JP2012087895A - Stud bolt and structure having stud bolt - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a stud bolt and a structure having the same, easy in installation, and capable of easily adjusting a position of the stud bolt even when an installation position to an installation object member is dislocated.SOLUTION: The stud bolt 10 is arranged in the installation object member 3 via a hole 3c arranged in the installation object member 3. The stud bolt 10 includes a bolt 1 having a head part 1a larger than the hole 3c and having a shaft part 1b inserted into the hole 3c, and a clip 2 fitted to the shaft part of the bolt 1, and the clip 2 is locked on a smooth part 1c smooth in an outer surface formed on the base end side of the shaft part 1b of the bolt 1. The installation object member 3 can be sandwiched between the head part 1a of the bolt 1 and an interposing contact part of the clip 2. A locking position in the shaft part 1b of the clip 2 becomes larger than the depth of the hole 3c in an interval between the head part 1a and the interposing contact part, and the hole 3c is larger than a diameter of the shaft part 1b.

Description

  The present invention relates to a stud bolt and a structure including the stud bolt, and more particularly to a stud bolt that is used in a transport machine such as an automobile and a structure such as a building and has excellent mounting workability and easy position adjustment. And a structure including a stud bolt.

  Conventionally, in transport machines such as automobiles and structures such as buildings, fastening members such as bolts and nuts are used for fastening metal members and attaching parts (for example, Patent Documents 1 and 2). For example, as shown in FIG. 12, in a bumper stay 30 of an automobile, a stud bolt 10 is used as a fastening member to form a structure including a stud bolt, and a bumper is attached to the stud bolt 10 and fastened with a nut, for example. To do.

  For example, in an assembly line for a transport machine such as an automobile, it is necessary to assemble a large number of parts. Therefore, it is preferable to mount a fastening member such as a bolt and a nut and a structure using these fastening members. Sex is required. However, for example, in the operation of fixing one part to the other part with bolts, nuts, etc. in a state where the parts are aligned with each other in a predetermined position, In order to fasten bolts or nuts, the skill of the operator may be required to be skilled. That is, it is necessary to support one part with, for example, one hand in a state of being aligned with the part to be fixed, and perform the fastening operation with the other hand. When it is large, it is difficult to fasten the parts together.

  For example, Patent Literature 1 discloses a technique for improving the mounting workability between components. In this Patent Document 1, when one component is attached and fixed to the other component, a stud bolt and a temporary support bracket are provided on the component to be attached, and the stud bolt insertion portion is provided on the component on the attachment side. There is disclosed a mounting structure in which a bracket having a hole is provided, and a fastening operation is performed in a state where a mounting-side component is supported by a stud bolt and a temporary support bracket.

  Conventionally, when a stud bolt is installed on a part, a member such as a pierce nut is driven in advance at a predetermined position of the part, and a stud bolt end screw is fastened to the pierce nut part to attach the stud bolt. It is attached to a part, and the boundary part of a stud bolt and a part is joined by welding etc. as needed. For example, when the target part on which the pierce nut is to be installed is an extruded profile having a hollow cross section, a pierce nut driving tool is inserted inside the hollow portion, and the pierce nut is driven into the inner wall of the extruded profile. For installation, the pierce nut protrudes toward the hollow portion by a predetermined thickness. Patent Document 2 discloses a technique for preventing the piercing nut protruding toward the hollow part from being caught by, for example, the driving tool itself and making it difficult to advance and retract the driving tool inside the extruded profile in such a case. It is disclosed.

  Patent Documents 3 and 4 disclose fasteners in which a flat washer is integrated with a bolt. A bolt having a large-diameter shaft portion and a small-diameter shaft portion formed on the bolt shaft from the base end side is flattened. After inserting into the hole of the washer and press-fitting the tip of the large-diameter shaft part into the flat washer, when machining a screw on the small-diameter shaft part, the tip of the large-diameter shaft part is caulked to the plain washer by plastic deformation and attached to the bolt A technique for fixing a flat washer is disclosed. Therefore, in this fastener, a shaft portion having a smaller diameter than the plain washer and the head portion of the bolt is formed in a predetermined section, and this shaft portion is attached by being fitted into a groove of a member to be attached. It is done.

