JP2014040895A - Press-in bolt - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a press-in bolt which can have large fixation strength for a base material of the bolt without providing a caulking part, and is free of roughening of a surface of the base material on the opposite side of a head as a seating surface of a nut.SOLUTION: A press-in bolt has a head part 11, a screw part 12, and a knurl formation part 13 which is formed on a base side of the screw part 12, and fixed to the base material 2 by being pressed in a lower hole 21 formed in the base material 2. Further, a step part 14 which absorbs an excess thickness of the base material 2 when the press-in bolt 1 is pressed in the base material 2, and has a diameter D14 larger than a diameter D of crests of the screw part 12 and equal to or smaller than a diameter D13 of roots of the knurl formation part 13 is formed between the screw part 12 and knurl formation part 13.

Description

  The present invention relates to a press-fitting bolt, and in particular, a knurl forming portion that is formed on the base side of a head portion, a screw portion, and the screw portion and is fixed to the base material by press-fitting into a prepared hole formed in the base material. It is related with the press-fitting bolt provided with.

  Conventionally, stud bolts have been widely used to implant bolts in the base metal. However, it is easy to respond to diversification of base metal (copper and aluminum other than iron, etc.) and workability including work time. For the purpose of improvement and cost reduction, a press-fitting bolt that mechanically fixes a bolt to a base material by press-fitting the bolt into a pilot hole formed in the base material has been proposed and put into practical use (Patent Document 1 and 2).

  Among these, the press-fit bolt described in Patent Document 1 causes the convex portion formed on the end face of the head to bite into the base material by press-fitting the bolt into the lower hole formed in the base material, and the convex portion The bolt is mechanically fixed to the base material by absorbing the surplus of the base material by the concave portion formed adjacently.

However, this press-fit bolt has a small fixing strength (rotational torque resistance applied to the press-fit bolt during use) to the base material of the bolt only by fixing with the convex portion formed on the end face of the head. Thus, the caulking portion formed on the press-fitting bolt is plastically deformed so that the base material is sandwiched between the end surface of the head and the caulking portion.
For this reason, there has been a problem that a large processing force is required to plastically deform the caulking portion, and the processing apparatus is increased in size.
In this case, in order to increase the fixing strength without providing the caulking portion, it is necessary to increase the protruding height of the convex portion, but in this case, the seating surface of the nut screwed into the press-fitting bolt A press-fitting mark appears on the surface of the base material on the opposite side of the head, and the problem arises that the seating surface becomes rough.

Further, like the press-fit bolt described in Patent Document 2, a bolt is machined into the base material by press-fitting a knurled portion formed on the base side of the threaded portion into a prepared hole formed in the base material. However, the fixing strength of the bolt against the base metal can be obtained only by fixing with the knurled crimped part formed on the base side of the threaded part (rotation torque resistance applied to the press-fitted bolt during use) ) Is small, in order to increase the fixing strength, the caulking portion is also plastically deformed so that the base material is sandwiched between the end surface of the head and the caulking portion.
For this reason, there has been a problem that a large working force is required to plastically deform the caulked portion subjected to the knurling process, and the working apparatus is increased in size.

JP-A-1-158205 JP-A-9-291921

  In view of the above-described problems of the conventional press-fitting bolt, the present invention can obtain a large fixing strength for the base material of the bolt without providing a caulking portion, and can also provide a mother on the opposite side of the head serving as the seating surface of the nut. An object of the present invention is to provide a press-fitting bolt that does not roughen the surface of the material.

  In order to achieve the above object, the press-fitting bolt of the present invention is fixed to the base material by press-fitting into a head, a screw part, and a base side of the screw part and formed in a prepared hole formed in the base material. In the press-fitting bolt provided with the knurled portion, the diameter of the threaded portion is larger than the threaded portion that absorbs the surplus material of the base material when the press-fit bolt is press-fitted into the base material between the screw portion and the knurled portion. A step portion having a diameter that is the same as or smaller than the diameter of the valley of the knurled portion is formed.

  In this case, an annular groove can be formed on the end surface of the stepped portion.

  According to the press-fitting bolt of the present invention, when the press-fitting bolt is press-fitted into the base material between the screw part and the knurl forming part, the extra diameter of the base material is absorbed, and the knurled diameter is larger than the diameter of the thread part. By forming a step portion having the same diameter as the diameter of the valley of the formation portion or a diameter smaller than that, it is possible to absorb the surplus material of the base material by this step portion, and the head portion that becomes the seating surface of the nut The surface of the base material on the opposite side can be prevented from becoming rough, and the diameter of the knurled portion can be set to a diameter that can obtain the necessary fixing strength for the base material of the bolt. Thus, since it is not necessary to provide a caulking portion, the processing apparatus can be reduced in size.

