KR20020091519A - self lock coil nut - Google Patents

Abstract

PURPOSE: A self lock-coil nut is provided to improve the safety, the reliability and the workability and to reduce the friction noise of relative components by preventing the loosening of bolts and nuts. CONSTITUTION: A compression pitch portion(11) having a larger external diameter than a nut(20) and a free pitch portion(12) having a smaller external diameter than the nut form a step. A spring typed lock-coil(10) is inserted through a lead wire of a female screw(21). A bolt(30) is combined into the inserted lock-coil. The loosening of the bolt and the nut is prevented by the friction force between the bolt and the free pitch portion and between the compression pitch portion and the nut.

Description

Self lock coil nut {self lock coil nut}

The present invention relates to a self-locking coil nut for preventing bolt loosening, and to prevent loosening of bolts and nuts used for fastening to steel structures, building structures, bridges, machinery, automobiles, and vehicles, thereby providing safety, reliability, and precision retention. The self-locking coil nut which can do it.

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. Lock nuts, split pins, washers, and loctite adhesives are used to prevent such loosening of screws.However, in the case of lock nuts, resin-based soft materials are coated on the ends of the nuts so that the resin is fixed to the threads when the nuts are fastened to the bolts to increase the frictional force. However, when the loosening starts due to the variable load and vibration, wear occurs and the function is lost. In the case of using the split pin, a pin hole is machined into the bolt and a split nut is inserted using a slotted nut. Although it prevents loosening, problems arise due to the difficulty of workability and workability of fasteners, and when the seating surface of nut or bolt head is not smooth or when the adhesive surface of the seating surface is narrow due to large bolt hole Use to increase the friction surface of the seat of the nut and bolt head to prevent loosening of the screw through increased friction Function, but this is not a complete solution for screw loosening. Loctite adhesive is applied to bolts or nuts by applying anaerobic resins to harden the resins under a certain temperature time, thereby seeking to prevent screw loosening, but this is because the adhesive force acts differently depending on the contamination of the bolts and nuts and the usage environment. There are various problems, such as the difficulty of the castle and the care of the nut of the bolt.

The present invention has been made in consideration of the above problems, and its object is to prevent loosening of the bolts / nuts fastened to the fastened body to reduce stability, reliability, precision retention, workability, bonding and frictional noise of the counterpart. To provide self-locking coil nuts

The present invention is a spring-type lock coil having a compression pitch part having an outer diameter larger than the nut diameter and a free pitch part having an outer diameter smaller than the nut diameter, formed in a step and wound in the same direction as the bolt fastening direction. And install the screw along the lead wire of the nut thread, and then rotate and tighten the bolt into the lock coil inserted into the nut, and tighten the bolt and the free pitch of the lock coil, the compression pitch of the lock coil, and the tightening force by the friction force of the nut. The present invention provides a self-locking coil nut which prevents bolts / nuts from loosening.

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

Figure 2 is an exemplary view showing a coupling state according to the present invention

Figure 3 is another illustration of the lock coil according to the present invention

* Explanation of symbols for the main parts of the drawings

(10): lock coil (11): compressed pitch

(12): free pitch (13): tang

14: notch 20: nut

21: Nut female thread 30: Bolt

(40,50): coupling member

1 is an exemplary view showing a configuration according to the present invention, Figure 2 is an exemplary view showing a combined state according to the present invention, Figure 3 shows another exemplary view of the lock coil according to the present invention, the present invention Silver forms the lock coil 10 of the spring type to have different diameters in the upper and lower parts, the upper and lower parts and the middle part and alternately, and the lock coil 10 is inserted into the nut 20 by a jig, and then the lock The bolt 30 is fastened into the nut 20 in which the coil 10 is inserted and mounted.

That is, when the upper (or upper and lower) outer diameter of the lock coil 10 is larger than the diameter of the nut 20, the lower (or middle) outer diameter is formed smaller than the diameter of the nut 20. When the outer (or middle) outer diameter of the lock coil 10 is formed larger than the diameter of the nut 20, the upper (or upper and lower) outer diameter is formed smaller than the diameter of the nut 20.