JP 2008-1271 A JP 2008-223877 A Japanese Patent Publication No. 8-30488 JP 2008-291874 A

  However, the above-described prior art has the following problems. Patent Document 1 uses a stud bolt to improve the workability of assembling parts. As described above, in order to install a stud bolt, a pierce nut or the like is previously driven into the part and fixed with a tool or the like. There is a need to. Therefore, when the position of the pierce nut deviates from a predetermined installation position due to a tool attachment error or the like, it is necessary to fix the pierce nut again. In particular, in the extruded section having a hollow cross section, the position where the pierce nut should be installed is hidden by a driving tool or the like, and many deviations in the installation position of the pierce nut occur. However, once the pierce nut has been driven in once, a hole into which the pierce nut has been driven is once provided. Therefore, it is difficult to perform minute position adjustment again and to re-install the pierce nut.

  Moreover, although the technique of patent document 2 improves the driving | operation workability of a pierce nut, since it is necessary to insert a driving tool in the hollow part of a to-be-attached member, for example, the magnitude | size of the hollow part of a to-be-attached member is large. When the length is small, or when the size of the fastening member such as the pierce nut is large, the mounting workability may still be difficult.

  Furthermore, in the fasteners of Patent Documents 3 and 4, a flat washer is integrated with a bolt, and a shaft portion formed between the flat washer and the head of the bolt is fitted to the mounted member. Therefore, it is necessary to form a groove for the purpose. Therefore, this fastener cannot be used when the attached member has a hollow cross-sectional shape, and there is a problem that the application is limited.

  The present invention has been made in view of such a problem, and can be easily installed and a stud bolt capable of easily adjusting the position of the stud bolt even when the installation position on the attached member is shifted. An object is to provide such a structure.

  The stud bolt according to the present invention is a stud bolt arranged in a plate-like attached portion in which a hole in the attached member is formed, a bolt whose head is larger than the hole and a shaft portion is inserted into the hole, A clip that is fitted to the shaft portion and includes a pinching portion that can pinch the mounted portion between the head portion and is locked so as not to come off from a predetermined locking position of the shaft portion in the axial direction. The shaft portion of the bolt has a smooth portion with a smooth outer surface on the base end side, and a step is formed between the smooth portion and the screw thread provided on the outer surface of the shaft portion. The clip is locked to this step, and the locking position of the clip at the shaft portion is such that the distance between the head and the clamping portion is larger than the depth of the hole. The hole is larger than the diameter of the shaft portion. In the present invention, since the distance between the head and the sandwiching portion is larger than the depth of the hole, the stud bolt can be aligned, but the interval between the head and the sandwiching portion is It may be substantially the same as the depth of the hole, or may be approximately the same as the head and the sandwiching portion can be aligned while contacting the attached portion and generating friction.

  In the above-described stud bolt, for example, the clip portion of the clip is fitted into the shaft portion up to a locking position where the clip climbs over the thread and is locked to the step.

  Another stud bolt according to the present invention is a stud bolt arranged in a plate-like attached portion in which a hole in the attached member is formed, a bolt whose head is larger than the hole and a shaft portion is inserted into the hole. And a pinching portion that is fitted to the shaft portion and can sandwich the attached portion between the head portion and is locked so as not to come off from a predetermined locking position of the shaft portion in the axial direction. And the shaft portion of the bolt has a smooth portion with a smooth outer surface on the base end side, and the clip has a notch fitted to the smooth portion. The locking position of the shaft portion is such that the distance between the head portion and the clamping portion is larger than the depth of the hole, and the hole is larger than the diameter of the shaft portion. To do.