  Further, by forming an annular groove on the end surface of the stepped portion, the groove can surely absorb the surplus of the base material, and the base material on the opposite side of the head serving as the seating surface of the nut. It is possible to prevent the surface of the substrate from becoming rough.

It is explanatory drawing which shows 1st Example of the press-fitting bolt of this invention. It is explanatory drawing of the raw material of the same press-fitting bolt. It is explanatory drawing of the process of fixing the press-fitting bolt to a base material. It is a front view which shows the specific Example of the press-fitting bolt. It is the same rear view. It is the left side view. It is the same right view. It is the same top view. It is the bottom view. It is the sectional view on the AA line of FIGS. 4-5. It is explanatory drawing which shows 2nd Example of the press-fitting bolt of this invention. It is explanatory drawing of the process of fixing the press-fitting bolt to a base material. It is a front view which shows the specific Example of the press-fitting bolt. It is the same rear view. It is the left side view. It is the same right view. It is the same top view. It is the bottom view. FIG. 6 is a cross-sectional view taken along line AA in FIG.

  DESCRIPTION OF EMBODIMENTS Hereinafter, embodiments of a press-fitting bolt of the present invention will be described with reference to the drawings.

1 to 3 show a first embodiment of the press-fitting bolt of the present invention.
As shown in FIG. 1, the press-fitting bolt 1 is formed on the base 11 by being press-fitted into a head 11, a screw part 12, and a base hole 21 formed in the base material 2. In the press-fitting bolt provided with the knurled part 13 fixed to 2, when the press-fitted bolt 1 is press-fitted into the base material 2 between the screw part 12 and the knurled part 13, the surplus material of the base material 2 is absorbed. A step portion 14 having a diameter D14 larger than the diameter D12 of the crest of the screw portion 12 and having the same diameter as that of the valley D13 of the knurling formation portion 13 or smaller than that is formed.

  In this case, the total height of the height H13 of the knurling portion 13 and the height H14 of the stepped portion 14 is smaller than the thickness H2 of the base material 2, and the diameter D14 of the stepped portion 14 is Each is set so as to be slightly smaller than the diameter D21 of the lower hole 21 of the material 2.

  Further, in addition to forming the stepped portion 14 to have a uniform diameter, as shown in the present embodiment, the stepped portion 14 may be formed in a truncated cone shape having a large diameter on the knurled portion 13 side and a small diameter on the screw portion 12 side. Preferably, this makes it possible to smoothly flow the surplus of the base material 2.

This press-fitting bolt 1 can be preferably obtained by forging a round bar.
Specifically, as shown in FIG. 2 (a), by forging a round bar 1A as a material, after obtaining an intermediate material 1B having a flange 11B as shown in FIG. 2 (b). As shown in FIG. 2 (c), the knurled portion 13 and the stepped portion 14 are forged and formed in the flange portion 11B, and then the head 11 is forged as shown in FIG. 2 (d). be able to.
The threaded portion 12 can be formed by a known method such as rolling.

Next, FIG. 3 shows a step of fixing the press-fitting bolt 1 to the base material 2.
First, as shown in FIG. 3A, the press-fitting bolt 1 is installed in the prepared hole 21 formed in the base material 2.
At this time, the receiving die 3 is installed under the base material 2.
A hole 31 for receiving the threaded portion 12 of the press-fitting bolt 1 is formed in the receiving die 3.
The hole 31 is preferably formed so that its diameter D31 is slightly larger than the diameter D12 of the threaded portion 12 of the press-fitting bolt 1 so that the press-fitting bolt 1 can be positioned.

  Next, as shown in FIG. 3B, the press-fitting bolt 1 is pressed by pressing the head 11 of the press-fitting bolt 1 with a pressing member (not shown) while the base material 2 is supported by the receiving die 3. 1 is pressed into the base material 2.

  When the press-fitting of the press-fitting bolt 1 into the base material 2 progresses, as shown in A of FIG. 3C, the surplus of the base material 2 is generated as burrs on the front surface in the direction of travel of the knurled portion 13, The generated burrs go around to the end face side of the step portion 14 and are absorbed.

