KR20030000409A - Bolt system for anti-loosing - Google Patents

Abstract

PURPOSE: A bolt locking device is provided to achieve improved stability, reliability and workability by preventing bolts/nuts from being loosened, while reducing friction noise. CONSTITUTION: A bolt locking device comprises a bolt(10) having an effective thread portion(112) and a cylindrical portion(111) where thread is not formed; a nut(20) having a nut flange(21) with an outer diameter same with the outer diameter of the cylindrical portion of the bolt, wherein the nut flange is protruded from a side of the nut, and the nut has a female screw formed at the inner surface of the nut so as to be coupled with the effective thread portion of the bolt; and a coil spring(30) having an end coupled with the cylindrical portion of the bolt and the other end coupled with the nut flange of the nut. The bolt and the nut are prevented from being loosened by the tightening force and frictional force of the coil spring.

Description

Loosening bolt device {Bolt system for anti-loosing}

The present invention relates to an anti-loosening bolt device, the anti-loosening bolt which prevents loosening of the bolt and nut by expansion and compression of the spring inner diameter according to the tightening direction and loosening direction of the bolt by inserting / combining the spring between the bolt and the nut. Relates to a device.

In general, bolts and nuts installed for fastening on steel structures, building structures, bridges are worn out, yielding of bolts, non-rotational loosening due to temperature change and creep, etc. Bolts used for fastening in machinery, automobiles, and vehicles Nuts are rotated due to fluctuating or vibration loads such as shear load, torsional load, tensile load, and so on, which causes problems in safety, reliability, precise maintainability, and joints.

When bolts and nuts used in the related art are repeatedly operated with a relative sliding of a certain size or more to the above fastened body, the bolts and nuts rotate, and if there are slips on both sides of the screw surface and the left side of the bolts / nuts, the coefficient of friction is very large. If the self-supporting condition is not established and the bolt is dragged and tilted due to the object to be slid, the screw surface is slipped, but the screw surface is inclined by the lead angle. In the left half, the slide increases along the lead angle. Therefore, the torque to rotate in the direction of lowering the lead angle always acts on the bolt, and when the load is repeatedly loaded, the relative slip is generated and the force to turn the bolt on the bolt's left side becomes loose. The bolt nut is loosened slowly by rotating slowly. That is, the cause of loosening of the bolts / nuts is that the relative slippage of the fastened body occurs in any of the fluctuating and vibrational loads such as shear load, torsional load, tensile load, etc., resulting in screw loosening.

To prevent such screw loosening, split the flange of the nut end into 6 equal parts and compress it. FLEX-NUT), U-NUT that inserts a thin washer at the end of the nut to bend the bolt along the lead angle of the thread of the bolt when tightening the bolt to prevent the bolt from loosening by the bending force. Nylon is inserted into the end of the nut to tighten the bolt when the bolt is screwed into the nylon to form a female thread on the nylon.The nut is tightened to prevent loosening of the bolt. Although flat washers, spring washers, etc., were used to prevent them, the flex nut, u-nut, and nylon insert nut have an excellent initial binding force. Coupling force became weak when using time, and bolt loosening occurred when fluctuating or vibration load such as shear load, torsional load, tensile load occurred. In addition, the bolt loosening is prevented by the end of the nut, if a little loosening proceeds, there was a problem that the loosening phenomenon occurs continuously.

In addition, the flat washer or spring washer that is inserted between the bolt and the nut is to prevent the bolt loosening due to the increase in the contact surface of the coupling portion and the nut, but this also occurs easily loosening of the bolt in the event of fluctuating load or vibration load There are various problems, such as the hassle of having to install a separate accessory.

The present invention has been made in consideration of the above problems, and its object is to prevent loosening of bolts / nuts fastened to the fastened body, thereby improving stability, reliability, precision retention, workability, and bondability, and thereby mental and physical life. It is to provide a bolt for preventing loosening to prevent damage in advance and to reduce the noise by reducing the friction sound of the counterpart.

The present invention provides a bolt / nut loosening prevention device; The anti-loosening device includes a bolt having a bolt body effective screw part threaded thread formed on the bolt body cylindrical part and having a cylindrical shape with no thread formed on the bolt body cylindrical part; A nut having a nut flange having the same outer diameter as the cylindrical bolt body cylindrical portion protruding from one side of the nut, and having a female thread through / formed therein which is the same as the screw of the effective screw portion of the bolt body; It comprises a coil spring that is contacted / inserted into the cylindrical portion and the nut flange portion of the bolt body, respectively, to provide an anti-loosening bolt device that the loosening of the bolt / nut by the tightening force and friction force of the coil spring.