  In this stud bolt, the width of the notch at the outermost edge portion of the clip is smaller than the diameter of the smooth portion, and the clip is fitted into the smooth portion by press-fitting the notch into the smooth portion. Combined.

  A structure including a stud bolt according to the present invention is a structure including a stud bolt in which the above-described stud bolt is installed on a mounted member, and after inserting the shaft portion into the hole of the mounted member, The stud bolt is loosely fitted in the hole by press-fitting the clip into the step and sandwiching a member to be attached between the head and the clip.

  A structure provided with another stud bolt according to the present invention is a structure provided with a stud bolt in which a stud bolt provided with a notch in the clip is provided on a member to be attached, wherein the hole of the member to be attached is provided. After the shaft portion is inserted into the notch, the notch is press-fitted into the smooth portion, and the attached member is sandwiched between the head and the clip, so that the stud bolt is loosely fitted in the hole. It is characterized by being.

  In the structure including the stud bolt, the mounting member is formed with a locking portion that prevents rotation of the bolt and / or the clip by fitting the head or the clip into a protrusion or a groove. It is preferable that

  In the structure including the stud bolt described above, the attached member can be made of, for example, an extruded shape member of aluminum or aluminum alloy, a casting, or a deformed rolled material.

  The stud bolt of the present invention is provided with a clamping portion in which the clip can sandwich the attached portion with the head, and the clip has a hole between the bolt head and the clamping portion. The hole of the attached member is larger than the diameter of the shaft portion. Thereby, a stud bolt can be attached to the hole of a to-be-attached member in a loose fitting state, and the alignment is easy. For example, if the clip is locked to a step formed between the smooth portion on the base end side of the shaft portion of the bolt and the shaft portion, or if the clip has a notch, the notch The clip can be attached to the member to be attached simply by being fitted to the smooth portion, and the stud bolt can be easily installed.

  Therefore, the structure provided with the stud bolt of the present invention can easily align the mounted member and the stud bolt.

(A) is sectional drawing which shows an example of the stud bolt and to-be-attached member which concerns on embodiment of this invention, (b) is the B section enlarged view of Fig.1 (a). (A) is a side view showing a bolt in a stud bolt according to an embodiment of the present invention, (b) is a top view of the bolt (rectangular shape), and (c) is a plate shape with an elliptical head portion of the bolt. It is a top view which shows the volt | bolt of the modification in the case. (A) is a side view showing a clip in the stud bolt according to the embodiment of the present invention, (b) is a top view of the clip (rectangular shape), and (c) is a modified example when the outer edge has a circular shape. It is a top view which shows a clip. (A) is a perspective view which shows an example of the structure provided with the stud bolt of this invention, (b) is AA sectional drawing of Fig.4 (a). (A) is a figure which shows the attachment locus | trajectory of a volt | bolt in the structure with a stud bolt concerning 1st Embodiment of this invention, Comprising: CC sectional drawing of Fig.1 (a), (b) is a figure. It is a top view of 5 (a). (A) is a side view which shows the insertion tool of a volt | bolt, (b) is a bottom view similarly. (A) thru | or (d) is a figure which shows the attachment process of the volt | bolt which uses an insertion jig. (A) is a side view which shows a clip in the stud bolt which concerns on 2nd Embodiment of this invention, (b) is a top view similarly. (A) thru | or (c) is a figure which shows the attachment process of a clip in the stud bolt which concerns on 2nd Embodiment of this invention. (A) thru | or (c) is a figure which shows the usage example of the stud bolt which concerns on 2nd Embodiment of this invention. (A) thru | or (c) is a figure which shows the modification of the stud bolt which concerns on 2nd Embodiment of this invention. (A), (b) shows an example of the structure provided with the conventional stud bolt.

