KR101907342B1 - Lock nut - Google Patents

Abstract

The present invention relates to a loosening prevention nut including: a nut body (10) including a polygonal nut part (20) having a spiral hole (21) to which a bolt (50) is coupled, and a circular nut part (30) extending in a circular short pipe shape at one end periphery of the spiral hole (21) of the polygonal nut part (20) and formed at one side thereof with a U-shaped cutout hole (32) formed through the circular nut part (30) in a radial direction and having an open front end, and having an insertion groove (31) formed on an outer peripheral surface of the circular nut part (30), recessed inwardly while having a sectional shape of ″C″, extending along a circumferential direction, and communicating with both inner side walls of the U-shaped cutout hole (32); and a coil spring (40) including a coil body (41) inserted into the circular nut part (30) of the nut body (10), a coil expansion part (42) provided at one end of the coil body (41) and having an inner diameter expanded to be inserted into the insertion groove (31) of the circular nut part (30) of the nut body (10), a fixing end (45) bent at an end of the coil expansion part (42) and fixedly latched to one inner side wall of the U-shaped cutout hole (32) of the circular nut part (30) of the nut body (10), and a protruding end (44) provided at an opposite end of the coil body (41) to protrude through the U-shaped cutout hole (32) of the circular nut part (30) of the nut body (10), wherein the protruding end (44) of the coil spring (40) is horizontally moved in the U-shaped cutout hole (32) of the circular nut part (30) when the bolt (50) is coupled to the nut body (10).

Description

Lock nut <Lock nut>

BACKGROUND OF THE INVENTION 1. Field of the Invention [0002] The present invention relates to an anti-loose nut, and more particularly, to an anti-loose nut coupled with a bolt to prevent loosening of the loose joint.

Generally, bolts and nuts combine two objects in various fields such as assembly of automobile accessories, assembly of electronic parts, assembly of furniture and assembly of structures at the construction site. However, such a combination of the bolt and the nut has been disadvantageous in that a safety accident occurs because the bolt and nut are loosened due to vibration or external impact due to running of the vehicle. Particularly, recently, as the mounting of electronic devices such as automobiles and general industrial machines has expanded, high current and high voltage have been required. If the connection between the bolts and the nuts of the power source is loosened, There is a problem that can happen.

In order to solve such a problem, a loosening preventing nut as shown in FIGS. 1 and 2 has been proposed. The conventional loosening preventing nut is composed of a nut body 1 and a coil spring 7, And a circular nut portion 3 into which a coil spring 7 is inserted. The hexagonal nut portion 2 is formed with a bolt through which a coil spring 7 is inserted. At this time, a step 4 in which the upper end of the coil spring 7 is seated is formed on the upper end of the circular nut portion 3 and a coil spring 7 (7) positioned at the step 4 at the outermost end of the circular nut portion 3 A spool 5 for holding and fixing the upper end of the spool 5 is protruded. A slot 6 extending in the circumferential direction is formed in the lower end portion of the circular nut portion 3 in a radial direction so that the lower end of the coil spring 7 is inserted and moved. A projecting end portion 7a protruding outwardly is formed at the lower end of the coil spring 7 so as to be inserted into the elongated hole 6 of the circular nut portion 3 of the nut body 1. [ On the other hand, the thread of the bolt is a right-hand thread, and the coil spring 7 is inserted into the thread of the bolt as is well known.

When the bolt is fastened to such an anti-loose nut, the coil spring 7 receives a force in a direction in which the inner diameter of the coil spring 7 is increased as the bolt shaft is rotated clockwise, so that the coil spring 7 is disengaged from the bolt. The coil spring 7 receives a force in a direction in which the inner diameter of the coil spring 7 is reduced as the bolt shaft is rotated in the counterclockwise direction, So that the pressing force of the bolt by the coil spring 7 is increased and the bolt can be prevented from being loosened.