1 is an exemplary view showing a configuration according to the present invention

2 is an exemplary view showing a configuration of a bolt according to the present invention

3 is an exemplary view showing a configuration of a nut according to the present invention

4 is an exemplary view showing a configuration of a spring according to the present invention

5 is an exemplary view showing a fastening state according to the present invention;

* Explanation of symbols for the main parts of the drawings

(10): bolt (11): bolt body

(12): bolt head 20: nut

(21): Nut Flange (22): Nut Body

(30): coil spring (30h): coil spring material diameter

(111): Bolt body cylindrical part 112: Bolt effective screw part

(h1): Outer diameter of bolt body cylindrical part (h2): Outer diameter of nut flange

(h3): Inner diameter of coil spring (a): Bolt / nut tightening direction

(b) Coil spring material winding (coiling) direction

Figure 1 shows an exemplary view showing a configuration according to the present invention, the present invention inserts both ends of the coil spring 30 on one side of the nut 20 and one side of the bolt 10 bolts / nuts (10, When the loosening occurs in 20), friction and tightening force are generated in the inserted coupling spring 30 to prevent loosening of the bolt / nut.

That is, in the present invention, the fastening direction of the bolt (clockwise for the right-hand screw bolt and counterclockwise for the left-hand screw bolt) becomes the same direction as the winding (coiling) direction of the coil spring, thereby inserting the coil spring between the bolt and the nut. When both bolts and nuts are fastened, both ends of the coil springs are in contact with the body of the bolts and nuts, so that the frictional resistance according to the compression contact between the coil springs and the bolts, the coil springs and the nuts, and the loosening direction of the bolts / nuts The tightening force of the coil spring (the loosening direction of the bolt / nut is opposite to the winding direction of the coil spring, so the frictional resistance acts in the opposite direction of the loosening direction regardless of whether the bolt / nut acts on the bolt / nut during rotation of the bolt / nut loosening. The inner diameter of the spring (coil diameter) becomes smaller due to an attempt to move in the direction of rotation of the nut. This is to be prevented.

Figure 2 shows an exemplary view showing the configuration of the bolt according to the invention, the bolt 10 is a bolt body 11 is fastened to the nut 20 and the end of the bolt body 11 integrally The head 20 is formed, the bolt body 11 is composed of an effective screw portion 112 is formed with a thread, and a cylindrical portion 111 of a cylindrical shape having no thread formed.

The threaded bolt body effective screw portion 112 is inserted into and fastened into the nut 20, the bolt screw outer diameter is formed to be in close contact with the female screw diameter of the nut 20, the cylindrical portion (not formed thread) 111 is inserted into the end of the coil spring 30, the outer diameter (h1) has a diameter slightly larger than the inner diameter (h3) of the coil spring (30). At this time, the outer diameter of the bolt body cylindrical portion 111 has a diameter larger than the screw outer diameter of the bolt body effective screw portion 112.

Figure 3 shows an exemplary view showing the configuration of the nut according to the present invention, the nut 20 is a nut body 22 with a female thread formed therein, and integrally protrudes / formed on one side of the nut body 22 And a nut flange 21 formed by extending the internal thread of the nut body 22 therein.

The nut flange 21 is inserted / contacted into another end of the coil spring 30 inserted into one end of the bolt body 11, the protruding length of the nut flange 21 (contact area with the coil spring) , 21h) is formed to maintain at least about five times the coil spring material diameter 30h shown in FIG. 4, and the outer diameter h2 of the nut flange has a diameter slightly larger than the inner diameter h3 of the coil spring. .

That is, the outer diameter h1 and the nut flange outer diameter h2 of the bolt body cylindrical part in which the thread is not formed have the same diameter, have a diameter slightly larger than the coil spring inner diameter h3, and the coil spring 30 Each end is inserted into each end.

Figure 4 shows an exemplary view showing the configuration of the coil spring according to the present invention, the coil spring 30 has an inner diameter (h3) of about 2 than the cylindrical portion of the bolt body and the outer diameter (h1, h2) of the nut flange ~ 3% is formed small, and the fastening direction (a) of the bolt and the winding (coiling) direction (b) of the material maintains the same direction.

5 is an exemplary view showing a fastening state according to the present invention. When the coil spring is positioned between the bolt and the nut so as to be located in the bolt hole of the object to be fastened, and the nut is rotated in the fastening direction, the nut flange is the coil spring. Rotating is inserted into one side end of the coil spring to expand (relax), the nut is fastened to the effective screw portion of the bolt body having a thread. In this way, when the nut and the bolt are fastened, the cylindrical portion of the bolt body without a thread is contacted / inserted into another one end of the coil spring by the tightening force of the nut, and both ends of the coupling spring in the bolt hole of the object to be fastened. The bolt body and nut body are inserted, respectively, and the bolt and nut are fastened. At this time, since the fastening direction of the nut is the same direction as the winding direction (coiling direction) of the coupling spring, the coil spring is inflated by the nut flange and the bolt body cylindrical part which are respectively in contact with the inner ends of the coil spring when the nut is fastened. Therefore, the tightening force of the nut can be fastened by hand. However, when the nut is to be rotated in the unwinding direction, the unwinding direction of the nut is opposite to the winding (coiling) direction of the coil spring, so that the coil diameter (inner diameter) of the coil spring is reduced by the rotating nut. As a result, both ends of the coil spring are in close contact with the nut flange and the cylindrical body of the bolt body, and are tightened to prevent loosening.