  Hereinafter, embodiments of the present invention will be described in detail. Fig.1 (a) is sectional drawing which shows an example of the stud bolt and to-be-attached member which concerns on embodiment of this invention, FIG.1 (b) is the B section enlarged view of Fig.1 (a). 2A is a side view showing the bolt in the stud bolt according to the embodiment of the present invention, FIG. 2B is a top view of the bolt (rectangular shape), and FIG. 2C is the head of the bolt. It is a top view which shows the volt | bolt of the modification in case where is an elliptical plate shape. 3A is a side view showing a clip in the stud bolt according to the embodiment of the present invention, FIG. 3B is a top view of the clip (rectangular shape), and FIG. 3C is a circular outer edge shape. It is a top view which shows the clip of the modification in a certain case. FIG. 4A is a perspective view showing an example of a structure provided with the stud bolt of the present invention, and FIG. 4B is a cross-sectional view taken along line AA of FIG. FIG. 5A is a diagram showing a bolt mounting locus in the structure having the stud bolt according to the first embodiment of the present invention, and is a cross-sectional view taken along the line C-C in FIG. b) is a top view of FIG.

  The stud bolt 10 of the present invention is disposed on a member to be attached such as a bumper stay 30 of an automobile as shown in FIG. 4, for example, and constitutes a structure having the stud bolt 10. As shown in FIG. 1, the stud bolt 10 of the present invention includes a bolt 1 and a clip 2, and is disposed on the mounted member 3 through a hole 3 c provided on the mounted member 3. It is.

The bolt 1 is made of, for example, a steel material such as S45C and high-tensile steel, and is configured by appropriately selecting a material suitable for the application. As shown in FIG. 2A, the bolt 1 is composed of a head portion 1a and a shaft portion 1b, and the shaft portion 1b has a smooth portion 1c having a smooth circumferential surface at a predetermined length from the head portion 1a. The portion from the end of the smooth portion 1c to the tip of the shaft portion 1b is a screw portion 1e in which a screw having a length required as a stud bolt is formed. The diameter D _B1 of the smooth portion 1c is smaller than the crest diameter D _B2 of the threaded portion 1e, is configured such that the diameter (root diameter) or less in the grooves of the example of the bolt 1 threaded portion 1e, thereby, smooth A step 1d is formed between the portion 1c and the thread. In the present embodiment, the clip 2 described later is locked to the step 1d formed between the smooth portion 1c and the screw thread, and when the clip 2 is attached, the attached member 3 is connected to the head 1a of the bolt. It is comprised so that it may be in the state pinched | interposed with the clip 2 leaving some clearance gaps.

  As shown in FIG. 2B, the head 1a of the bolt 1 has, for example, a square shape in plan view, and is locked so as not to rotate due to the structure provided in the attached member 3 described later. Is done.

  As shown in FIG. 1 (a), of the shaft portion 1b having the base 1a of the bolt 1 as a base end, the smooth portion 1c is provided in a section having a length L from the head 1a in the bolt axis direction. . The length L of the smooth portion 1c is configured to be larger than, for example, the total of the thickness t of the clip 2 described later and the depth H of the hole 3c of the attached member 3. Further, the length of the threaded portion 1e is appropriately set to an optimum length according to the use of the component fixed to the stud bolt 10.

The clip 2 is made of a synthetic resin having elasticity such as polypropylene resin, and is made of a material having strength and rigidity as a clip. As shown in FIGS. 3 (a) and 3 (b), in this embodiment, the clip 2 is formed in the shape of a flat plate having a rectangular outer edge portion, and the shaft portion 1b of the bolt is formed at the center thereof. the fitting is for example a circle (diameter: D _C) fitting hole 2c of are provided. Since the shape of the outer edge portion of the clip 2 is rectangular, the clip 2 is locked so as not to rotate by a structure provided in the attached member 3 described later.

