JP6694616B2 - Cross bolt nut fastening device and cross bolt nut fastening method - Google Patents

Description

  The present invention relates to a nut fastening device for a cross bolt and a nut fastening method for a cross bolt.

  In order to prevent the nut from loosening, there is known a cross bolt nut fastening device that fastens the nut to a cross bolt having a right male screw portion and a left male screw portion provided on the same outer surface. The nut fastening device for a cross bolt described in Patent Document 1 fastens two nuts, a nut having a right female screw portion and a nut having a left female screw portion, to one cross bolt, and one of the nuts When trying to loosen the cross bolt, it prevents loosening due to the frictional force caused by the nuts pressing each other.

JP, 2013-087947, A

  However, since such a cross bolt nut fastening device requires two nuts for one cross bolt, there is a problem in that the number of nuts required for fastening increases.

  The present invention has been made to solve such problems, and a nut fastening device for a cross bolt, which can prevent the nut from loosening when one nut is fastened to one cross bolt, and An object of the present invention is to provide a nut fastening method for a cross bolt.

In order to solve the above-mentioned problems, a nut fastening device for a cross bolt according to the present invention is a cross bolt provided with a right male screw part and a left male screw part, a nut screwed to the cross bolt, and a deformable elongated member. A cross bolt nut fastening device comprising a member, wherein the right male screw portion has a right male screw groove, the left male screw portion has a left male screw groove, and the nut is a female screw portion provided inside the nut, The elongated member has a through hole penetrating the outside of the nut and the female screw portion, and the elongated member is arranged in the through hole and the right male screw groove or the left male screw groove , and the center line of the female screw portion is bent in an arc shape. ..

The elongated member may be a coil spring.
Further, the elongated member may be made of a shape memory alloy.
The elongated member may be made of a linear metal member.
The female screw portion may be the right female screw portion.

In order to solve the above problems, a method for fastening a nut for a cross bolt according to the present invention is a cross bolt having a right male screw portion including a right male screw groove and a left male screw portion including a left male screw groove, and a screw on the cross bolt. A step of preparing a nut having a female thread portion capable of fitting inside and having a through hole penetrating the outer portion and the female thread portion, and a deformable elongated member; a step of screwing the nut into a cross bolt; Inserting the member into the through hole, and arranging the elongated member in the left male screw groove so that the center line of the female screw portion is bent in an arc shape .

The elongated member may be a coil spring.
The elongate member may also be composed of a shape memory alloy and may include the step of heating the elongate member after the inserting step.
The elongated member may be made of a linear metal member.

  According to the nut fastening device for a cross bolt according to the present invention, the right male thread portion of the cross bolt has a right male thread groove, the left male thread portion has a left male thread groove, and the nut is a female thread provided inside the nut. Portion, and a through hole penetrating the outside of the nut and the female screw portion, and the elongated member is arranged in the through hole and in the right male screw groove or the left male screw groove, so that for one cross bolt It is possible to prevent the nut from loosening when one nut is fastened.

It is a schematic diagram of a nut fastening device for cross bolts concerning an embodiment of the invention. It is the schematic of the perforated nut shown in FIG. It is the schematic of the coil spring shown in FIG. It is a schematic diagram showing the state before inserting a coil spring in a hole punching nut. It is a schematic diagram showing the state where the coil spring was inserted in the perforated nut. FIG. 6 is a schematic view showing a state in which a coil spring has been inserted into a perforated nut more than that shown in FIG. 5. FIG. 7 is a schematic view showing a state in which a coil spring has been inserted into a pierced nut further than that shown in FIG. 6.

Embodiments of the present invention will be described below with reference to the accompanying drawings.
The cross bolt nut fastening device 10 shown in FIG. 1 includes a cross bolt 20, a perforated nut 30, and a coil spring 40.

  A right male screw portion 21 and a left male screw portion 22 are formed on the same outer surface of the cross bolt 20. The right male screw portion 21 has a right male screw groove 23 which is a screw groove, and the left male screw portion 22 has a left male screw groove 24 which is a screw groove. A perforated nut 30 is tightened, that is, fastened to the cross bolt 20. The side surface 31, which is one of the outer side surfaces of the piercing nut 30, has a through hole 32 that penetrates the outside and the inside of the piercing nut 30. The coil spring 40 is inserted into the through hole 32.

