RU2361125C1 - Bolt - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: invention relates to fasteners. The proposed bolt has a heat and rod and is intended for screwing in, for example, a nut. The bolt rod comprises a constant-diametre part arranged on the distant end and a guiding part arranged on the bolt front part and having the diametre smaller, if compared with that of the said constant-diametre part. The ledge formed on the guiding part represents a reversed screw configuration relative to aforesaid ledge arranged on the constant-diametre part. As a result, the bolt may not be tightened unless it comes into appropriate position relative to, for example, nut.

EFFECT: eliminating jamming on inner-thread element.

3 cl, 7 dwg

Description

FIELD OF THE INVENTION

The present invention relates to a bolt and, more specifically, to a bolt designed to prevent it from being clamped and stuck in an internal thread element.

Prior art

Traditionally, a so-called clamp-protection bolt has been proposed, which, when installed with a bias into a nut-type thread, provides a smooth screwing of this bolt into the internal thread element without any clamping by controlling its own position with the help of the guide part formed accordingly on his rod. If the rod has a substantially constant diameter for simple bolts, then this clamp-protecting bolt is provided with a small-diameter or beveled guide portion at the front end of the rod so that when the guide portion comes into contact with the peripheral surface of the threaded hole in the element with internal thread, the bolt is installed in the appropriate position. For example, in patent document 1, a bolt is disclosed in which a guide portion of a constant diameter having a small diameter is formed at the front end of the bolt shaft. The finished protrusion is formed on this guide part of a constant diameter, and, in addition, the outer diameter of the guide part of a constant diameter is almost equal to the minimum internal diameter of the internal thread. When a bolt having such a design is inserted obliquely into the internal thread, the finished protrusion of the guide portion of a constant diameter can grab the protrusion of the internal thread and, while continuing to screw in, the threaded parts can properly engage with each other along the screw thread.

Patent Document 1: Japanese Patent Application Laid-Open No. 2000-18226.

Description of the invention

Problems Solved by the Invention

In accordance with the above-described prior art, if the angle of inclination of the bolt relative to the element with an internal thread is relatively small, the bolt is brought into the corresponding position by the shape of the guide part of the bolt shaft and the bolt can be smoothly screwed into the inner thread section so that the bolt is tightened into the inner portion thread element with internal thread. However, if the bolt is at a large angle relative to the element with an internal thread, it can be tightened to the portion of the internal thread of the element with an internal thread without bringing the bolt into the corresponding position, that is, the bolt remains in an inclined position. Therefore, there is a problem that the bolt can be tightened into the element with an internal thread with a deviation of the thread pitch, as a result of which clamping and jamming can occur.

The present invention has been made to solve the above-described problem, and an object of the present invention is to provide a bolt that cannot be tightened until it is in a proper position with respect to the female thread element in order to reliably avoid clamping or seizing on the female thread element.

Means of solving the problem

To achieve the above objective, the bolt described in claim 1 is a bolt having a head and a shaft on which a protrusion is formed, the bolt being adapted to be screwed into the element with an internal thread, such as a nut, in which the rod consists of a part of a constant diameter formed at its distal end and a guide part formed at its front end and having a smaller diameter as compared to a part of a constant diameter, wherein the protrusion formed on the guide part is configured as a screw direction relative to the protrusion formed on the part of constant diameter.

The bolt described in claim 2 is characterized in that the protrusion formed on the guide portion is made in the form of a two-way screw having the configuration of a screw of the opposite direction, in addition to the design of the bolt described in claim 1. The bolt described in paragraph 3 of the formula, characterized in that the section without thread, not having a protrusion, is formed in a predetermined area between the part of a constant diameter and the guide part of the bolt shaft.

Effects of the invention

In a bolt made in accordance with the present invention, a guide portion having a smaller diameter compared to a constant diameter portion of the distal end is formed on the front end of the bolt shaft and a protrusion formed on this guide part is configured as a reverse screw relative to the protrusion formed into parts of constant diameter. Therefore, when the bolt is inserted into the internal thread portion with a bias, the guide part of the bolt collides with the internal thread portion of the element with the internal thread or the guide part collides and the protrusion formed on the guide part engages with the internal thread of the element. As soon as the guide part collides with the internal thread section, the bolt is then screwed into the internal thread element. Further, if the protrusion on the guide portion engages with the internal thread when the bolt is turned in the direction of screwing into the inner thread member, then the bolt leaves the inner thread member due to engagement between the protrusion having the configuration of the reverse direction screw of the guide portion and the portion internal thread. In other words, since the bolt cannot be screwed into the female thread when it is skewed, the bolt will never be screwed into the female thread in the wrong position. Therefore, clamping and jamming of the bolt can be reliably prevented.