2, after the upper end of the coil spring 7 is seated on the step 4 of the circular nut portion 3 of the nut body 1, the coil spring 7 is inserted into the coil spring 7, Therefore, there is a problem that the manufacturing cost is increased due to the complicated equipment such as a jig or a mold for curling processing, which is cumbersome to manufacture, adds to the manufacturing process, and is deteriorated in productivity. At this time, when the bolt is to be rotated in the direction to be released to the nut body 1 by vibration, impact or the like, the upper end of the coil spring 7 fixed by the spool portion 5 of the nut body 1 is moved radially inward There is a problem that it can be separated from the spool part 5 of the nut body 1 because it is pulled. As a result, there is a problem that the release preventing function is remarkably lowered. On the other hand, in the curling process, since the winding portion 5 of the circular nut portion 3 is jigged by 90% or more, the plating layer of the winding portion 5 is damaged and the corrosion resistance is lowered. And the replacement cost of the jig increases.

Since the burr is formed in the inner circumferential portion of the elongated hole 6 at the time of punching, the burr removing operation is additionally performed And since the burr is concealed from the outside and is not visually confirmed, there is a problem that the burr removal work of the operator is not easy.

The protruding end portion 7a of the coil spring 7 protrudes outward beyond the inner diameter of the nut body 1 so that the protruding end portion 7a is pressed inward when the coil spring 7 is inserted into the nut body 1 It is not only troublesome to assemble but also troublesome when the coil spring 7 is removed from the nut body 1 for replacement. At this time, as the projecting end portion 7a of the coil spring 7 is pressed, the shape of the coil spring 7 may be deformed and the function may be deteriorated.

Korean Patent Publication No. 10-2015-0104860

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 an apparatus and a method for manufacturing the same, which can be manufactured without using complicated equipment and simplify the manufacturing process, The present invention provides an anti-loosening nut which is improved in competitiveness, prevents the deterioration of the function of the coil spring, improves the loosening prevention function and prevents loosening of the loosened fastener so that the loosening prevention function is further improved. .

According to an aspect of the present invention, a polygonal nut portion 20 having a spiral hole 21 to which a bolt 50 is coupled is formed, and a circular round tube shape is formed at one end of the spiral hole 21 of the polygonal nut portion 20 And a circular nut portion (30) having an insertion groove (31) extending in a circumferential direction and a U - shaped cut - out hole (32) penetrating in a radial direction and extending at least a certain length in the circumferential direction, (10); And a coil body portion 41 inserted into the circular nut portion 30 of the nut body 10 and a circular nut portion 41 provided at one end of the coil body portion 41 A coil extension part 42 having an inner diameter expanded to be inserted into the insertion groove 31 of the coil body part 30 and a coil extension part 42 provided at the other end of the coil body part 41, And a coil spring (40) composed of a protruding end portion (44) protruding outwardly through a cut - out hole (32).

According to another aspect of the present invention, the cut-out hole 32 of the circular nut portion 30 of the nut body 10 is cut into a U-shape such that the tip of the circular nut portion 30 is opened, and the coil spring 40 And a fixed end portion 45 which is bent at the end of the coil extension portion 42 of the nut main body 10 and fixed to the inner wall of one side of the U-shaped cutout hole 32 of the circular nut portion 30 of the nut body 10 And an anti-loose nut is provided.

According to another aspect of the present invention, a flange portion (22) integrally protruding radially outward is further provided at the other end of the polygonal nut portion (20) of the nut body (10) / RTI &gt;

