KR101446589B1 - Curved spring gauge - Google Patents

Abstract

The present invention relates to a curved spring gauge including a gauge body integrally formed with a spring insertion groove and a holding groove, and a base plate on which the gauge body is detachably installed. The gauge body is formed to be separated into upper and lower gauge bodies, wherein the upper gauge body is integrally fixated to the base plate, and the lower gauge body installed to be moved up and down along a pair of fixating bolts engaged to the base plate through a pair of rectangular bolt penetrating holes formed at a given distance in a vertical distance to vary the inner diameter of the spring insertion groove. Both contact portions of the upper and lower gauge bodies are formed with a reference inner diameter setting groove to insert the spring end to set the inner diameter of a center portion of the spring insertion groove into which two ends of the curved springs to be judged are inserted. It is possible to remarkably improve the reliability when the suitability of the curved spring is judged by usage of the curved spring gauge having a given shape. When the curved spring judged to have the suitability by the curved spring gauge is applied to a vehicle; a wanted damping function is correctly performed to prevent noise pollution, increase the ride comfort, and improve the marketability of the product.

Description

Curved spring gauge < RTI ID = 0.0 >

The present invention relates to a curved spring gauge, and more particularly, to a curved spring gauge used in a transmission torque converter or the like of an automobile to attenuate vibration of an engine. In order to improve the accuracy of the simple gauge used, the configuration of the curved spring gauge is improved to greatly enhance the commerciality and reliability of the curved spring to be applied to an actual automobile.

BACKGROUND ART [0002] Generally, in a transmission torque converter of an automobile, a curved spring that is formed by bending a predetermined curvature using spring steel having a predetermined diameter is provided to attenuate engine vibration.

At this time, the spring steel is a steel compounded to be suitable for a spring, and is generally divided into carbon steel and alloy steel having a relatively large content of carbon, which is generally divided into carbon steel (carbon 0.4 to 1.0%) and alloy steel.

Typical examples of alloy steels include silicon-manganese steel, chromium-vanadium steel, chromium-molybdenum-vanadium steel, chromium-manganese-boron steel and tungsten-chromium-vanadium steel, 13 chromium or a precipitation hardening type (precipitation hardening type) stainless steel is used.

Such a spring steel has a high yield point and a high fatigue limit, and is used for manufacturing plate springs and helical springs for railway vehicles, automobiles, ships, and the like.

Meanwhile, in a transmission torque converter of an automobile, a curved spring used for attenuating the vibration of an engine is formed by cutting a spring steel manufactured through a drawing to have a predetermined diameter by a predetermined length, and then bending it to have a desired curvature Lt; / RTI >

The curved spring thus manufactured is judged whether it has a desired radius, outer diameter and angle by using a gauge having a predetermined shape.

1, a conventional curved spring gauge is a curved spring gauge having an iron plate having a predetermined thickness and area, a gauge body 1 having a predetermined inner diameter of the curved spring 1 and a spring insertion groove 21 having a predetermined error range with respect to the curvature and length, The curved spring 1 is smoothly inserted and withdrawn at the upper and lower portions of the center of the spring insertion groove 21 by using fingers while fixing the curved spring 2 to the upper surface of the? The holding groove 22 is formed.

At this time, the upper and lower curvatures of the spring insertion groove 21 formed in the gauge body 2 are formed so as to have the same center point so as to have the same curvature, as well as a shape having the maximum outer diameter of the curved spring 1 .

On the other hand, in the case of spring steel, when manufactured in each production line, the diameter differs from manufacturing date or production line in correspondence with the condition of the raw material, and the outside diameter must be different within a tolerance range for each manufacturing date or production line.

Nevertheless, the inner diameter of the spring insertion groove 21 formed in the gauge body 2 of the conventional curved spring gauge is not limited to the maximum outer diameter of the curved spring 1 including the tolerance (for example, Φ13. 2, so that a large deviation occurs with respect to the radius R with respect to the curved springs.

As an example, assume that the radius R is R117 ± 4.0 (ie, R113.0 to R121.0), the outer diameter D is Φ13.0 ± 0.2 (Φ12.8 to Φ13.2) Is 70 degrees, the radius R varies from 179.57 to R88.29, so that it is difficult to determine whether or not it is suitable.

