KR20160016131A - Inspection apparatus for gap of piston ring based on equipping with piston, and method for measuring gap of piston ring using the same - Google Patents

Abstract

The present invention relates to an apparatus to inspect a piston equipment based piston ring gap, and a method to measure a piston ring gap using the same. The purpose of a first aspect of the present invention, in accordance with the apparatus to inspect the piston equipment based piston ring gap (10) comprising a piston insertion hole (11), a dial gauge (12), and a lever unit (13), is to provide the apparatus to inspect the piston equipment based piston ring gap having the piston insertion hole (11) formed to store while being inserted into a piston (2) with respect to a reference piston ring (1) corresponding to a preset dimension of a gap (s1); and being inserted into the piston (2) with respect to another piston ring (1) different from the reference piston ring (1).

Description

TECHNICAL FIELD [0001] The present invention relates to an apparatus for inspecting a gap between a piston ring and a piston ring, and a method for measuring a piston ring using the piston ring,

The present invention relates to an apparatus for inspecting a piston ring root gap of a piston mounting base and a method of measuring a piston ring root gap using the same. More particularly, the present invention relates to a piston ring root gap inspecting apparatus, And a method for measuring a gap between a piston ring and a piston ring using the same.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a view showing the concept of a thread gap s1 of the piston ring 1. Fig. Referring to Fig. 1, the thread clearance s1 of the piston ring 1 has important quality characteristics that determine the engine performance, and the thread clearance s1 of the piston ring 1 is as shown.

The measurement of the gap clearance s1 of the piston ring 1 is carried out by using a ring gauge as shown in Fig. 2A having the same inner diameter as the diameter Dia of the cylinder inner diameter (hereinafter referred to as " Cyclinder Bore Dia & As shown in FIG. 2B, the piston ring 1 is inserted, and then a measurement is made with a clearance gauge as shown in FIG. 2C.

In order to measure the thread gap (s1) of the piston ring according to the conventional art as described above, it is possible to measure with the gauge after insertion into the ring gauge in the case of the single piece of the piston ring (1) The piston ring 1 mounted on the piston ring 1 has a limit point in which it is impossible to measure the hole clearance s1 and is possible only in a state in which the piston ring 1 is detached as shown in FIG.

3B, the piston ring 1 is separated from the piston 2 by using a dedicated jig JIG as shown in FIG. 3B, and then, And the measurement is performed with a gap gauge as in the case of FIG. 1, so that the larger the amount of product, the more labor and time are required.

Accordingly, in the related art, development of a technology for reducing the time and manpower required by measuring the hole clearance s1 of the piston ring 1 without separating the piston ring 1 from the piston 2 .

[Related Technical Literature]

1. Gap position detector of a piston ring (Patent Application No. 10-1999-0067623)

2. GAP MEASURING DEVICE OF PISTON RING FOR A VEHICLE (Patent Application No. 10-1996-0069021)

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems and it is an object of the present invention to provide a piston mounting base gap inspecting apparatus for saving time and manpower in measuring a wrench gap for a large amount of piston rings, And to provide a measurement method.

The present invention also provides a piston mounting base gap inspection apparatus for automatically measuring a hub gap in a state where a piston ring is fitted in a piston, and a piston ring root gap measurement method using the same.

However, the objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, a piston mounting base gap inspecting apparatus according to an embodiment of the present invention includes a piston mounting base 11 including a piston inlet 11, a dial gauge 12, and a lever portion 13, The piston insertion port 11 is inserted into the piston 2 with respect to the reference piston ring 1 corresponding to a predetermined dimension of the hole clearance s1, Is formed to be accommodated in the state of being inserted into the piston (2) with respect to the reference piston ring (1) and the other piston ring (1).

At this time, the dial gauge 12 is attached to the piston 2 inserted into the piston insertion port 11 in accordance with provision of a tensile force to the piston insertion port 11 by the tension end 13a extending from the lever portion 13 And a pressure gauge provided in the piston ring (1).