As described above, according to the present invention, the insertion groove 31 having an inwardly concave shape in cross section is extended along the circumferential direction so that the coil extension portion 42 of the coil spring 40 is inserted into the outer peripheral surface of the nut body 10 , It is not necessary to curl the upper end of the nut body to fix the coil spring to the nut body in the past, so that the assembling work is simple and there is no need to taper the diameter of the upper end of the nut body toward the upper side for curling Since the production process of the nut body 10 is simplified, the productivity of the nut body 10 is improved, and a device for curling processing is not required, so that the cost can be reduced, thereby lowering the unit cost. It can increase price competitiveness. The insertion groove 31 in which the coil extension portion 42 of the coil spring 40 is inserted and fixed is formed on the outer circumferential surface of the circular nut portion 30 of the nut body 10 so that the coil spring 40 Even when the extension coil portion 42 of the coil spring 40 is pulled inward when the bolt 50 is about to be rotated in the unwinding direction because the bolt 50 is fixed to the outer circumferential surface of the circular nut portion 30, 30 is prevented from being detached from the insertion groove 31, thereby preventing structural deterioration of the anti-loosening function. On the other hand, unlike the prior art, the present invention prevents the plating layer from being peeled off by the curling process to improve the corrosion resistance, thereby improving the durability of the product.

By forming the U-shaped cut-out hole 32 with the tip end opened in the nut body 10, it is not necessary to insert the lower end projecting end portion of the coil spring into the nut body in the radially inwardly pressed state, The lower end protruding end portion 44 of the coil spring 40 can be easily inserted through the U-shaped cutout hole 32 of the nut body 10 so that the coil spring 40 can be easily assembled, 10). &Lt; / RTI &gt; At this time, unlike the prior art, the present invention does not need to press the protruding end portion 44 of the coil spring 40, so that the deformation of the coil spring 40 and the deterioration of its function are prevented.

A flange portion 22 is formed on the polygonal nut portion 20 of the nut body 10 so as to be in surface contact with the body coupling members 8 and 9 so that the contact between the nut body 10 and the body coupling members 8 and 9 As the area increases, the static friction increases and the anti-loosening function is further improved. At this time, even if the diameter of the through holes 8a, 9a of the body coupling holes 8, 9 is increased, the flange portion 22 of the nut body 10 is sufficient between the nut body 10 and the body coupling holes 8, 9 Since the contact area is maintained, the releasing function is not deteriorated. As described above, the coil spring 40 is deformed and tightened by the bolts 50 while the static friction force with the member bodies 8, 9 is increased, so that the coupling force between the coil spring 40 and the bolt 50 is lowered The release prevention function is further enhanced by preventing the release of the bolt 50 and the nut body 10 from being released and preventing the release of the loosening between the nut body 10 and the body coupling holes 8 and 9 . That is, when the bolt 50 passing through the through holes 8a, 9a of the body coupling holes 8, 9 is fastened to the nut body 10, it is more effectively prevented that the bolt 50 is loosened arbitrarily by vibration or external force.

1 is a view showing an example of a conventional anti-loose nut;
Fig. 2 is a side sectional view of Fig. 1
FIG. 3 is a perspective view showing an embodiment of the release preventing nut according to the present invention.
4 is an exploded perspective view of the above-
5 is a side sectional view of the above-
Fig. 6 is a plan view showing the tightening and loosening prevention of the above-
7 is a plan view showing a state in which the bolt of the embodiment is separated from the nut body.

The objects, features and advantages of the present invention will become more apparent from the following detailed description. Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

FIGS. 2 to 7 are views showing a release preventing nut according to an embodiment of the present invention. As shown in the figure, an unlocking nut according to an embodiment of the present invention includes a nut body 10 to which a bolt 50 is fastened, a bolt 50 assembled to the nut body 10, And a coil spring 40 for preventing unwinding of the coil spring 40 from the coil spring 40. In this embodiment, the nut body 10 and the coil spring 40 will be described with reference to the drawings for the sake of convenience. In this embodiment, the bolt 50 is a right screw that is fastened to the nut body 10 as it is rotated clockwise.