In the bolt described in paragraph 2 of the formula, in which the protrusion formed on the guide part is made in the form of a two-way screw having the configuration of a screw of the opposite direction, the magnitude of the stroke of the protrusion formed on the part of constant diameter corresponds to one step per revolution of the bolt 1, and the magnitude of the stroke of the protrusion formed on the guide part corresponds to two steps. Consequently, the effects of ease of exit are enhanced compared with the case where the protrusion formed on the guide portion is a single start screw. In the bolt described in paragraph 3 of the formula, a threaded portion is formed in a predetermined area between the constant diameter portion of the bolt shaft and the guide portion so that when the bolt is inserted into the inner thread portion of an element with an internal thread in an inclined position, the threaded portion is not and the inner thread portion never engages with each other, even if the non-thread portion collides with the inner peripheral surface of the inner thread portion. Therefore, the bolt never gets into the element with an internal thread and can be reliably protected from clamping and jamming in it.

Brief Description of the Drawings

Figure 1 depicts a side view of a bolt according to claim 1 of the formula.

Figure 2 is an enlarged view of an element showing the front end of a bolt shaft.

FIG. 3 is a sectional view of an element showing a state in which a bolt is inserted into a threaded hole of a nut in an inclined position.

FIG. 4 is a sectional view of an element showing a state in which the bolt is rotated 60 ° to the right of the position of FIG. 3.

Figure 5 depicts a side view of a bolt according to claim 2 of the formula.

FIG. 6 is a sectional view of an element showing a state in which the bolt of FIG. 5 is inserted into the threaded hole of the nut in an oblique position.

7 depicts an enlarged view of an element showing the front end of the bolt rod according to claim 3 of the formula.

Description of Reference Numbers

1 - a bolt

10 - bolt head

15 - a bolt core

30 - ledge

31 - ledge

32 - protrusion in the form of a double screw

115 - part of a constant diameter

116 - guide part

126 - section without thread

Preferred Embodiment of the Present Invention

Below will be described a first embodiment of a bolt in accordance with the present invention with reference to the drawings. First, the construction of the bolt is described with reference to Figs. 1 and 2. Fig. 1 shows a simplified thread made on the bolt 1. As shown in Figs. 1 and 2, the bolt 1 consists of a substantially hexagonal head of columnar type 10, elongated along a common axial center, and essentially a cylindrical rod 15. The remote end of the rod 15 is made in the form of a cylindrical part of a constant diameter 115 having a constant diameter, and the protrusion 30 is formed on the outer peripheral surface of the part of a constant diameter 115 with predetermined steps. The protrusion 30 is made in the configuration of a screw with a right-hand thread, which allows the bolt 1 to be screwed into the element with an internal thread when it rotates to the right (clockwise). The distal end of the shaft 15 is made in the form of a cylindrical section having a smaller diameter as compared to a part of the constant diameter 115, and it is used as the guide portion 116 to bring the bolt 1 to the correct position when it is screwed into the nut, as described below.

In the selected area of the front end of the constant diameter portion 115, more specifically, in the zone whose length is approximately three times the pitch of the protrusion 30, the height of the protrusion 30 decreases gradually from the distal end of the shaft 15 to the front end so that the external shape of the screw thread formed by connecting the ridges of the protrusion 30, tapers with a bevel angle of about 15 ° with a gradually decreasing diameter. It should be noted that the diameter of the thread base of a part of a constant diameter 115 including this section has a constant value. In addition, the tapering portion 117 in the form of a truncated cone is formed in a very short area between the guide portion 116 and the constant diameter portion 115. The tapering portion 117 consists of a cylindrical lower portion having a diameter equal to the diameter of the thread base of the constant diameter portion 115, and circular the ridge portion having a diameter equal to the diameter of the non-threaded portion of the guide portion 116 described below, and its diameter decreases with a bevel angle of about 15 ° from the bottom to the rest, while on the outer peripheral projection surface is formed.