In addition, the present invention is a preliminary preparation process for precise measurement of the wicking clearance s1 with respect to the reference piston ring 1 to be measured and the other piston ring 1, s1) into the ring gauge and receiving the measured value from the gap gauge from the input unit (15); And further comprising:

The control unit 14 receives the piston clearance s1 for the reference piston ring 1 and then moves the piston 2 in the state where the reference piston ring 1 inserted into the piston inlet 11 is inserted. The number of the dial gauges 12 at a position where the thread clearance s1 of the reference piston ring 1 abuts against each other when the pulling event occurs The zero point correction for matching the zero point to zero is performed to complete the setting for measuring the hole clearance s1 of the other piston ring 1.

When the lever portion 13 is pulled by the user after inserting the piston 2 to which the other piston ring 1 to be measured is inserted into the piston inserting opening 11 and the dial gauge 12) of the piston ring (1), and performs an operation for automatic measurement of the gap (s1) of the other piston ring (1).

When the pointer of the dial gauge 12 is measured at a value larger than '0' (moved in the clockwise direction) during calculation of the shear clearance s1 for the other piston ring 1, '-' is given to the dial gauge 12 at the measured value for the reference piston 1, and '+' if the value is smaller than '0' (when moved counterclockwise) .

In order to achieve the above object, a method of measuring a piston ring thread gap using a piston-mounting thread gap inspection apparatus based on a piston according to an embodiment of the present invention is characterized in that, after insertion into a ring gauge for one reference piston ring (1) A first step in which the control unit 14 receives the measurement value measured through the input unit 15; When the piston 14 is inserted into the piston 2 with respect to the reference piston ring 1 and the piston 14 is received in the piston insertion port 11 and is pulled by the user with respect to the lever portion 13, Zero calibration is performed to set the number of the dial gauges 12 to "0" at positions where the wicking clearances s1 of the piston rings 1 are in contact with each other so that the initial setting for the wicking clearance (s1) A second step of completing the second step; After the piston 2 with the other piston ring 1 is received by the piston inserting port 11 and the lever portion 13 is pulled by the user, the control portion 14 causes the pointer 2 of the pointer needle 1 of the dial gauge 12, A third step of reading the position; And a fourth step of performing an arithmetic operation for automatic measurement of the thread gap (s1) of the other piston ring (1) using the position of the indicating needle of the read dial gauge (12) And a control unit.

In the fourth step, the control unit 13 determines whether the dial gauge 12 moves in the clockwise direction with respect to the position of the pointing needle. And when the judgment result is that the controller 13 has shifted in the clockwise direction with respect to the position of the indicating needle of the dial gauge 12, the reference piston ring in which the zero point correction is performed in which the number of the dial gauge 12 is set to " 0 & (S1) value for the other piston ring (1) by subtracting the number of graduations at the moved position by the number of graduations by a graduation unit from the value of the extrusion clearance (s1) input to the piston ring And a second stage.

If the controller 14 determines that the number of the dial gauges 12 is " 0 " in the case where the controller 14 moves in the counterclockwise direction with respect to the position of the pointer of the dial gauge 12 as a result of the determination, By the number of graduations at the position shifted from the value of the shearing clearance s1 inputted to the reference piston ring 1 subjected to the zero point correction to fit the piston ring 1 to the piston ring 1 And the value of the warp gap (s1) is calculated.

The apparatus for inspecting a piston-ring hole in a piston-mounted base according to an embodiment of the present invention and the method for measuring a piston ring-hole clearance using the same provide an effect of saving time and manpower when measuring a clearance gap between a piston ring and a large- do.

In addition, according to another embodiment of the present invention, there is provided an apparatus for inspecting a piston ring hole, which is based on a piston, and a method for measuring a piston ring hole using the piston ring, wherein the piston ring is automatically inserted into the piston, .

