(1) Field of the Invention
The present invention relates to a locking screw having peculiar threads for preventing a screw from loosening after a screw having a male screw at a leg thereof is screwed into a female screw hole so that a component part is fixed to a workpiece whose lower hole has a female screw previously formed thereat.
(2) Description of Related Art
In general, a digital camera, a mobile phone, a television game machine, and the like mostly adopt a small screw of M4 or less, in particular, out of so-called small screws having a nominal designation M10 of thread or less during assembling work. The use of these small screws is likely to be avoided because the use of a tapping screw that is to be screwed while forming a female screw possibly induces a deficient product such as a product for short-circuiting an electronic circuit caused by chips produced in forming the female screw since a product to be assembled incorporates therein a precise electronic component part. In view of this, a screw to be used in such a product is mostly a normal small screw under present circumstances.
However, as shown in
A screw having a male screw formed into a shape shown in
However, in the small screw whose leg has the adhesive adhering thereto so as to prevent any looseness in a generally wide use, the adhesive must be always applied to the leg of the screw before the screwing work, thereby requiring the applying process. In order to eliminate this process, the adhesive need be previously applied to the leg of the screw. For the purpose of this, special machining is needed to hold fluidity for a long period of time by preventing the adhesive from being dried. This induces an increase in cost. Moreover, in the case where the screw is slantwise screwed or the screw is floating so as to induce deficient screwing, when the deficiency is to be corrected, the adhesive has been already cured, and therefore, the screw cannot be loosened to be detached. If the screw is forced to be loosened, the head of the screw is crushed or the product is broken, thereby causing deficiency in the product. In the meantime, when the male screw having the expanding portions shown in
In view of the problem to be solved experienced by the prior art, an object of the present invention is to solve the above-described problem, and further, to provide a locking screw capable of securely achieving a locking function so as to reduce frictional chips produced by friction between a male screw and a female screw as much as possible.
In order to achieve the above-described object, a locking screw including a head 2 and a leg 3, the leg 3 having threads serving as a male screw 10 formed thereat, and the screw being screwed into a female screw hole 4 having a female screw 20 formed thereat, into which the male screw 10 can be screwed, wherein an angle β° formed by flank surfaces 11 on a root side, forming a thread of the male screw 10 is smaller than an angle γ° formed by both flank surfaces 21 and 21 constituting a root of a thread of the female screw 20 whereas a vertex α° formed by flank surfaces 12 and 12 on a crest side near the thread crest of the male screw 10 is an obtuse angle greater than 90°, and further, the flank surface 11 on the root side and the flank surface 12 on the crest side are connected to each other via an arcuate surface 14, the width A of the crest of the male screw 10 being greater than the width of the root of the female screw 20 mating with the male screw 10.
According to the present invention, a position at which the flank surface 21 of the female screw 20 and the flank surface 11 on the root side of the male screw 10 cross each other at a portion in press contact with the thread flank surface 21 of the female screw 20 in the state in which the thread of the male screw 10 is screwed into the female screw hole 4 is within a half of the crest of the thread with reference to the height of the thread of the male screw 10. Thus, the body of the female screw pushed away from the male screw on the crest side can be securely moved to a clearance defined between the male screw and the female screw. Moreover, according to the present invention, the male screw 10 starts with a substantially arcuate tip in the leg. Thus, it is possible to stabilize initial screwing of the male screw at the beginning of the screwing into the female screw.
According to the present invention, the male screw on the thread crest side is brought into contact with the female screw in such a manner as to push the flank surface of the female screw previously formed, and therefore, the flank surface of the male screw can securely interfere with the flank surface of the female screw hole, thus achieving the firm locking function. As a consequence, it is unnecessary to apply an adhesive to a leg of a screw, unlike in the prior art, without any process for applying an adhesive. Moreover, it is possible to dispense with a special processing for maintaining fluidity for a long period of time so as not to dry an adhesive that has been applied in advance, thereby reducing cost. Additionally, in the state in which the male screw interferes with the flank surface of the female screw, the body of a workpiece in press contact by the crest of the male screw is smoothly pushed away without cutting since the flank surface of the male screw on the crest side and the flank surface on the root side are connected to each other via an arc, so as to be stably moved to a clearance defined between the male screw and the female screw. In addition, the female screw cannot be cut out, and therefore, the female screw cannot be crushed. Moreover, no large frictional force occurs between the male screw and the female screw, thereby preventing any agglutination phenomenon therebetween. Even if the screw is deficiently tightened, the deficiency can be readily corrected without any crush of a head of a screw or any occurrence of a deficient crushed product. In the meantime, the locking function is exhibited on the male screw on the thread crest side, and therefore, the male screw can be efficiently brought into contact with the female screw in the female screw hole with interference, thus securely inhibiting looseness of the male screw with respect to the screw hole. In addition, the locking function is resistant against so-called later looseness when the screw is completely loosened to fall down even at the time of so-called initial looseness when the head of the screw is slightly separated from a component part. Furthermore, even if this screw is repeatedly used in the same screw hole, a satisfactory locking function can be produced, and further, few fine chips are produced between the female screw and the male screw due to friction. Additionally, since the thread of the tip of the leg is gradually changed from the substantially arcuate shape to the approximately complete thread shape from the tip toward the complete thread, the male screw bites the female screw at the time of the initial screwing smoothly along the female screw. In addition, even if the workpiece is made of a soft material, peculiar effects such as no elongated chips can be produced, unlike in the prior art.