The guide part 116 extends from the front end (ridge) of this tapering part 117 to the front end of the shaft of the bolt 15, and the part of the remote end is made in the form of a cylindrical section without thread 126, on which a protrusion is formed. More specifically, a portion without thread 126 is formed at the distal end of the guide portion 116, the length of which is substantially 1.6 times the pitch of the protrusion 30 formed on the constant diameter portion 115, and the protrusion 31 is formed in the region of the distal front end. The protrusion 31 is made at an angle of about 60 ° and has the same step as the protrusion 30. The diameter of the base of the protrusion 31 is less than the diameter of the section without thread 126, and its external diameter is larger than the diameter of the section without thread 126. It should be noted that this external diameter is smaller than the internal the diameter of the portion of the internal thread of the element with the internal thread with which the bolt 1 is connected. The protrusion 31 formed on the guide portion 116 is configured as a screw of the opposite direction relative to the protrusion 30 formed on the part of the constant diameter 115. That is, if in the stupa 30 on the part of constant diameter 115 has the configuration of a screw with a right-hand thread, which ensures its screwing in clockwise rotation, then the protrusion 31 formed on the guide part 116 is made in the configuration of a screw with a left-hand thread, which ensures it is unscrewed from the element with an internal thread when bolt 1 rotates clockwise.

Next, the screwing of the bolt 1 and the nut 100 as an element with an internal thread will be described with reference to FIGS. 3 and 4. As shown in FIG. 3, the nut 100 provides for screwing the element with an external thread in the configuration of a screw with a right-hand thread into the nut 100, and the bolt is inserted into the threaded hole 110 when it is inclined at an angle relative to the nut 100 so that the protrusion 31 is formed on the guide portion 116 at the front end of the bolt shaft 15, the finished protrusion at the uppermost end is engaged with the portion of the internal thread 105 on the inner the peripheral surface of the nut 100. Under this condition, on the side of the hole 101 of the nut 100 on the side with the bolt 1 inserted, the protrusion 30 on the front end of the constant diameter portion 115 of the bolt 1 tends to engage with the portion of the internal thread 105 in the nut 100 with a deviation step. It should be noted that in this drawing, the position in which the portion of the internal thread 105 of the nut 100 overlaps the protrusion 30 at the front end of the constant diameter portion 115 of the bolt 1, means that the protrusion 30 is located in front of the portion of the internal thread 105, shown in section.

When the bolt 1 is rotated (clockwise) to engage with the nut 100, the guide portion 116 is moved in the direction of exit from the threaded hole 110 of the nut 100 by rotating the bolt 1 clockwise. Only the protrusion 31 on the guide portion 116 is engaged with the portion of the internal thread 105 of the nut 100. And as long as the protrusion 31 on the guide portion 116 is even weakly engaged with the portion of the internal thread 105, the bolt 1 moves in the direction of full exit from the threaded the holes 110 of the nut 100 (in the drawing this direction is vertically upward). Although the protrusion 30 formed at the front end of the constant diameter portion 115, as well as the protrusion 31 on the guide portion 116, collide with a portion of the internal thread 105, the height of the protrusion 30 at the front end of the constant diameter portion 115 is less than the height of the protrusion 30 at other portions of the constant portion diameter 115, and it does not engage in deep engagement with the portion of the internal thread 105. Thus, the protrusion 30 at the front end of the portion of the constant diameter 115 never engages with the portion of the internal thread 105, while the bolt 1 is moved fully appearance of the outlet and smoothly leaves the threaded hole 110. In addition, when the portion without thread 126 collides with the portion of the internal thread 105 of the nut 100, when the bolt 1 is in a position higher than the position shown in this drawing, when the angle of inclination is greater, the bolt 1 never engages with a nut in areas other than those where the protrusion 31 of the guide portion 116 is engaged with a portion of the internal thread 105, as a result of which the bolt 1 smoothly leaves the threaded hole 110.

FIG. 4 depicts a position where, after the position of FIG. 3, the protrusion 31 on the guide portion 116 is engaged with a portion of the internal thread 105 and the bolt 1 is rotated 60 ° in the tightening direction (clockwise). As shown in FIG. 4, the point M1 on the protrusion 31 of the guide portion 116 and the point N1 on the protrusion 30 on the front end of the part of the constant diameter 115 are offset from each other by 60 ° so that the bolt moves in the direction of exit and the protrusion 31 on the guide part 116 is engaged with a portion of the internal thread 105 so that the bolt 1 moves in the direction of exit when it rotates. 3, a protrusion 30 at the front end of a portion of a constant diameter 115 overlapping with a portion of the internal thread 105 of the nut 100 came close to the portion of the hole 105 of the nut 100 after the bolt 1 was rotated 60 °, and therefore, the protrusion 30 was not engaged with a portion of the internal thread 105 of the nut 100, while the bolt 1 and the nut 100 are protected from clamping or seizing.