At this time, when the outer diameter of the upper (or upper and lower) of the lock coil 10 is larger than the diameter of the nut 20, the inner diameter of the upper (or upper and lower) is larger than the diameter of the bolt 30 to be fastened, and the lower (or The inner diameter of the middle portion) is formed smaller than the diameter of the bolt 30 is fastened.

In addition, when the outer diameter of the lower (or middle portion) of the lock coil 10 is larger than the diameter of the nut 20, the inner diameter of the lower (or middle portion) is larger than the diameter of the bolt 30 to be fastened, and the upper portion The inner diameter of the upper and lower parts is smaller than the diameter of the bolt 30 to be fastened.

That is, when the outer coil of the upper portion is larger than the rib diameter of the nut 20 and the lower outer diameter is smaller than the rib diameter of the nut 20, the lock coil 10 is inserted into and fastened into the nut 20. The upper portion of the) is pressed and combined into the nut 20 by the difference in the diameter of the nut 20 and the outer diameter of the lock coil 10, the bolt 30 into the nut 20 to which the lock coil 10 is coupled When inserting the bolt 30 is fastened along the upper portion of the lock coil 10, the lower portion of the lock coil 10 by the difference in the inner diameter of the lock coil 10 and the bolt diameter 30 bolts (30) expands and is inserted and fastened.

At this time, the lock coil 10 formed in the spring type is wound in the same direction as the fastening direction of the bolt (30).

When the bolt 30 is inserted and fastened into the nut 20 into which the lock coil 10 is inserted and fastened as described above, the outer diameter of the lock coil 10 and the outer diameter of the lock coil 10 come into close contact with each other. The inner diameter of 10 and the valley diameter of the bolt 30 are in close contact with each other so that the bolt 30, the nut 20, and the lock coil 10 are integrally formed.

This will be described in more detail as follows.

Insertion of the lock coil 10 wound in the same direction as the fastening direction of the bolt 30 to the nut 20 having the female thread is compressed on the upper portion of the lock coil 10 having an outer diameter larger than the rib diameter of the nut 20. The pitch portion 11 generates an expansion force by torsional compression, generates a compression force according to the axial tension, and a free pitch portion below the lock coil 10 having an outer diameter smaller than the rib diameter of the nut 20. 12 is freely assembled along the female screw 21 screw lead of the nut and is installed while generating an axial compressive force according to the coil tension.

At this time, the cross-sectional shape of the material of the lock coil 10 is formed differently according to the size of the screw according to the type of screw (common screw and fine screw, uni-fine screw, whitward screw, conventional screw) of the metric screw. The material of the material is used to select the high strength steel from the mild steel according to the material of the bolt in order to equalize the load distribution state of the bolt 30 thread.

In addition, when shaping into a coil shape, it is divided into right-handed use and left-handed use according to the molding direction, and after the forming, the lock coil 10 expands the axial perpendicular direction by twisting the nut 20 and the bolt 30, The upper part of the lock coil 10 and the effective diameter of the female thread are increased so that the compressive load works, and the lower part of the lock coil and the effective diameter of the female thread are formed in two stages. The lock coil 10 is connected to the nut (using a jig). 20) or tang 13 is formed in the last pitch of the lower end of the lock coil 10 to facilitate engagement with the female thread, and the lock coil 10 is completely formed on the nut 20 or the female screw. Since the function of the tang is not necessary in the locked state, a notch 14 is formed at the starting point of the tang so that the tang can be removed.

Since the female thread of the nut 20 has a different material cross section of the lock coil 10 according to the type of the bolt 30, the lock coil 10 needs to be processed to be formed in accordance with the shape of the material cross section.