The diameter D _C of the fitting hole 2c of the clip 2 is, for example, a diameter D _B1 or the size of the smooth portion 1c, and is configured to be smaller than the crest diameter D _B2 of the threaded portion 1e. As a result, in the present embodiment, the flat clip 2 is temporarily prevented from being inserted through the plurality of screw threads of the screw portion 1e when the shaft portion 1b is inserted. The vicinity of the inner peripheral edge provided with is bent due to the elasticity of the material, so that each screw thread can be overcome. Thereby, the clip 2 of this embodiment is easily fitted to the smooth part 1c only by press-fitting into the head 1a side of the bolt 1.

  Next, the attached member 3 to which the stud bolt 10 of this embodiment is attached will be described. In this embodiment, the to-be-attached member 3 is comprised from the extruded shape of a square tube shape, for example, as shown in FIG. As shown in FIGS. 1A and 5, the mounted member 3 includes a hole 3 c through which the shaft portion 1 b of the bolt 1 is inserted. The hole 3c has, for example, a circular cross section, and the diameter thereof is larger than the outer diameter of the shaft portion 1b of the bolt 1 and smaller than the length of one side of the head 1a of the bolt 1. That is, by inserting the shaft portion 1b of the bolt 1 into the hole 3c and press-fitting the clip 2 to the head 1a side so as to get over the screw portion 1e of the bolt 1, the stud bolt 10 has a thread and a smooth portion 1c. The attachment member 3 can be used so as to be sandwiched between the clip 2 and the head 1 a of the bolt 1. Moreover, in this embodiment, the volt | bolt 1 is comprised so that the length L of the smooth part 1c may become larger than the total of the thickness t of the clip 2, and the depth H of the hole 3c of the to-be-attached member 3. FIG. Therefore, as shown in FIG. 1A, when the clip 2 is fitted to the smooth portion 1c of the bolt 1, the distance between the clip 2 and the bolt head 1a is larger than the depth of the hole 3c. Become. Therefore, the bolt 1 and the clip 2 are arranged in a loosely fitted state in the hole 3c, and are configured to be able to move integrally in the bolt axis direction and the direction perpendicular to the bolt axis. In the present embodiment, the length L of the smooth portion 1c is configured to be larger than the total of the thickness t of the clip 2 and the depth H of the hole 3c of the attached member 3, but the smooth portion 1c When the length L is substantially the same as the total thickness t of the clip 2 and the depth H of the hole 3c of the mounted member 3, the head 1a of the bolt 1 and the clip 2 are respectively connected to the mounted member. 3 and can be moved while generating friction.

  In addition, in the hollow member, for example, two protrusions 3a are formed on the inner peripheral surface where the hole 3c is provided so as to sandwich the hole 3c. Extending parallel to each other. The distance between the two projections 3a is, for example, slightly longer than the length of one side of the head 1a of the bolt 1 in the plan view and shorter than the diagonal of the plan view of the head 1a. Therefore, as shown in FIG. 5B, when the shaft portion of the bolt 1 is inserted into the hole 3c, the head 1a of the bolt 1 is fitted between the two protrusions 3a of the mounted member 3. Accordingly, the head 1a cannot be freely rotated except for a slight rotation, and free rotation is prevented.

  Further, the attached member 3 has a concave groove 3b formed on the outer surface thereof so that the hole 3c is located at the center as shown in FIGS. The groove 3b extends in parallel along the extrusion direction of the mounted member 3, and the width of the groove 3b is slightly larger than the length of one side of the rectangular clip 2, for example, and the rectangular diagonal of the clip 2 Shorter than length. As a result, when the clip 2 is fitted in the groove 3b, it cannot be freely rotated except for a slight rotation, and free rotation is prevented. In the present embodiment, the depth of the groove 3b is provided to be equal to or greater than the thickness t of the clip 2, for example.