That is, in the conventional curved spring gauge, the inner diameter of the spring insertion groove 21 is shaped to? 13.2 so as to be able to accommodate up to the maximum error range of the curved spring 1 in view of the above example.

Thus, if the outer diameter of the curved spring 1 produced in a specific production line at a specific manufacturing date is in a state of? 12.8 which is the minimum allowable value which is smaller than the inner diameter (for example? 13.2) of the spring insertion groove 21 Even if the central portion of the specific curved spring 1 is curved more than the desired curvature upwardly, the both end bottom portions are in contact with the bottom surface at both ends of the spring insertion groove 21, 21, the curved spring is inserted into the spring insertion groove 21 formed in the gage main body 2 as shown in FIG. 2A.

Even if the curved spring 1 has a curvature smaller than a desired curvature, the upper portions of both ends are in contact with the upper surfaces of both end portions of the spring insertion groove 21 and the lower portion of the central portion is in contact with the bottom surface of the spring insertion groove 21 The curved spring is inserted into the spring insertion groove 21 formed in the gage main body 2 as shown in Fig. 2 (b).

Therefore, even in the case of the curved springs which must be actually determined to be non-conforming, the gauge body 1 (see Fig. 2 (a) and Fig. 2 2 is inserted into the spring insertion groove 21 so that the merchandise of the product itself is deteriorated as well as the reliability according to the judgment of suitability using the curved spring gauge is significantly lowered.

In addition, even when a curved spring which has been suitably judged by using a conventional curved spring gauge is applied directly to a car, a curved spring manufactured in the form of FIGS. 2 (a) and 2 (b) It is not possible to perform the function, thereby causing noise pollution and deterioration in ride comfort, and of course, leading to safety accidents in severe cases.

Korean Registered Patent No. 10-1282697 (Jul. 01, 2013) Korean Registered Patent No. 10-1306583 (September 04, 2013)

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the related art, and it is an object of the present invention to provide a curved spring gauge, And the inner diameter of the spring insertion groove is formed to be equal to the minimum allowable outer diameter of the curved spring in the normal state And a reference inner diameter setting groove for inserting a spring end portion having the same minimum allowable outer diameter and inner diameter of a normally-used curved spring is formed at the contact portions on both sides of the upper and lower gauge bodies to attenuate engine vibration in a transmission torque converter or the like To determine the suitability for the angle and radius when producing the curved springs used It is possible to increase the accuracy of the simple gauges used. Therefore, it is possible to greatly increase the reliability according to the judgments of the curved springs in which the judgments are made by using the curved spring gauges. In particular, When the curved springs are applied directly to the vehicle, the desired vibration damping function can be precisely performed to prevent noise pollution, increase the ride quality, and provide a curved spring gauge that can greatly improve the product's merchantability. It has its purpose.

According to an aspect of the present invention, there is provided a gauge body comprising: a gauge body having a spring insertion groove and a grasping groove formed integrally with an iron plate having a predetermined thickness and area, A gauge body is divided and formed into an upper and a lower gauge body so that the upper gauge body is integrally fixed to the base plate, The lower gauge body is inserted through a pair of rectangular bolt through holes formed at a predetermined distance in the vertical direction so as to vary the inner diameter of the spring insertion groove and is moved up and down along a pair of fixing bolts threadedly coupled to the base plate So that it can be installed.

In addition, two curved spring ends of the curved springs to be judged to be suitable are respectively inserted into the contact portions on both sides of the upper and lower gauge main bodies, and a standard inner diameter setting groove for inserting the spring end for setting the inner diameter of the center of the spring insertion groove Is formed.

Further, the upper and lower surface radii of the spring insertion grooves are formed with reference to different center points so as to have different radii.

At this time, the upper surface radius of the spring insertion groove is formed to have a maximum allowable radius of the curved spring, and the lower surface radius of the spring insertion groove is formed to have a minimum allowable radius of the curved spring.

The inner diameter of the central portion of the spring insertion groove is formed to be equal to the minimum allowable outer diameter of the curved spring.