  Then, in the state where the press-fitting of the press-fitting bolt 1 into the base material 2 is completed, the generated burrs are completely absorbed between the receiving die 3 and the stepped portion 14 as shown in FIG. The surface of the part is flush with the surface of the base material 2 (or in a state of being recessed from the surface of the base material 2).

Thus, the step 14 can absorb the surplus of the base material 2 and can prevent the surface of the base material 2 serving as the seating surface of the nut from being roughened by burrs, and the press-fitting bolt. Depending on the press-fitting of the knurled portion 13, the surface of the base material 2 that serves as the seating surface of the nut can be kept flat, in combination with the fact that the press-fitting marks are less likely to appear on the surface of the base material 2.
Moreover, since the diameters of the knurl forming portion 13 and the stepped portion 14 can be set independently, the diameter of the knurl forming portion 13 can be set to a diameter capable of obtaining a necessary fixing strength with respect to the base material 2 of the press-fitting bolt 1. In addition, since it is not necessary to provide a caulking portion unlike a conventional press-fitting bolt, the processing apparatus can be reduced in size.

  And since this press-fitting bolt 1 has said characteristic, it can be used suitably for metal base materials with comparatively high hardness, such as copper and iron.

  4-1 to 4-7 show a more specific embodiment of the press-fitting bolt 1.

5 to 6 show a second embodiment of the press-fitting bolt of the present invention.
As shown in FIG. 5, the press-fitting bolt 1 is formed on the base 11 by forming a head 11, a screw 12, and a base 21 of the screw 12, and press-fitting into a lower hole 21 formed in the base 2. In the press-fitting bolt provided with the knurled part 13 fixed to 2, when the press-fitted bolt 1 is press-fitted into the base material 2 between the screw part 12 and the knurled part 13, the surplus material of the base material 2 is absorbed. A step portion 14 having a diameter D14 larger than the diameter D12 of the crest of the screw portion 12 and having the same diameter as that of the valley D13 of the knurling formation portion 13 or a diameter D14 smaller than that is formed. An annular groove 14a is formed.

Next, FIG. 6 shows a step of fixing the press-fitting bolt 1 to the base material 2.
In the present embodiment, the shape of the lower hole 21 formed in the base material 2 is not a uniform hole diameter, but a shape in which the seating surface side of the nut is narrowed. It can prevent that the surface of the base material 2 used as a seating surface becomes rough.
This process is basically the same as the press-fitting bolt 1 of the first embodiment, but the press-fitting bolt 1 of this embodiment forms an annular concave groove 14a on the end face of the stepped portion 14. The burrs generated on the front surface in the advancing direction of the knurled portion 13 can be reliably absorbed by the concave grooves 14a, and the burrs generated on the surface of the base material 2 serving as the seating surface of the nut are more reliably damaged. Can be prevented.

  And since this press-fitting bolt 1 has said characteristic, it can be used suitably for metal base materials with comparatively low hardness, such as aluminum.

  7-1 to 7-7 show more specific examples of the press-fitting bolt 1.

  In addition, the other structure and effect | action of the press-fit bolt 1 of a present Example are the same as that of the press-fit bolt 1 of 1st Example.

  As mentioned above, although the press-fitting bolt of the present invention has been described based on a plurality of embodiments, the present invention is not limited to the configurations described in the above-described embodiments, and the configuration is appropriately changed without departing from the spirit thereof. Is something that can be done.

  The press-fitting bolt of the present invention can obtain a large fixing strength with respect to the base material of the bolt without providing a caulking portion, and the surface of the base material on the side opposite to the head serving as the seating surface of the nut is not roughened. Since it has the characteristic, it can be used suitably for the use which implants a bolt in various metal base materials, such as iron, copper, and aluminum.

DESCRIPTION OF SYMBOLS 1 Press-fit bolt 11 Head 12 Screw part 13 Knurled part 14 Step part 14a Concave groove 2 Base material 21 Pilot hole

Claims (2)

  In the press-fitting bolt comprising a head, a screw part, and a knurl forming part formed on the base side of the screw part and fixed to the base material by press-fitting into a prepared hole formed in the base material. When the press-fitted bolt is press-fitted into the base material between the part and the knurl forming part, it absorbs the surplus of the base material and has a diameter larger than the diameter of the thread part ridge, or the same diameter as the valley diameter of the knurled part or A press-fitting bolt characterized in that a step portion having a smaller diameter is formed.   The press-fitting bolt according to claim 1, wherein an annular groove is formed on an end surface of the stepped portion.

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