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a view showing the concept of a thread gap s1 of the piston ring 1. Fig.
Figs. 2 and 3 are views for explaining a method of measuring a warp clearance s1 of the piston ring 1 according to the conventional art.
FIG. 4 is a view showing an apparatus 10 for testing a piston-mounting hole according to an embodiment of the present invention.
FIGS. 5 and 6 are views for explaining a driving state of the apparatus for inspecting a piston ring hole, based on a piston, according to an embodiment of the present invention.
FIG. 7 is a view for explaining the principle of measurement of a wick gap by a piston mounting base gap inspecting apparatus 10 according to an embodiment of the present invention.
FIG. 8 is a flowchart showing a method of measuring a piston ring thread gap using a piston mounting base gap inspecting apparatus 1 according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a detailed description of preferred embodiments of the present invention will be given with reference to the accompanying drawings. In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

FIG. 4 is a view showing an apparatus 10 for testing a piston-mounting hole according to an embodiment of the present invention. Referring to Figure 4, a piston-mounting-based piston ring seal gap inspection apparatus 10 includes a piston inlet 11, a dial gauge 12, a lever portion 13, a control portion 14 and an input portion 15 . On the other hand, in the piston ring 1 used in the present invention

The piston inserting hole 11 is formed in such a manner that the reference piston ring 1 corresponding to a predetermined dimension (for example, 0.40 mm) of the through hole s1 is connected to the piston 2 and the piston ring 1 other than the reference piston ring 1, Is inserted to directly insert the piston 2 fitted.

The dial gauge 12 is attached to the piston 2 inserted into the piston insertion port 11 in accordance with the provision of a tensile force to the piston insertion port 11 by the tension end 13a extending from the lever portion 13 1). ≪ / RTI >

On the other hand, as a preliminary preparation process for precisely measuring the wicking clearance s1 with respect to the piston ring 1 to be measured, the wicking clearance s1 for one of the reference piston rings 1 is set in a conventional manner as shown in FIG. (Eg, measured gross clearance (s1) = 0.40 mm) is measured by means of a clearance gauge,

The control unit 14 receives the slit clearance s1 for the reference piston ring 1 through the input unit 15 and then inserts the reference piston ring 1 inserted into the piston insertion port 11 into a state And waits for the lever unit 13 to be pulled by the user for the purpose of correction of the piston 2 of the lever 2.

The control unit 14 determines the number of the dial gauges 12 at the position where the thread gap s1 of the reference piston ring 1 abuts each other as shown in FIG. 5B as the lever member 13 is pulled 0 ", thereby completing the setting for measuring the shear clearance (s1) of the other piston ring (1).

The control unit 14 inserts the piston 2 to which the other piston ring 1 to be measured is attached in the piston insertion port 11 and then the lever unit 13 is pulled by the user and the dial gauge 12 After reading the position of the indicating needle, an operation is performed for automatic measurement of the pit clearance (s1) of the other piston ring (1).

Specifically, assuming that a small scale of the dial gauge 12 corresponds to a unit of 0.01 mm, it is assumed in the first embodiment that the pointer position of the dial gauge 12 is in the range of (S1) of 0.01 mm = 0.39 mm "when 0.40 mm {the slit clearance (s1) of the reference piston ring 1 inputted) is located at 0.01 mm corresponding to a small scale in the clockwise direction as shown in Fig. Quot; 0.39 mm ".

In the second embodiment, when the pointer position of the dial gauge 12 is located at 0.06 mm corresponding to a small scale of 6 in the counterclockwise direction as shown in FIG. 6B, "0.40 mm {square root of the input reference piston ring 1 Quot ;, the gap (s1)} + 0.06 mm = 0.46 mm "and " 0.46 mm"

That is, when the pointer of the dial gauge 12 is measured at a value larger than '0' (moved in the clockwise direction), the measured value for the reference piston 1 (the hook clearance s1 = 0.40 mm) '-' is given to the dial gauge 12, and '+' when the value is smaller than '0' (when the dial gauge 12 is moved in the counterclockwise direction).

FIG. 7 is a view for explaining the principle of measurement of a wick gap by a piston mounting base gap inspecting apparatus 10 according to an embodiment of the present invention. That is, referring to FIG. 7, FIG. 7A is a view showing a piston ring 1 having a root gap of 0.40 mm corresponding to an initial setting value.