The inner diameter of the standard inner diameter setting groove for insertion of the spring end formed on the both side contact portions of the upper and lower gauge bodies is formed so as to be equal to the minimum allowable outer diameter of the normally curved spring.

A coil spring is further provided between the inner surface of the spring fixing hole and the bottom surface of the lower gauge body to elastically push the lower gauge body toward the upper gauge body side. .

At this time, the lower gauge body is provided at the center of the bottom surface with a spring fixing pin which is fitted and fixed in one end of the coil spring, and a spring release preventing groove is formed on the inner surface of the spring fixing hole, .

As described above, according to the curved spring gauge of the present invention, the gauge body is separated and formed into an upper and a lower gauge body so that the upper gauge body is integrally fixed to the base plate, and the lower gauge body has a variable inner diameter And a reference inner diameter setting groove for inserting a spring end portion is formed on the both side contact portions of the upper and lower gauge body to attenuate the vibration of the engine in the first transmission torque converter or the like In the production of curved springs used, it is possible to increase the accuracy of the simple gauge used to judge the conformity to the angle and radius except the outer diameter variable, and to make the curved springs suitable for the determination by using the second curved spring gauge The reliability according to the judgment can be greatly increased Third, when the curved springs, which are judged as conformity by using the curved spring gauge, are directly applied to the vehicle, the desired vibration damping function can be accurately performed to prevent noise pollution, Fourth, it is a very useful invention that can greatly improve the merchantability of the product itself.

1 is a perspective view of a conventional curved spring gauge;
2 (a) and 2 (b) are plan views showing a state in which a suitability judgment can be made wrong by using a conventional curved spring gauge.
3 is a perspective view of a curved spring gauge to which the present invention is applied.
Fig. 4 is a plan view of a curved spring gauge to which the present invention is applied when inspecting a curved spring having a minimum allowable outer diameter; Fig.
5 is a plan view of a curved spring gauge to which the present invention is applied when inspecting a curved spring having a maximum allowable outside diameter;
6 is a side cross-sectional view of a perspective view of a curved spring gauge to which the present invention is applied;

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

FIG. 3 is a perspective view of a curved spring gauge to which the present invention is applied, FIG. 4 is a top view of a curved spring gauge to which the present invention is applied, and FIG. Fig. 6 is a side cross-sectional view of a perspective view of a curved spring gauge to which the present invention is applied. Fig. 6 is a side view of a curved spring gauge to which the present invention is applied.

According to the present invention,

A gage main body 2 integrally formed with a spring insertion groove 21 and a grip groove 22 in which a curved spring 1 is detachably fitted to an iron plate having a predetermined thickness and area; (3) having a relatively thin thickness and in which the gauge body (2) is detachably installed, characterized in that the curved spring gauge

The upper gauge body 2a is integrally fixed to the throne plate 3 by separating and molding the gauge body 2 with the upper and lower gauge bodies 2a and 2b, A pair of fixing bolts 4 inserted through a pair of rectangular bolt through holes 23 formed at a predetermined distance in the vertical direction so as to be able to vary the inner diameter of the groove 21 and screwed to the needle plate 3 And is movable upwardly and downwardly along the longitudinal direction.

Two curved spring ends of the curved springs 1 to be judged as suitable are inserted into the contact portions on both sides of the upper and lower gauge main bodies 2a and 2b, And a reference inner diameter setting groove (24) for inserting a spring end for setting the ID (ID).

The top and bottom radiuses R1 and R2 of the spring insertion groove 21 are formed with reference to different center points so as to have different radiuses.

At this time, the upper surface radius R1 of the spring insertion groove 21 is formed to have the maximum allowable radius Rmax of the curved spring 1, and the lower surface radius R2 of the spring insertion groove 21, And has a minimum allowable radius (Rmin) of the spring (1).

The center inner diameter (ID) of the spring insertion groove (21) is formed to be equal to the minimum allowable outer diameter of the curved spring (1).

The inner diameter of the reference inner diameter setting groove 24 for insertion of the spring end formed on the both side contact portions of the upper and lower gauge main bodies 2a and 2b is formed so as to be equal to the minimum allowable outer diameter of the normal curved spring 1 .