Although not shown in detail, as soon as the worker who screwed the bolt 1 returns it from an inclined position to a vertical position, the bolt 1 occupies a corresponding position in the threaded hole 110 of the nut 100 due to its own weight, while the bolt 1 is usually tightened. It should be noted that the outer diameter of the protrusion 31 must be less than the inner diameter of the portion of the internal thread 105, in order to prevent a collision between the guide portion 116 of the shaft of the bolt 15 and the portion of the internal thread of the nut 100 when the bolt 1 is rotated to the corresponding position. When the protrusion 31 formed on the guide portion 116 of the shaft of the bolt 15 does not (with engagement c) enter the portion of the internal thread 105 on the inner peripheral surface of the nut 100, for example, if the protrusion 31 formed on the guide portion 116 only collides with the portion of the internal thread 105 on the inner peripheral surface of the nut 100, then the bolt 1 occupies a corresponding position in the threaded hole 110 in the nut 100 under its own weight and then the bolt 1 is screwed into the nut 100 as usual.

As described above, in a bolt 1 made in accordance with this embodiment of the invention, a guide portion of a small diameter 116 is formed at the distal end of the shaft of the bolt 15, and a protrusion 31 in the configuration of the reverse screw relative to the protrusion 30 formed on the part of the constant diameter 115 is formed on this guide portion 116. Therefore, in the case where the bolt 1 is inserted into the threaded hole 110 at an angle to the nut 100, when the protrusion on the guide portion 116 is engaged with a portion of the internal thread 105 nuts 100, the bolt 1 moves in the direction of exit from the nut 100, since the position of the bolt 1 does not correspond to screwing. Thus, the bolt 1 cannot be screwed into the nut until it occupies the position corresponding to the screwing relative to the nut 100 and, therefore, the bolt never enters the nut in the wrong position, for example in an inclined position, thereby preventing the bolt from clamping and seizing in the nut.

Although the protrusion 31 having the configuration of the reverse screw of the guide portion 116 of the bolt 1 described above is a single-screw, the protrusion 32 of the two-way screw having the configuration of the reverse screw is formed on the guide portion 116. Since other configurations are similar, the same Reference numbers refer to the relevant parts and descriptions are not included.

When the bolt 1, made in accordance with the second embodiment of the invention, is inserted into the nut 100 at an angle with respect to the nut 100, as shown in FIG. 6, the double-screw protrusion 32 having the configuration of a reverse screw on the guide portion 116 engages with the internal thread portion 105 of the nut 100, thereby ensuring self-alignment of the bolt 1. However, the stroke of the protrusion 32 formed on the guide portion 116 corresponds to two steps per revolution of the bolt 1. Thus, the output effects are enhanced I am 2 times compared with the case when the protrusion 31 formed on the guide portion 116 is a single-screw. As a result, the bolt 1 cannot be screwed into the nut 100 until it occupies the position corresponding to the screwing relative to the nut 100, thereby the bolt is reliably protected from being clamped and stuck in the nut.

Next, a second embodiment of a bolt in accordance with the present invention will be described with reference to FIG. In this case, the bolt 200 is made essentially in the same configuration as the bolt 1, made in accordance with the above-described embodiment of the invention, except that the guide portion is formed at the front end of the bolt shaft. Therefore, only the shape of the front end of the shaft of the bolt 200 is described in detail. FIG. 7 is an enlarged view of an element showing the front end of the shaft 215 of the bolt 200, and the same reference numbers refer to common components with the bolt 1 made in accordance with the above embodiment. As shown in FIG. 7, the bolt 200 has a part of a constant diameter 115 at the remote end of the shaft of the bolt 215, and a protrusion of the right-hand screw 30 is formed on the part of the constant diameter 115. The height of the protrusion 30 is gradually reduced at the front end of the part of the constant diameter 115 so that the external shape of the screws formed by connecting the ridges of the protrusion 30 has a tapering configuration, the diameter of which gradually decreases with a bevel angle of about 15 °.