7B shows the piston ring 1 with a wedge clearance of 0.39 mm and has a wedge gap s1 smaller than the piston ring 1 of Fig. 7A corresponding to the initial set value, When the needle position is located at 0.01 mm corresponding to a large scale in the clockwise direction from "0 ", the thread clearance s1 is" 0.39 mm "

7C shows the piston ring 1 having a thread clearance of 0.45 mm. Assuming that the initial setting value corresponds to a thread clearance of 0.39 mm in FIG. 7B, the pointer needle position of the dial gauge 12 is "0 & 0.39 mm + 0.06 mm = 0.45 mm ", and the cusp gap (s1) is "0.45 mm "

FIG. 8 is a flowchart showing a method of measuring a piston ring thread gap using a piston mounting base gap inspecting apparatus 1 according to an embodiment of the present invention. Referring to FIG. 8, the control unit 14 receives the measurement value measured by the gauge gauge after inserting it into the ring gauge according to the conventional method for one reference piston ring 1 through the input unit 15 (S11) .

After step S11, the piston insertion port 11 receives the reference piston ring 1 with the measured size of the fork clearance s1 in the step S11 inserted into the piston 2 (S12).

After the step S12, as the lever portion 13 is pulled by the user, the control portion 14 sets the number of the dial gauges 12 at '0' at a position where the thread clearance s1 of the piston ring 1 abuts each other ', The initial setting for measuring the shear clearance s1 for the other piston ring 1 is completed (S13).

After the step S13 and after the piston 2 with the other piston ring 1 is received by the piston insertion port 11 and the lever part 13 is pulled by the user, the control part 14 controls the dial gauge The position of the pointing needle of the robot 12 is read out (S14).

After the step S14, the control unit 13 starts the calculation for automatic measurement of the threading clearance s1 of the other piston ring 1 by using the position of the indicating needle of the read dial gauge 12 (S15) .

After the step S15, the control unit 13 determines whether the pointer of the dial gauge 12 moves in the clockwise direction with respect to the position of the pointer (S16).

When the control unit 13 moves in the clockwise direction with respect to the position of the indicating needle of the dial gauge 12 as a result of the judgment in the step S16, the control unit 13 judges that the zero point correction for adjusting the number of the dial gauge 12 to '0' The number of graduations at the position shifted from the value of the gut gap (s1) input to the reference piston ring 1 is subtracted by a graduation unit so that the value of the gut gap (s1) relative to the other piston ring 1 (S17a).

On the other hand, when it is judged in the step S16 that the dial gauge 12 is moved in the counterclockwise direction with respect to the position of the indicating needle of the dial gauge 12, the control unit 14 judges that the zero point The number of graduations at the position shifted from the value of the extrusion clearance s1 inputted to the reference piston ring 1 subjected to the correction is multiplied by the scale unit to obtain the extrusion clearance for the other piston ring 1 s1) is calculated (S17b).

The calculation formula for measuring the thread clearance s1 using the piston mounting base piston ring threading gap inspection apparatus 10 is summarized as follows. When measured at a value larger than "0", "Quot; measured value of the gland clearance s1 measured for the reference piston ring - measured as the gauge value of the dial gauge 12 ", and measured to a value smaller than " 0 " (the measured value of the dial gauge s1 + the gauge value of the dial gauge 12).

In the method of measuring the piston ring wrench gap using the piston-ring wrench gap inspecting apparatus (10) based on such a piston mounting method, it is advantageous to use a ring gauge to measure a small number of wrench gap. However, It offers the advantage of saving.

As described above, preferred embodiments of the present invention have been disclosed in the present specification and drawings, and although specific terms have been used, they have been used only in a general sense to easily describe the technical contents of the present invention and to facilitate understanding of the invention , And are not intended to limit the scope of the present invention. It is to be understood by those skilled in the art that other modifications based on the technical idea of the present invention are possible in addition to the embodiments disclosed herein.