A spring fixing member 5 is detachably mounted on the bottom of the needle plate 3 and a lower gauge body 2b is interposed between the inner surface of the spring fixing member 5 and the bottom surface of the lower gauge body 2b, And a coil spring (6) for elastically pushing it toward the main body (2a) side is further provided.

The lower gauge body 2b is provided at the center of the bottom of the lower gauge body 2b with a spring fixing pin 25 fitted and fixed in one end of the coil spring 6. A coil spring 6 is fixed to the inner surface of the spring fixing hole 5, And a spring release preventing groove 51 in which a part of the other end of the spring retaining groove 51 is inserted and fixed.

The function and effect of the curved spring gauge thus constructed will be described below.

3 and 6, the gauge body 2, in which the spring insertion groove 21 and the grip groove 22 are formed integrally, is detachably attached to the upper surface of the needle plate 3, The lower gauge body 2b is mounted on the upper surface of the? Thrust plate 3 so as to be movable upward and downward by separating and molding the gauge body 2 into upper and lower gauge bodies 2a and 2b, As a major technology component.

The upper gauge body 2a of the gauge body 2 separated and formed by the upper and lower gauge bodies 2a and 2b has a plurality of bolts ), Or the like.

The lower gauge body 2b is inserted through a pair of rectangular bolt holes 23 formed at a predetermined distance in the vertical direction and is inserted into a pair of fixing bolts 4 The upper and lower gauges 3 and 4 are maintained in a state of being integrally fixed on the upper surface of the needle plate 3 by inspection of the curved springs 1, When the inner diameter of the spring insertion groove 21 formed between the main bodies 2a and 2b is to be changed, a pair of screws (not shown) screwed to the needle plate 3 in a state of being fitted in the rectangular bolt through- A part of the fixing bolt 4 is partially released to release the binding of the lower gauge body 2b and then the lower gauge body 2b is pushed or pulled upward or downward from the upper surface of the needle plate 3, And can move up and down about the fixing bolt (4).

At this time, the upward and downward moving distance of the lower gauge body 2b corresponds to a distance obtained by subtracting the diameter of the fixing bolt 4 from the length of the rectangular bolt through-hole 23.

In the present invention, a reference inner diameter setting groove 24 for inserting a spring end portion is further formed at the contact portions on both sides of the upper and lower gauge main bodies 2a and 2b, and the lower bolt body 2b ) Can be moved up and down, two curved springs of the curved springs (1) manufactured on the same day on the same day can be selected, and one end of the curved springs can be inserted into the reference inner diameter setting groove 4, the lower gauge body 2b is pushed toward the upper gauge body 2a, and the lower gauge body 2b is fixed through the fixing bolt 4, So that the curved spring 1 having one end portion can be fixed to the reference inner-diameter setting groove 24 for use.

Therefore, when it is desired to determine whether or not the curved springs 1 produced on the same day are fit using the curved spring gauges to which the present invention is applied, the spring insertion grooves 21 formed between the upper and lower gage main bodies 2b The inner diameter ID of the center can be accurately set in accordance with the outer diameter of the curved spring 1 manufactured on the same day as shown in Fig.

In the present invention, the inner diameter (ID) of the central portion of the spring insertion groove 21 is set to be the same as that of the spring insertion groove 21 manufactured in the same production line 4 and 5, the upper and lower radiuses R1 and R2 of the spring insertion groove 21 are set to be different from each other with a radius different from that of the curved spring 1, And molded based on other center points.

That is, the upper surface radius R1 of the spring insertion groove 21 is formed to have a maximum allowable radius Rmax (for example, R121.0) of the curved spring 1, The radius R2 is shaped so as to have a minimum allowable radius Rmin (e.g. R100.0) of the curved spring 1.

Therefore, even if the inner diameter (ID) of the central portion of the spring insertion groove 21 is changed according to the outer diameter of the curved spring 1 manufactured on the same production line on that day, all the curved springs 1 It is possible to accurately judge whether or not it is fit to each of the spring insertion grooves 21 by judging whether or not they are fitted into the spring insertion grooves 21 respectively.