  As shown in FIG. 2, the perforated nut 30 has the outer shape of a hexagonal nut, and the right female screw portion 33 is formed inside. The perforated nut 30 constitutes a nut, and the right female screw portion 33 constitutes a female screw portion. The through hole 32 penetrates the side surface 31 and the right female screw groove 34 of the right female screw portion 33. Further, the through hole 32 extends in the tangential direction of the valley portion of the right female screw groove 34. The outer shape of the perforated nut 30 may be an outer shape other than the hexagonal nut, such as a square nut.

  As shown in FIG. 3, the coil spring 40 is an elongated coil spring, and is deformable by being bent so that the center line of the coil is curved. Further, the coil spring 40 is formed of a metal such as a hard steel wire that can have elasticity when the center line of the coil is bent. The diameter of the coil of the coil spring 40 is formed to have an appropriate size that can be inserted into the right male screw groove 23 (see FIG. 1), the left male screw groove 24, the through hole 32, and the right female screw groove 34 (see FIG. 2). . The coil spring 40 constitutes an elongated member.

Next, a fastening method of the cross bolt nut fastening device according to the embodiment of the present invention will be described.
As shown in FIG. 1, the perforated nut 30 is tightened by tightening the cross bolt 20 at a desired position. By fastening the perforated nut 30 to the cross bolt 20, a fixed member (not shown) is fixed by the cross bolt nut fastening device 10. At this time, the right female screw portion 33 of the perforated nut 30 is screwed into the right male screw 21 of the cross bolt 20. In this state, the perforated nut 30 can rotate in the tightening or loosening direction with respect to the cross bolt 20.

  Next, the positional relationship between the hole-piercing nut 30 and the coil spring 40 when the coil spring 40 is inserted into the through hole 32 will be described with reference to FIGS. 4 to 7. The cross bolts 20 are omitted in the following drawings of FIGS. 4 to 7 for convenience of description. Further, (a), (b), and (c) in each of FIGS. 4 to 7 are views of the perforated nut 30 and the coil spring 40 viewed from different directions in each of the drawings. (A) is the figure which looked at the perforated nut 30 from substantially above, (b) is the figure which looked at the insertion state of the coil spring 40 to the through-hole 32 from the diagonal upper side of the side surface 31, (c) is. It is a figure which shows the insertion state of the coil spring 40 in the through hole 32 and the right internal thread groove 34 inside the perforated nut 30.

  The coil spring 40 is inserted into the through hole 32, as shown by A in FIGS. 4 (a), 4 (b), and 4 (c). At this time, the coil spring 40 has a straight center line and is not bent.

  Next, when the coil spring 40 is inserted into the through hole 32 as shown in FIG. 5A, the coil spring 40 is moved along the through hole 32 as shown in FIGS. 5A and 5B. And proceed to the right female screw portion 33. Since the through hole 32 extends in the tangential direction of the trough of the right female screw groove 34, the coil spring 40 passes through the through hole 32 and further to the right as shown in FIGS. 5B and 5C. It is inserted into the male screw groove 23 and the right female screw groove 34. At this time, since the coil spring 40 is inserted along the right female thread groove 34, the center line of the right female thread portion 33 is curved and is bent clockwise in an arc shape.

  Next, as shown in FIG. 6A, the coil spring 40 is inserted deeper into the through hole 32. Then, as shown in FIGS. 6A and 6B, the coil spring 40 is further inserted while being bent clockwise along the right female screw groove 34 in an arc shape. As shown in FIGS. 6B and 6C, at this time, the coil spring 40 is inserted until the tip portion thereof is positioned at the right female screw portion 33 at a position facing the side surface 31 of the punched nut 30. It

  Next, as shown in FIG. 7A, FIG. 7B, and FIG. 7C, the coil spring 40 is inserted deeper into the through hole 32, and the rear end thereof slightly projects from the side surface 31. It is inserted to the extent. At this time, as shown in FIG. 7A, the coil spring 40 is inserted until its tip is located near the side surface 31 of the right female screw portion 33.

  When the coil spring 40 is inserted as shown in FIGS. 7 (a), 7 (b) and 7 (c), one end of the coil spring 40 has a right male screw portion of the cross bolt 20 (see FIG. 1). 21 reaches the position where the right male thread groove 23 of 21 and the left male thread groove 24 of the left male thread part 22 intersect. When the tip end portion of the coil spring 40 reaches the intersecting position of the right male screw groove 23 and the left male screw groove 24 while passing through the right male screw groove 23 and the right female screw groove 34, the coil spring 40 uses the intersecting position as a branch point. Enter the position of the left male thread groove 24. That is, the coil spring 40 is arranged in the through hole 32 and the left male screw groove 24.