Hereinafter, a preferred embodiment according to the present invention will be described with reference to
The female screw 20 formed at the female screw hole 4 normally has a size enough to engage with the male screw 10 capable of matching with the female screw 20. That is to say, the male screw 10 is adapted to be screwed into the female screw hole 4 having the female screw 20 having the nominal dimension defined under the JIS. With this same nominal dimension, a clearance t (see
Moreover, the thread of the male screw 10 has an angle smaller than an angle γ° formed between flank surfaces 21 and 21 on both sides of the thread of the female screw 20. Specifically, as shown in
Additionally, the crest of the thread is formed such that it has a relatively greater thickness than that of a normal thread at a position corresponding to the outer diameter of the thread of the small screw in accordance with the JIS. In other words, a vertex α° defined by the flank surfaces 12 and 12 on the crest side, forming the thread crest side of the male screw 10 is an obtuse angle greater than 90°. A thread ridge forming the thread crest serves as a flat surface 13 having a slight width. The vertex α° formed by the flank surfaces 12 and 12 on the crest side, connected at one end thereof to the flat surface 13 is normally set to 120°.
The flank surface 11 on the root side and the flank surface 12 on the crest side are connected at an arcuate surface 14 having the arcuate cross-section of the thread crest in such a manner as to eliminate an intersection therebetween. With the above-described flank surface 12 on the crest side and the arcuate surface 14, the width of the crest of the male screw 10 including the flat surface 13 of the male screw 10, that is, a width A between the intersections is set to be greater than that of the root of the female screw 20 mating with the male screw 10. The width A of the crest is set to 6.5% of the nominal dimension of the screw. This value is introduced as the most optimum value from the experimental results in which the ratio of the width A of the crest with respect to the nominal dimension of the screw is variously set. If the value is greater than 6.5% with respect to the nominal dimension of the screw, the screwing resistance of the female screw becomes larger: in contrast, if it is smaller, the locking function becomes insufficient. As a result, the value of 6.5% is introduced as the most optimum value.
Moreover, as shown in
With the above-described configuration, when the small screw 1 mating with the female screw hole 4 is screwed, via the driver bit, into the female screw hole 4 previously formed, the threads formed in the leg 3 of the small screw 1 are started to be screwed along the female screw 20 in the female screw hole 4. At this time, the male screw 10 having the substantially arcuate tip at the leg 3 is fitted to the female screw 20 without biting at the beginning of screwing the small screw 1, and therefore, the thread is started to be screwed along the female screw 20. In this manner, the flank surface 12 on the crest side and flank surface 11 on the root side of the male screw 10 are brought into contact with the flank surfaces 21 of the female screw 20 on the crest side thereof while the small screw 1 is screwed into the female screw hole 4, as shown in
The screw 1 is securely screwed to the workpiece W by repeating the above-described work. After that, if looseness occurs for some reason, the locking function is always produced in the screw 1, thus preventing the screw 1 from loosening and falling down. On the other hand, even if the screw 1 is found to be loosened, and then, is screwed again, the locking function can be satisfactorily exhibited. In particular, in the case where the screw is screwed to a workpiece W made of a soft material, it tends to receive a restoring force by the workpiece W. Consequently, the screw securely exhibits the locking function.
According to the present invention, the male screw 10 on the thread crest side interferes with the female screw 20 previously formed in press contact. Thus, the present invention is naturally applicable to a bolt to be used in fitting to a nut or the like other than the small screw.
Number | Date | Country | Kind |
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2010-267536 | Nov 2010 | JP | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/JP11/72500 | 9/30/2011 | WO | 00 | 5/6/2013 |