In the present invention, the inner diameter (ID) of the central portion of the spring insertion groove 21 is formed to be equal to the minimum allowable outer diameter (for example,? 12.8) of the curved spring 1 as shown in FIG. 4 And the inner diameter of the standard inner diameter setting groove 24 for insertion of the spring end formed on the both side contact portions of the upper and lower gauge main bodies 2a and 2b is made equal to the minimum allowable outer diameter of the curved spring 1 It is possible to accurately determine whether the curved springs 1 manufactured on the same production line on the same date are suitable for the curved springs 1.

In addition, in the present invention, a spring fixture 5 is detachably installed on the bottom of the needle plate 3, and a coil spring 6 is interposed between the inner surface of the spring fixture 5 and the bottom surface of the lower gauge body 2b I installed more.

Therefore, when the lower end gauge body 2b is released from the throat plate 3 by releasing the fixing bolt 4 or the fixing end is released as described above, When the end of the curved spring 1 is fitted in the lower gauge body 1b, the lower gauge body 2b is kept pushed toward the upper gauge body 2a in response to the elastic force of the coil spring 6, When the lower gauge body 2b is fixed again on the throat plate 3 through the bolt 4, the curved spring 1 having the end portion inserted into the reference inner diameter setting groove 24 for insertion of the spring end portion, And it is possible to prevent the shape of the spring insertion groove 21 from being changed.

At this time, a spring fixing pin 25 is protruded at the bottom center of the lower gauge body 2b and a spring release preventing groove 51 is formed on the inner surface of the spring fixing hole 5, One end of the coil spring 6 is fitted and fixed to the spring fixing pin 25 when the coil spring 6 is installed between the inner surface and the bottom surface of the lower gauge body 2b, The end portion of the spring retainer 5 is fitted in the spring release preventing groove 51 of the spring retainer 5 so that the coil spring 6 itself can be completely prevented from being detached.

Although the preferred embodiments of the present invention have been described for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. Which will be apparent to those skilled in the art.

1: Curved spring
2: gauge body 2a, 2b: upper and lower gauge body
21: spring insertion groove 22: gripping groove
23: Rectangular bolt through hole 24: Reference inner diameter setting groove for insertion of the spring end portion
25: Spring fixing pin
3:
4: Fixing bolt
5: Spring fixture 51: Spring release prevention groove
6: coil spring

Claims (8)

A gage main body in which a spring insertion groove and a gripping groove, into which the curved spring is detachably fitted, are integrally formed; And a support plate on which the gauge body is detachably installed, the curved spring gauge comprising:
The upper gauge main body is integrally fixed to the base plate by separating and molding the gauge main body into upper and lower gauge main bodies. The lower gauge main body has a pair of vertically arranged gauge bodies And a pair of fixing bolts respectively inserted through the rectangular bolt passage holes and threadedly coupled to the base plate so as to be movable up and down.
The method according to claim 1,
And two curved spring ends of the curved springs to be suitably judged are respectively inserted into both side contact portions of the lower gauge body to form a reference inner diameter setting groove for spring end insertion for setting the inner diameter of the central portion of the spring insertion groove Features a curved spring gauge.
The method according to claim 1,
Wherein the upper and lower radii of the spring insertion grooves are formed with reference to different center points so as to have different radii.
The method of claim 3,
Wherein the upper surface radius of the spring insertion groove is formed to have a maximum allowable radius of the curved spring and the lower surface radius of the spring insertion groove is formed to have a minimum allowable radius of the curved spring.
The method according to claim 1,
Wherein a center inner diameter of the spring insertion groove is formed to be equal to a minimum allowable outer diameter of a normally-used curved spring.
The method of claim 2,
Wherein the inner diameter of the standard inner diameter setting groove for insertion of the spring end portion is formed to be equal to the minimum allowable outer diameter of the normally curved spring.
The method according to claim 1,
And a coil spring is further provided between the inner surface of the spring fixing member and the bottom surface of the lower gauge body to elastically push the lower gauge body toward the upper gauge body side.
The method of claim 7,
A spring release pin is provided at the center of the bottom surface of the lower gauge body so as to be inserted and fixed in one end of the coil spring and a spring release prevention groove is formed in the inner surface of the spring retainer, Features a curved spring gauge.

Images