  By arranging the coil spring 40 in the position of the left male thread groove 24, a part of the right male thread groove 23 of the cross bolt 20 is closed by the coil spring 40. Then, the coil spring 40 prevents the piercing nut 30 from rotating about the cross bolt 20 due to the screwing of the right female screw portion 33 and the right male screw portion 21. Thereby, loosening of the perforated nut 30 is prevented.

  When the hole-piercing nut 30 is further tightened or loosened, by pulling out the coil spring 40 from the through hole 32, the coil spring 40 does not block the right male screw portion 21, and the hole-pierced nut 30 is tightened. It can be loosened.

  Since the coil spring 40 has elasticity, it is possible to use the coil spring 40 by inserting it into the through hole 32 or pulling it out from the through hole 32 many times.

  Further, in the above case, when the coil spring 40 is inserted up to the position shown in FIGS. 7A, 7B, and 7C, the coil spring 40 moves from the branch point to the left male screw groove 24. Although it is in the position, depending on the fastening position of the cross bolt 20, the perforated nut, and 30, the insertion position is shallower than the position shown in FIGS. 7A, 7B, and 7C. For example, in FIG. 5 (a), FIG. 5 (b), FIG. 5 (c) or FIG. 6 (a), FIG. 6 (b), FIG. 6 (c)), the coil spring 40 moves from the branch point to the left male thread groove 24. May enter the position. That is, the coil spring 40 is arranged in the through hole 32 and the left male screw groove 24. Even in that case, when the coil spring 40 enters the position of the left male thread groove 24, a part of the right male thread groove 23 is closed by the coil spring 40, so that the piercing nut 30 rotates with respect to the cross bolt 20. The attempted movement is prevented by the coil spring 40 and the loosening of the perforated nut 30 is prevented.

  Further, in the above case, since the coil spring 40 is arranged so as to enter the position of the left male screw groove 24 from the branch point, part of the right male screw groove 23 of the cross bolt 20 is blocked by the coil spring 40, The loosening of the perforated nut 30 was prevented. However, depending on the fastening position of the cross bolt 20 and the perforated nut 30, the insertion of the coil spring 40 is hindered by the right male screw groove 23 before the coil spring 40 enters the branch point. That is, the coil spring 40 is arranged in the through hole 32 and the right male screw groove 23. Also in this case, the coil spring 40 prevents the hole spring 30 from rotating with respect to the cross bolt 20, and the coil spring 40 prevents the hole nut 30 from loosening.

  Thus, the cross bolt nut fastening device includes the cross bolt 20 provided with the right male screw portion 21 and the left male screw portion 22, the nut 30 screwed to the cross bolt 20, and the deformable elongated member. The right male screw portion 21 has a right male screw groove 23, the left male screw portion 22 has a left male screw groove 24, and the perforated nut 30 has a right female screw portion 33 provided inside the perforated nut 30. It has a through hole 32 penetrating the outside of the perforated nut 30 and the right female screw portion 33, and since the elongated member is arranged in the through hole 32 and in the left male screw groove 24, it becomes one cross bolt. On the other hand, when one nut is fastened, loosening of the nut can be prevented.

  Further, the cross bolt 20 having the right male screw portion 21 including the right male screw groove 23 and the left male screw portion 22 including the left male screw groove 24, and the right female screw portion 33 that can be screwed into the cross bolt 20 are provided on the inner side and the outer side. Preparing a perforated nut 30 having a through hole 32 penetrating the right female threaded portion 33 and a deformable elongated member, screwing the perforated nut 30 to the cross bolt 20, and penetrating the elongated member. The insertion step of inserting 32 into the hole and arranging the elongated member in the left male thread groove can prevent the nut from loosening when one nut is fastened to one cross bolt.

  Further, since the elongated member is composed of the coil spring 40, the coil spring 40 has elasticity so that the coil spring 40 can be inserted and pulled out from the through hole 32 and used many times. .

Further, since the right female threaded portion 33 is a right female threaded portion, it is only necessary to provide the through hole 32 in the nut having the right female threaded portion used in the conventional nut fastening device for cross bolts, and thus the perforated hole used in this embodiment is formed. The nut 30 can be constructed.
It is possible to prevent the nut from loosening when one nut is fastened to the nut.

