KR101583479B1 - Self-locking screw - Google Patents

Abstract

The present invention relates to a self-locking screw. The self-locking screw comprises: a male screw (100) and a female screw (200) screwed to the male screw (100). The female screw (200) comprises: a female screw main body (210) having a cylindrical hollow hole (212) inside; and a thread (220) formed in a spiral shape in a circumferential direction on the inner circumference of the female main body (210). The thread (220) comprises: a first thread (222) formed on an inlet of the female main body (210); and a second thread (224) formed in the circumferential direction of the female main body (210) by being connected to the first thread (222) and having an elastic groove (225) at the front end along a tip of the thread. Therefore, the self-locking screw facilitates initial connection and enables the female screw and the male screw to be stably coupled to each other after connection of the self-locking screw. Also, the self-locking screw is economical by requiring low replacement costs as only the female screw coupled in advance is replaced.

Description

Self-locking screw {SELF-LOCKING SCREW}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a screw, and more particularly, to a self-locking screw having a lock enhancing function by itself.

The screw means a groove having a circumferential outer circumferential surface or a groove extending in one circumferential direction on the inner circumferential surface. At this time, it is said that the grooves on the outer circumferential surface are denoted by numbers or the grooves and the grooves on the inner circumferential surface are called the female threads. The distance between the mountain and the mountain (or the bone and the bone) is referred to as the 'pitch', and the distance between the mountain and the mountain is referred to as the 'pitch' . These screws are mostly used for articles that are combined with lids, such as bottles, and are widely used in industrial and construction sites.

As described above, the screw serves to close the opening portion by coupling the male screw and the female screw, or to couple the object interposed between the male screw and the female screw. In the latter case, various methods have been tried to more firmly connect the object. The most representative of these is the washer. That is, when the washer is interposed between the object and the female thread, the washer pushes the female thread with the elastic action, thereby increasing the frictional force between the thread of the male thread and the thread of the female thread.

On the other hand, conventionally, it has been developed to increase the frictional force between the male screw and the female screw by using the elastic force of the screw itself without using the washer, and the screw is disclosed in Patent Document 1 and Patent Document 2 .

1 to 3 are side cross-sectional views showing a conventional screw, and conventional screws are classified into the following three types. First, as shown in FIG. 1, when the groove H is formed in the thread T of the male thread 1 (hereinafter, referred to as "preceding thread 1"), the thread of the female thread 2 (Hereinafter, referred to as "preceding 3") in the case where grooves H are formed in both male and female threads 1 and 2 .

A groove H is formed in the thread T of the male thread 1 and the thread angle of the male thread 1 is formed to be larger than the thread angle of the female thread 2 so that the male thread 1 is engaged with the female thread 2, the thread T of the male screw 1 is elastically deformed. The frictional force between the thread T of the male screw 1 and the thread T of the female thread 2 is increased due to the elastic force of the thread T of the male screw 1 and thereby the coupling force of the male screw 1 and the female screw 2 Is increased.

In the preceding line 2, the groove H is formed in the thread T of the female thread 2, as opposed to the preceding line 1. Other parts are applied equally.

The leading line 3 is a case where both the leading line 1 and the leading line 2 are applied and a groove H is formed in each of the threads T of the male thread 1 and the female thread 2 so that the respective threads T are elastically deformed, .

However, in the preceding steps 1 to 3, the grooves H are formed over the threads T, so that the threads T are caught in the grooves H during the fastening of the male and female threads 1 and 2, There is a problem that initial coupling of the female screw 2 is difficult. Further, when an additional force is applied in the fastening direction in the state where the thread T is put in the groove H so that the thread T near the groove H is bent and the thread T The frictional force is excessively increased or the entry of the thread T is not possible, so that the coupling becomes difficult or impossible. Particularly, such a phenomenon occurs more frequently when grooves H are formed in both the threads T of the male thread 1 and the female thread 2 as in the previous three.

KR 10-0012421 B1 (June 29, 1982) KR 20-2000-0019732 Y1 (Nov. 25, 2000)

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems, and it is an object of the present invention to provide a self-locking screw in which an elastic groove is formed in a thread of a female screw, .

In order to solve the above problems, a self-locking screw according to the present invention includes: a male screw; And a female screw threadably engaged with the male screw, wherein the female screw comprises a female screw body having a cylindrical hollow hole formed therein; And a thread formed in a helical shape along a circumferential direction of the circumference of the female screw main body, wherein the thread is formed by a first screw thread formed at an inlet of the female screw main body; And a second screw thread extending from the first screw thread and formed along the circumferential direction of the circumference of the female screw main body and having an elastic groove formed at the tip of the mountain.

The self-locking screw according to the present invention is easy to initial engage, tightly fasten the male screw and female screw after fastening, and replace only the existing fastened female screw, which is economical because the replacement cost is low.

1 to 3 are side sectional views showing a conventional screw
4 is a perspective view showing a self-locking screw according to the present invention;
Fig. 5 is a side sectional view of Fig. 4
6 is a side cross-sectional view showing a state in which a male screw and a female screw are fastened;
Fig. 7 is an enlarged view of a portion A in Fig. 6
8 is a side sectional view showing that a guide ring is added;

Hereinafter, self-locking screws according to the present invention will be described in more detail with reference to the accompanying drawings.

Fig. 4 is a perspective view showing a self-locking screw according to the present invention, Fig. 5 is a side sectional view of Fig. 4, Fig. 6 is a side sectional view showing a state in which a male screw and a female screw are fastened, 7 is an enlarged view of a portion A in Fig.

The self-locking screw according to the present invention comprises a male screw (100) and a female screw (200) screwed to the male screw (100).

Each component will be described in detail below.