The nut body 10 has a polygonal nut portion 20 having a polygonal outer circumferential surface and a spiral hole 21 through which a spiral shaft 51 of the bolt 50 is inserted, A flange portion 22 projecting outward in the radial direction from the lower end of the polygonal nut portion 20 is inserted into the circular nut portion 30 upwardly from the upper end portion of the spiral hole 21 of the flange portion 20, . The inner diameter of the circular nut portion 30 is formed to be relatively larger than the inner diameter of the helical hole 21 of the polygonal nut portion 20 as known in the art, (40) can be accommodated. The nut body 10 is preferably manufactured by a cold forging method such that the polygonal nut portion 20, the circular nut portion 30, and the flange portion 22 are integrally formed.

The upper end of the coil spring 40 is coupled to the outer circumferential surface of the circular nut portion 30. The insertion groove 31 has an inwardly concave shape extending in the circumferential direction. 3, a U-shaped cut-out hole 32 extending from the upper end to the lower side is formed in the circular nut portion 30, and the insertion groove 31 is formed by a ring portion partially cut off by a U- And is in communication with the inner wall on both sides of the U-shaped cut-out hole 32. At this time, the U-shaped cut-out hole 32 is formed by cutting the upper end (distal end) of the cutter and has various shapes cut downward, and is prevented from being formed by punching like a conventional long hole, The inner peripheral surface of the inner circumferential portion of the inner wall of the U-shaped cut hole 32, that is, the inner peripheral surface of the circular nut portion 30 at the portion where the U-shaped cut hole 32 is formed is exposed to the outside, It is easy to remove the burr.

The coil spring 40 has a coil body portion 41 inserted into the circular nut portion 30 of the nut body 10 and an inner diameter extending from the upper end of the coil body portion 41 to the nut body 10 A coil extension portion 42 fitted in the insertion groove 31 of the circular nut portion 30 of the coil body portion 41 and a coil extension portion 42 of the coil body portion 41 to connect the coil body portion 41 and the coil extension portion 42, A linear connection portion 43 extending in a tangential direction of the coil body portion 41 and extending in a tangential direction of the coil body portion 41 and a linear connection portion 43 extending from the lower end of the coil body portion 41 to the circular nut portion 30 of the nut body 10 And a projecting end 44 projecting outwardly through the U-shaped cut-out hole 32. [ At this time, the coil body portion 41 is formed in a shape that can be fitted into the thread of the bolt 50. The end of the coil extension portion 42 is provided with a fixed end portion 45 bent to be hooked on the inner wall of one side of the U-shaped cutout hole 32 of the circular nut portion 30 of the nut body 10.

The coil body portion 41 of the coil spring 70 is inserted into the circular nut portion 30 of the nut body 10 when assembling the coil spring 40 thus configured to the nut body 10. [ At this time, the protruding end portion 44 of the coil spring 40 protrudes outward through the U-shaped cutout hole 32 of the circular nut portion 30 of the nut body 10, Is inserted into the main body (10). The coil extension 40 of the coil spring 40 is inserted into the insertion groove 31 formed in the outer circumferential surface of the circular nut portion 30 of the nut body 10 so that the fixed end portion 45 is inserted into the insertion groove 31 of the nut body 10 So as to be caught by the inner wall of one side of the U-shaped cut-out hole 32 of the circular nut portion 30. At this time, the coil extension portion 42 of the coil spring 40 may be fixedly inserted into the insertion groove 31 of the circular nut portion 30 of the nut body 10, but the nut main body 10 So that the coil extension portion 42 of the coil spring 40 is more firmly fixed to the insertion groove 31 of the circular nut portion 30 of the nut body 10 by pressing the upper end of the circular nut portion 30 of the coil spring 40 .