In bolt 200, a section without thread 226 extends from the front end of a portion of constant diameter 115 as opposed to bolt 1. This portion without thread 226 has substantially the same diameter as the base diameter of a portion of constant diameter 115 and is also very short in length the oblique section in the form of a truncated cone 217 departs from the front end of the section without thread 226. The guide portion 216, which has a significantly smaller diameter compared to the diameter of the base of the part of constant diameter 115, departs from the front end of the tapering section 217. The protrusion 231, which is lower than the protrusion 31 formed on the guide portion 116 of the bolt 1, is formed on the guide portion 216, and the protrusion 231 has the configuration of a reverse screw relative to the protrusion 30 on the constant diameter portion 115, i.e., the configuration of a left-hand screw. If the protrusion 31 on the guide portion 116 of the bolt 1 is made with a bevel angle of about 60 °, then the protrusion 231 is made with a bevel angle of about 90 °.

A bolt 200, made in accordance with this embodiment of the invention, can reliably prevent the occurrence of a clamp when it is inserted obliquely into an element with an internal thread such as a nut. More specifically, when the bolt 200 is inserted obliquely into a threaded hole of a nut that is not shown, the protrusion 216 formed on the guide portion 231 and the inner thread portion of the nut collide with each other. However, the adhesion to the internal thread portion is shallow, since the protrusion 231 on the guide portion is made with a lower height. Therefore, a bolt 200 made in accordance with this embodiment of the invention can eliminate skew when it is inserted into an element with an internal thread, such as a nut, and this bolt can be reliably tightened in a position corresponding to screwing. It should be noted that the protrusion 231 may be a single screw or double screw.

As described above, in a bolt made in accordance with the present invention, a part of a constant diameter is formed at the distal end of the bolt shaft, and a guide part having a smaller diameter is formed at the front end, and the protrusion on this guide part is configured as a reverse screw compared with the protrusion of a part of a constant diameter. Therefore, when the bolt 1 is inserted into the element with the internal thread incorrectly, more specifically, in the skewed position, this bolt leaves the element with the internal thread, since it is not installed in the position corresponding to the screwing. In other words, since the bolt cannot be screwed in until it occupies a position corresponding to the screwing with respect to the element with internal thread, this bolt does not fit into the element with internal thread in the wrong position, for example, in a skewed position, so that it can be reliably prevent bolt clamping or seizing in the female thread element. In addition, the effects can be enhanced by performing a protrusion on the guide portion in a twin-screw configuration. In this case, a threaded portion without a protrusion is formed between the constant diameter portion and the guide portion, and when the bolt is inserted into the member with the inner thread in a skewed position, the threaded portion and the inner thread portion never engage with each other, even if the non-threaded portion collides with the inner peripheral surface of the inner-threaded portion, it is thereby possible to reliably protect the bolt from being clamped in the female thread member.

The present invention is not limited to the above-described embodiments of the invention and may be modified in various ways. Although in this embodiment, an example of an internal thread element is a nut, it is understood that a bolt made in accordance with the present invention can be used with other internal thread elements. Although in this embodiment of the invention, an example is given of the length of a portion in which the protrusion height is gradually reduced by a part of the constant diameter of the bolt, the length of the portion without thread, the length of the tapering portion and the like are just examples, and corresponding sections can be made with other sizes other than those specified in the above embodiments. In addition, the shape of the protrusion formed on the guide portion and the shape of the protrusion formed on the constant diameter part are not limited to the shapes described in this embodiment of the invention and can be changed accordingly.

Claims (3)

1. A bolt having a head and a shaft on which a protrusion is formed, wherein the bolt is adapted to be screwed into an element with an internal thread, such as a nut, in which
the rod comprises a part of a constant diameter having a constant diameter formed at the distal end, and a guide part formed at its front end and having a smaller diameter compared to the part of the constant diameter,
the protrusion formed on the guide part is configured with a screw of the opposite direction with respect to the protrusion formed on the part of a constant diameter. 2. The bolt according to claim 1, in which the protrusion formed on the guide part is made in the form of a double-threaded screw having the configuration of a reverse screw. 3. The bolt according to claim 1 or 2, in which the section without thread, not having a protrusion, is formed in a predetermined area between the part of a constant diameter and the guide part of the bolt shaft.

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