The male screw 100 is a component that is inserted into a hole of an object to be fastened and is engaged with a female screw 200 to be described later, thereby coupling two separated objects. 4 and 5, the male screw 100 includes a male thread body 120 having a cylindrical shape thinner than the head 110 and the head 110 and having threads 122 formed on the outer periphery thereof .

The female screw 200 is a component fastened to the male screw main body 120 and includes a female screw main body 210 having a cylindrical hollow hole 212 formed therein; And a thread 220 formed in a helical shape along the circumferential direction of the circumference of the female thread main body 210.

As shown in FIG. 5, the female screw main body 210 is formed with a cylindrical hollow hole 212 therein and is fastened to the outer periphery of the male screw main body 120 of the male screw 100.

The thread 220 of the female thread 200 is formed on the inner circumference of the female thread main body 210 and is formed continuously along the periphery of the inner circumference of the female thread main body 210 and is formed in a spiral shape. The thread 220 of the female thread 200 is positioned at the entrance of the hollow hole 212 of the female thread main body 210 and the end of the male thread main body 120 is positioned. The male screw 100 and the female screw 200 are engaged with each other.

The thread 220 of the female thread 200 includes a first thread 222 formed at the inlet of the female thread body 210; And a second thread 224 extending from the first thread 222 and formed along the circumferential direction of the inner circumference of the female thread main body 210 and having an elastic groove 225 formed at the tip of the mountain.

The first thread 222 is formed at the entrance of the inner periphery of the female thread main body 210 among the threads 220 of the female thread 200 and is formed in the same shape as the thread 122 of the male thread 100. Preferably, the first screw thread 222 is formed by two pitches from the portion initially formed in the female screw body 210. Therefore, when the female screw 200 is inserted into the male screw 100, the first screw thread 222 is easily engaged with the screw thread 122 of the male screw 100. Of course, the first thread 222 may be formed to be less than two pitches, but in this case, the probability that the thread 122 of the male thread 100 will be inserted into the elastic groove 225 of the second thread 224 So that it is preferable to be formed by two or more pitches.

In addition, the first screw thread 222 may be formed at both of the openings of the female screw main body 210, or may be formed at only one inlet as required.

The second thread 224 corresponds to the remaining part of the thread 220 of the female thread 200 except for the first thread 222 and the elastic groove 225 is formed at the tip of the protruded part. The elastic grooves 225 are formed continuously along the tips of the second threads 224, and thus are formed in a spiral shape. At this time, the elastic grooves 225 are formed not deeper than the threads between the second threads 224 as shown in FIG. And the thread angle α of the second thread 224 is formed to be larger than the thread angle 122 of the thread 122 of the male screw 100 so that the second screw thread 224 is screwed into the thread 122 of the male screw 100 And is elastically deformed in the process of engaging, and the elastic force thereof increases the frictional force with the thread 122 of the male screw 100. Such a phenomenon is more efficiently caused by the elastic groove 225. Therefore, when the female screw 200 is fastened to the male screw 100, there is an advantage that the more rigid coupling is maintained due to the increased frictional force between the second screw thread 224 and the screw thread 122 of the male screw 100.

As described above, according to the present invention, elastic grooves 225 are formed only in the second threads 224 of the threads 220 of the female threads 200, and the elastic grooves 225 are formed in the first threads 224 formed at the mouths of the female threads 210, Since the elastic thread 225 is not formed in the thread 222 of the male thread 200, the female thread 200 can be easily fastened to the male thread 100 and the reinforced locking function can be maintained at the same time.

8 is a side sectional view showing that a guide ring is added.

Meanwhile, the present invention may further include a guide ring 230 connected to an inlet of the female screw 200. The guide ring 230 is formed in a ring shape and a guide hole 232 communicating with the hollow hole 212 of the female screw body 210 is formed inside the guide ring 230 as shown in FIG. . The guide hole 232 preferably has a diameter of a maximum diameter of the male screw 100, that is, a length D from one end of the thread 122 of the male screw 100 to the other end. When the female screw 200 is inserted into the male screw 100, the male screw main body 120 is inserted into the guide hole 232 so that the tip of the screw 122 of the male screw 100 comes into contact with the guide surface 234, So that the male screw 100 can be correctly coupled to the female screw 200 without being twisted. Also, the guide ring 230 has the same advantage as a washer and can increase the coupling force between the male screw 100 and the female screw 200. [

The guide ring 230 may be integrally formed with the female screw 200 as required. Preferably, the guide ring 230 is spaced a predetermined distance from the inlet side when the female screw 200 is manufactured. .

Since the self-locking screw according to the present invention has the elastic groove 225 formed in the female thread 200, the existing male thread 100 can be used as it is, which is advantageous in reducing resource waste and economically significant.

100: male thread 110: head
120: male body main body 122:
200: female thread 210: female thread body
212: hollow hole 220: threaded
222: first thread 224: second thread
225: elastic groove 230: guide ring
232: guide hole 234: guide surface

Claims (3)

And a female screw (200) screwed to the male screw (100) and the male screw (100)
The female screw (200)
A female screw main body 210 in which a hollow hole 212 in a cylindrical shape is formed;
A thread 220 formed in a helical shape along the circumferential direction of the periphery of the female thread main body 210,
And a guide ring 230 connected to an inlet of the female screw 200 and having a guide hole 232 communicating with the hollow hole 212 and having a guide surface 234 formed at an inner periphery thereof, Respectively,
The thread 220 is formed at the entrance of the female thread main body 210 and has a first thread 222 formed by two pitches from the end of the female thread main body 210. And a second threaded portion 224 extending from the first threaded portion 222 and formed along the circumferential direction of the inner circumference of the female threaded body 210 and having a V-shaped elastic groove 225 formed at the apex of a mountain under,
And the thread angle of the second thread (224) is formed larger than the thread angle of the male thread (100). delete delete

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