5, the bolt 50 is passed through the through holes 8a, 9a of the fitting holes 8, 9 and is fastened to the nut body 10 in which the coil spring 50 is assembled as described above. 6 (a), when the bolt 50 is fastened to the nut body 10 in which the coil spring 40 is assembled, that is, when the helical axis 51 of the bolt 50 is rotated clockwise The coil spring 40 receives the force in the direction in which the inner diameter of the coil body portion 41 of the coil spring 40 is expanded by the rotation of the bolt 50, And the fastening is easy. 6 (b), when the bolt 50 is detached from the nut body 10, that is, when the helical axis 51 of the bolt 50 is rotated counterclockwise (clockwise in the drawing) The coil spring 40 is coupled to the thread of the bolt 50 by receiving the force in the direction in which the inner diameter of the coil body portion 41 of the coil spring 40 is reduced by the rotation of the bolt 50, The bolt 50 is prevented from being unwound from the nut main body 10. The screw shaft 51 of the bolt 50 is pressed by the coil spring 40, At this time, the flange portion 22 of the nut body 10 increases the contact area between the nut body 10 and the fitting holes 8 and 9 to increase the static frictional force, Is more effectively prevented.

7, when the projecting end portion 44 of the coil spring 40 is rotated to one side in the circumferential direction of the nut body 10, the inner diameter of the coil body portion 41 of the coil spring 40 is expanded, The spring 40 is disengaged from the bolt 50 so that the bolt 50 can be detached from the nut body 10.

As described above, since the anti-loosening nut according to the embodiment of the present invention does not require the curling process when assembling the coil spring 40 to the nut body 10, it is easy to assemble and the assembling process is simplified, And a mold for curling is not required, so that the cost can be reduced. The U-shaped cutout hole 32 is formed in the circular nut portion 30 of the nut body 10 so that the projecting end portion 44 of the coil spring 40 is inserted into the U- The coil spring 40 can be easily assembled to the nut body 10 as compared with the conventional art. Further, there is an advantage that the coil spring 40 can be easily separated from the nut body 10 for replacement of the coil spring 40. The straight connecting portion 43 connecting the coil extension portion 42 of the coil spring 40 and the coil body portion 41 inserted into the nut main body 10 is formed in a circular shape of the coil body portion 41 The linear connecting portion 43 is pushed rearward when the bolt 50 is separated from the nut body 10 so that the coil body portion 41 is easily separated from the helical axis 51 of the bolt 50 The spiral shaft 51 of the bolt 50 is prevented from being damaged.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventions. It will be apparent to those of ordinary skill in the art.

10: nut body 20: polygonal nut part
21: spiral ball 22: flange portion
30: circular nut portion 31: insertion groove
32: U-shaped incision hole 40: coil spring
41: coil body part 42: extension coil part
43: straight connection portion 44: projecting end
45: fixed end 50: bolt

Claims (3)

A polygonal nut portion 20 formed with a helical hole 21 to which the bolt 50 is coupled and a flange portion 21 extending in a round end shape at one end portion of the helical hole 21 of the polygonal nut portion 20, And a circular nut portion (30) having a U-shaped cut-out hole (32) penetrating through the circular nut portion (30) and having a tip open. The outer circumferential surface of the circular nut portion (30) A nut body 10 formed with an insertion groove 31 communicating with both side inner walls of the U-shaped incision hole 32; And
A coil body portion 41 inserted into the circular nut portion 30 of the nut body 10 and a circular nut portion 30 provided at one end of the coil body portion 41, A coil extending portion 42 having an inner diameter expanded to be inserted into the insertion groove 31 of the nut main body 10 and a U-shaped portion 42 of the circular nut portion 30 of the nut main body 10, Shaped cutout portion 45 of the circular nut portion 30 of the nut body 10 at the other end of the coil body portion 41. The fixed end portion 45 is fixed to the inner wall of the cut- And a protruding end portion (44) projecting outwardly through a through hole (32)
The projecting end 44 of the coil spring 40 is horizontally moved in the U-shaped cutout 32 of the circular nut 30 when the bolt 50 is engaged with the nut body 10. [ To prevent loosening.
delete The anti-loose nut according to claim 1, further comprising a flange (22) integrally projecting radially outwardly from the other end of the polygonal nut (20) of the nut body (10).

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