Figure 2 shows an exemplary view showing an installation state of the present invention, the present invention configured as described above is the outer (male screw portion) of the compression pitch portion 11 of the lock coil 10 to the female screw 21 of the nut It is inserted under a torsional compression load and an axial tensile force to generate an expansion force in the axially perpendicular direction and an axial compression force, thereby forming a large friction force with both sides of the thread of the nut 20.

Further, the effective pitch of the free pitch portion 12 below the lock coil 10 is smaller than the effective diameter of the female thread 21 of the nut, so that the outside of the free pitch portion 12 below the lock coil 10 (the male thread portion) is a nut. (20) is inserted into the free state in the direction perpendicular to the axial direction, the tensile load in the axial direction along the female threaded screw lead of (20), when the bolt 30 is fastened to the lower end of the lock coil 10, the bottom of the lock coil 10 free The internal (female thread) effective diameter of the pitch portion 12 is smaller than the effective diameter of the external thread of the bolt 30, and the torsional expansion load acts by the tightening force of the bolt 30, so that the compression load in the axial perpendicular direction is applied to the bolt 30. It acts to form a large friction force on both sides of the male thread of the bolt 30, the rotational loosening of the bolt 30 occurs, the lock coil 10 torsional compression load in the loosening direction of the bolt 30 by the action of the friction force The bolt 30 is generated so that no loosening occurs. That is, when the bolt 30 is rotated in a direction opposite to the fastening direction (bolt loosening direction), since the rotation direction is the same direction as the winding direction of the lock coil 10, the number of free pitches under the lock coil 10 is lower. Since the screw portion and the bolt 30 male thread portion are tightly fastened and rotated in the direction in which the lock coil 10 is wound by the bolt 30 when the bolt 30 is rotated, the bolt 30 is subject to friction and tightening force. Will not be rotated.

As described above, the present invention inserts and installs the lock coil in the female thread portion of the nut so that the compression, expansion, tension, and torsional load of the lock coil is properly distributed to the bolts / nuts. Therefore, when the bolt and nut are to be loosened, the tightening force inversely proportional to the loosening force is generated in the lock coil to prevent loosening of the nut.

In addition, the upper and lower portions of the lock coil are composed of the compression pitch portion and the middle portion is composed of the free pitch portion, the upper and lower portions are composed of the free pitch portion, and the middle portion is composed of the compression pitch portion, or the compression pitch portion and the free pitch portion are alternately Even when formed, the bolt and nut are prevented from loosening by the above operation.

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 inserts a lock coil having an upper / lower portion or a diameter different from the upper and lower parts and a middle part into a nut, and inserts a bolt into the nut into which the lock coil is inserted. During this operation, the compressive load is applied in the axial direction to increase the friction force on both sides of the thread. When the bolt and nut are loosened, the torsional compression load in the loosening direction is generated by the large frictional force. This is prevented from loosening, and thus has many effects such as stability, reliability, precision maintainability, and reduction of joints caused by friction.

Claims (6)

Compression pitch part having outer diameter larger than the corrugated diameter of the nut and free pitch part having outer diameter smaller than the corrugated diameter of the nut are formed in a step and the spring type lock coil is wound in the same direction as the fastening direction of the bolt. After insertion and installation along the female thread lead wire, the bolt is rotated and fastened into the lock coil inserted into the nut. Self-locking coil nut, characterized in that the loosening of the nut. The method of claim 1; The lock coil is a self-locking coil nut, characterized in that the compression pitch is formed on the upper portion, the free pitch portion is formed on the lower portion. The method of claim 1; The lock coil is a self-locking coil nut, characterized in that the compression pitch portion is formed on the upper / lower portion, the free pitch portion is formed in the middle portion. The method of claim 1; The lock coil is a self-locking coil nut, characterized in that the compression pitch portion is formed in the middle portion, the free pitch portion is formed on the upper and lower portions. The method of claim 1; The lock coil is a self-locking coil, characterized in that the compression pitch portion and the free pitch portion is formed alternately. The method of claim 1; And the lock coil has a rhombus cross section.