10: Piston ring base gap inspection system for piston mounting
11: Piston inlet
12: Dial gauge
13: Lever part
13a:
14:
15:

Claims (9)

1. A piston-mount-based clearance inspection apparatus (10) for a piston mounting base comprising a piston insertion port (11), a dial gauge (12), and a lever section
The piston insertion port 11 is inserted into the piston 2 with respect to the reference piston ring 1 corresponding to a predetermined dimension of the threading clearance s1 and the state in which the piston ring 1 is inserted into the piston ring 1, Is inserted into the piston (2) in a state where the piston ring (2) is inserted into the piston (2).
The dial gauge (12) according to claim 1,
The pressure applied to the piston ring 1 attached to the piston 2 inserted into the piston insertion port 11 in accordance with provision of a tensile force to the piston insertion port 11 by the tension end 13a extending from the lever portion 13 Wherein the gauge is mounted on the piston ring.
The method according to claim 1,
The slit clearance s1 for one reference piston ring 1 is measured by a ring gauge s1 for precise measurement of the slit clearance s1 with respect to the reference piston ring 1 to be measured and the other piston ring 1, A control unit 14 for receiving the measured value from the gap gauge from the input unit 15; Further comprising: a piston-thread-tightness inspection device for detecting the piston-ring rigidity.
The control unit (14) according to claim 3,
After receiving the threading clearance s1 for the reference piston ring 1, the piston ring 1 is inserted into the piston insertion port 11 from the user for correction of the piston 2 fitted with the reference piston ring 1 And the number of the dial gauges 12 is set to '0' at a position where the thread gaps s1 of the reference piston rings 1 are in contact with each other when the pulling event occurs, (S1) of the other piston ring (1), thereby completing the setting for the measurement of the gap clearance (s1) of the other piston ring (1).
The control unit (14) according to claim 4,
When the lever portion 13 is pulled by the user after the piston 2 with the other piston ring 1 to be measured is inserted into the piston insertion port 11 and the user pushes the position of the pointer of the dial gauge 12 (S1) of the other piston ring (1) after the readout of the piston ring (1) is performed.
The control apparatus according to claim 5,
When the indicator needle of the dial gauge 12 is measured at a value larger than '0' (moved in the clockwise direction) during the calculation of the clearance clearance (s1) relative to the other piston ring 1, , And performs a calculation of performing a minus value of the dial gauge (12) at a value obtained by subtracting the value of the dial gauge (12) from that of the piston gauge (12) Piston ring grooving clearance inspection device.
A first step in which the control unit (14) receives the measurement value measured by the clearance gauge after insertion into the ring gauge for one reference piston ring (1) through the input unit (15);
When the piston 14 is inserted into the piston 2 with respect to the reference piston ring 1 and the piston 14 is received in the piston insertion port 11 and is pulled by the user with respect to the lever portion 13, Zero calibration is performed to set the number of the dial gauges 12 to "0" at positions where the wicking clearances s1 of the piston rings 1 are in contact with each other so that the initial setting for the wicking clearance (s1) A second step of completing the second step;
After the piston 2 with the other piston ring 1 is received by the piston inserting port 11 and the lever portion 13 is pulled by the user, the control portion 14 causes the pointer 2 of the pointer needle 1 of the dial gauge 12, A third step of reading the position; And
A fourth step of the controller 13 performing an operation for automatic measurement of the thread gap s1 of the other piston ring 1 by using the position of the pointer of the dial gauge 12 read out; Wherein the piston ring has a clearance between the piston ring and the piston ring.
The method of claim 7,
A fourth step (4-1) of determining whether the control unit (13) moves in the clockwise direction with respect to the position of the indicating needle of the dial gauge (12); And
When the control unit 13 moves in the clockwise direction with respect to the position of the indicating needle of the dial gauge 12 as a result of the judgment, the reference piston ring 1 on which the zero point correction is performed in which the number of the dial gauge 12 is set to " 0 & Which calculates the sum of squares (s1) for the other piston rings 1 by subtracting the number of scales in the position shifted from the input shear slit (s1) And a second step of measuring the piston ring meshing clearance of the piston ring.
The method as claimed in claim 8,
As a result of the determination, when the counter 14 is moved in the counterclockwise direction with respect to the position of the indicating needle of the dial gauge 12, the control unit 14 determines that the reference piston ring " (S1) value for the other piston ring 1 is calculated by adding the number of graduations at the position shifted from the value of the gut gap (s1) inputted to the piston ring 1 by the number of graduations A method for measuring the clearance of a piston ring wrench using a piston ring wrench gap inspection device based on a piston.

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