That is, since the inner diameter of the coil spring is formed smaller than the outer diameter of the cylindrical part without the bolt thread, when the coil spring is inserted into the bolt, the coil spring expands in the axially perpendicular direction, and the tightening force is applied to the bolt by the reaction force. Will be generated. When the nut is fastened in such a state, the body part of the nut is inserted while inflating the coil spring like the upper part of the bolt body and generates a tightening force on the nut by reaction force.

The tightening force of the nut can be tightened by hand. On the contrary, when the nut is loosened, frictional force due to the spring repulsion force is increased on the contact surface between the coil spring, the bolt and the nut. The component force is generated in the opposite direction of the loosening direction so that the coil of the coil spring generates a tensile force in the unwinding direction of the screw, that is, a tensile force is generated in the coiling (winding) direction, thereby reducing the coil diameter of the coil spring. An input is generated to prevent the nut from loosening.

Hereinafter, the present invention will be described in detail with reference to comparative examples.

Comparative Example 1

Free state loosening force measurement of the present invention and conventional loosening prevention device

(1) Test method

M12x1.75p Test the loosening force by assembling bolts and nuts freely without fastening.

(2) Test result

(Unit: kg-cm)

product name Sample 1 2 3 Average Remarks FLEX-NUT below 10 below 10 below 10 below 10 Unscrewing force is too small for accurate measurement U-NUT below 10 below 10 below 10 below 10 Same as above Nylon Insertion NUT below 10 below 10 below 10 below 10 Same as above Nylock loosening screw 160 160 160 160 Citing test result of manufacturer When using S / P Washer 5 or less 5 or less 5 or less 5 or less Unwinding force is too small for accurate measurement Development Review 320 300 340 Coil Spring Diameter Ø1.2mm

As shown in the above test results, there is a significant difference in the loosening force when the bolt and the nut are fastened freely. Therefore, the conventional loosening prevention device and the loosening prevention device of the present invention are not even compared.

Comparative Example 2

Loosening force measurement after fastening the present invention and the conventional loosening prevention device to the fastened body

(1) Test method

Relative comparison test of bolts and nuts (M12x1.75p) was performed after tightening torque to 400 kg-cm to the object.

(2) Test result

(Unit: kg-cm)

product name Sample 1 2 3 Average Product shape FLEX-NUT 320 300 310 310 U-NUT 240 265 300 270 Nylon Insertion NUT 260 240 260 253 When using flat washers 260 280 260 267 When using S / P Washer 280 280 280 280 Development Review 360 360 340 353

As shown in the above test results, when tightened to the object with maximum torque, a certain amount of loosening force is generated, but when compared with the loosening prevention device of the present invention, it can be seen that there is a significant difference.

In addition, although not shown in Comparative Examples 1 and 2, the conventional anti-loosening device is initially to loosen the bolt / nut when the loosening force occurs as described in the test results, but after the initial loosening of the bolt and nut ( It is easy to be released even if the force is less than the loosening force.

However, since the present invention utilizes the tightening force of the spring, the unwinding force (maximum unwinding force) as described in the above test results indicates that the tensile force acting on the coil of the coil spring by the unwinding action of the bolt / nut is the maximum tensile force of the coil spring material. In case of abnormality, the coil is cut and loosening of bolts and nuts occurs. When torque below the maximum loosening force of bolts / nuts is generated, it is returned to its original position by spring elasticity. It does not occur.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

As described above, the present invention is to insert / fasten the coupling spring between the bolt and the nut so that the inside of the both ends contact the bolt and the nut, respectively, the friction force by the compression force of the bolt and the coil spring, and the friction force by the compression force of the nut and the coil spring. And loosening of bolts and nuts during occurrence of fluctuating and vibration loads due to the tightening force of the coil spring's coil, which improves stability, reliability and precision when applied to mechanical parts and devices. .

In addition, since the loosening phenomenon is prevented by the coil spring contacted / installed in the bolt and the nut, when the loosening force is temporarily generated, there are many effects such as the loosening phenomenon is prevented by the elasticity of the coil spring.

Claims (4)

A bolt / nut loosening prevention device; The loosening prevention device includes a bolt having a cylindrical shape in which a screw thread is formed in the effective body of the bolt body, and the bolt body cylindrical part is not formed with a thread; A nut flange having the same outer diameter as that of the cylindrical bolt body cylindrical portion is formed to protrude on one side, and a nut having a female thread penetrated / formed therein and fastened to an effective screw portion of the bolt body; Cylindrical portion of the bolt body and the nut flange is configured to include a coil spring that is contacted / inserted into both ends, respectively, loosening bolt device for preventing loosening of the bolt / nut by the tightening force and friction force of the coil spring . The method of claim 1; The material section of the coil spring is formed in a circular or spherical (square) and the inner diameter of the bolt body for preventing loosening bolts, characterized in that consisting of 97 ~ 98% of the outer diameter and outer diameter of the nut flange. The method of claim 1; The contact area between the nut flange and the coil spring is more than three times the diameter of the coil spring material bolts for preventing loosening. The method of claim 1; The coil spring is loosening preventing bolt device, characterized in that installed between the bolt and nut so that the winding (coiling) direction of the material has a direction opposite to the loosening direction of the bolt / nut.