disposed on the upper surface. The method of claim 1, wherein the movable member 21 is formed with a fixing structure 24 penetrating through the first hole (21a) in which the first rail rod 12 of the main body 10 is inserted, the fixing hole ( 24) The piston diameter measuring device, characterized in that the fixing bolt (24a) which is fixed in contact with the first rail rod 12 is releasably inserted. The method of claim 1, wherein the first rail rod 12 has a circular cross section, the second rail rod 13 has a quadrilateral cross section, and the first hole 21a of the movable member 21 has a circular cross section. And the second hole (21b) has a quadrangular cross section.