  Further, in this embodiment, the coil spring 40 is used as the elongated member, but instead of the coil spring 40, a linear shape memory formed of a shape memory alloy such as nickel / titanium alloy or copper / aluminum / nickel alloy is used. You may use the wire which comprises a metal member. That is, the elongated member may be made of a shape memory alloy. Further, the step of inserting the shape memory alloy wire into the through hole 32 and disposing the shape memory alloy wire in the left male screw groove 24 may be followed by the step of heating the shape memory alloy wire.

  For example, an elongated member is formed by linearly forming a shape memory alloy wire that stores an arcuate shape along the right female screw portion 33, and the elongated member is configured as shown in FIGS. 7 (a) and 7 (b). , And is inserted into the through hole 32 in the same manner as the coil spring 40 shown in FIG. After that, by heating the rear end of the shape memory alloy wire from the side of the through hole 32 to restore the arc shape, a circle that fits along the right female screw groove 34, the right male screw portion 21, and the left male screw groove 24. It can be fixed in an arc shape. The shape memory alloy is more likely to be inserted along the right female screw groove 34, the right male screw portion 21 and the left male screw groove 24 than the coil spring 40 having elasticity, and can be restored after the insertion. There is an advantage that the fastening work can be performed easily.

  Furthermore, the elongated member may be formed of a metal other than the shape memory alloy instead of the coil spring 40. For example, a wire such as a copper wire may be used. As a result, it is possible to reduce the cost of parts relating to the cross bolt nut fastening device and the cross bolt nut fastening method.

  In this embodiment, the female screw portion of the perforated nut 30 is the right female screw portion 33, but it may be the left female screw portion. Even when the female screw portion of the perforated nut 30 is the left female screw portion, the hole used in this embodiment is simply provided by providing the through hole in the nut having the left female screw portion used in the conventional nut fastening device for cross bolts. The open nut 30 can be configured.

  Further, in this embodiment, one perforated nut 30 is fastened to one cross bolt 20, but the nut having the female screw portion as the right female screw portion and the nut having the female screw portion as the left female screw portion are used. May be screwed into the cross bolt 20, and any one or both of these nuts may be perforated nuts. That is, the configuration may be such that two nuts including at least one perforated nut are used for fastening. Thereby, even with the nut fastening device for a cross bolt and the nut fastening method for a cross bolt using two nuts, it is possible to prevent the nut from loosening.

  10 cross bolt nut fastening device, 20 cross bolt, 21 right male screw part, 22 left male screw part, 23 right male screw groove, 24 left male screw groove, 30 hole nut (nut), 32 through hole, 33 right female screw part (female screw) Part), 40 coil spring (elongated member).

Claims (9)

A cross bolt provided with a right male screw part and a left male screw part,
A nut that can be screwed into the cross bolt,
A nut fastening device for a cross bolt, comprising a deformable elongated member,
The right male screw portion has a right male screw groove,
The left male screw portion has a left male screw groove,
The nut is
An internal thread portion provided inside the nut,
Having a through hole that penetrates the outside of the nut and the female screw portion,
The nut fastening device for a cross bolt, wherein the elongated member is arranged in the through hole and in the right male screw groove or the left male screw groove , and a center line of the female screw portion is bent in an arc shape .   The nut fastening device for a cross bolt according to claim 1, wherein the elongated member is formed of a coil spring.   The nut fastening device for a cross bolt according to claim 1, wherein the elongated member is made of a shape memory alloy.   The nut fastening device for a cross bolt according to claim 1, wherein the elongated member is made of a linear metal member.   The nut fastening device for a cross bolt according to claim 1, wherein the female screw portion is a right female screw portion. A cross bolt having a right male screw portion including a right male screw groove and a left male screw portion including a left male screw groove,
A nut having a female screw portion that can be screwed into the cross bolt inside, and a through hole that penetrates the outside and the female screw portion,
Providing a deformable elongated member,
Screwing the nut onto the cross bolt,
An inserting step of inserting the elongated member into the through hole, and arranging the elongated member in the left male screw groove so that the center line of the female screw portion is bent in an arc shape .
A method for tightening a nut for a cross bolt, including:   The cross bolt nut fastening method according to claim 6, wherein the elongated member is configured by a coil spring.   The method for fastening a nut for a cross bolt according to claim 6, wherein the elongated member is made of a shape memory alloy, and the step of heating the elongated member is performed after the inserting step.   The nut fastening method for a cross bolt according to claim 6 or 8, wherein the elongated member is made of a linear metal member.

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