  Next, the process of constituting the structure provided with the stud bolt by attaching the stud bolt 10 of the present embodiment to the attached member 3 will be described. First, as shown to Fig.5 (a), the volt | bolt 1 is inserted from the opening part of the to-be-attached member 3, from the axial part 1b side. Then, with the bolt 1 tilted toward the hole 3c of the attached member 3, the tip of the shaft portion 1b is brought close to the hole 3c. And the axial part 1b of the volt | bolt 1 is inserted in the hole 3c. Since the diameter of the hole 3c of the attached member 3 is larger than that of the shaft portion 1b of the bolt 1, the bolt can be easily inserted into the hole 3c of the attached member 3.

  Then, the bolt 1 is inserted into the hole 3c until the head 1a of the bolt 1 comes into contact with the inner surface of the hollow portion of the mounted member 3. At this time, the head 1a is fitted between the protrusions 3a on the inner peripheral surface of the attached member 3, or abuts on the top of the protrusion 3a. When the head 1a is fitted between the protrusions 3a on the inner peripheral surface of the attached member 3, when the bolt 1 tries to rotate, the side surface of the head 1a contacts the side surface of the protrusion 3a, and the bolt 1 rotates. Can be prevented. On the other hand, when the head 1a is in contact with the top of the protrusion 3a, the rotation of the bolt 1 cannot be prevented, so the bolt 1 is rotated around the axis while being pressed in the axial direction. When the head 1a is rotated until the head 1a has an angle that fits between the two protrusions 3a, the head 1a is pressed and moved to a position corresponding to the bottom of the protrusion 3a. When the bolt 1 tries to rotate in a state of being fitted in between, the side surface of the head 1a comes into contact with the side surface of the protrusion 3a, and the bolt 1 can be prevented from rotating.

Next, the head 1a of the bolt 1 is supported by, for example, a hand from the inside of the hollow portion of the mounted member 3, or, for example, a block-shaped member is inserted as a core 4 into the hollow portion of the mounted member 3 and arranged. Then, in a state where the head 1 a of the bolt 1 is pressed by the core 4 so as not to move in the bolt axis direction, the clip 2 is moved and the shaft portion 1 b of the bolt 1 is inserted into the clip 2. In the present embodiment, the diameter _{D C} of the fitting hole 2c of the clip 2 is smaller than the crest diameter _{D B2} of the threaded portion 1e. Accordingly, when the shaft portion 1b is inserted, the flat clip 2 is temporarily prevented from being inserted through the plurality of screw threads of the screw portion 1e. However, when the clip 2 is press-fitted, the vicinity of the inner peripheral edge in which the fitting hole 2c is provided due to the elasticity of a material such as polypropylene resin is bent due to the elasticity of the material, and can overcome each screw thread. The clip 2 is press-fitted until it reaches all of the threads of the screw part 1e and reaches the smooth part 1c. Since the diameter D _B1 of the smooth portion 1c is less than the diameter D _C of the fitting hole 2c of the clip 2, clip 2 is locked to the stepped 1d formed between the smooth portion 1c and the thread. Thereby, a structure with a stud bolt is constituted. At this time, the attached member 3 is sandwiched between the head portion 1a of the bolt and the clip 2, leaving a slight gap, and a gap is also formed between the shaft portion 1b and the hole 3c. When the attachment of the clip 2 is completed, the core 4 used to hold the bolt 1 is pulled out, for example, in a direction perpendicular to the bolt shaft and taken out from the hollow portion of the attached member 3.

  When attaching the bolt 1 to the attached member 3, an attaching process as shown in FIG. 5 can be adopted. For example, the bolt insertion hole 3 c of the attached member 3 is provided below the attached member 3. Yes, when the bolt 1 is inserted from above the hole 3c, for example, the bolt 1 can be attached using an insertion jig 4 as shown in FIGS.

  6A is a side view showing a bolt insertion jig, FIG. 6B is a bottom view of the same, and FIGS. 7A to 7D show a bolt mounting process using the insertion jig. FIG. The insertion jig 4 is composed of, for example, a rod-like or long piece-like member (in the shape of a rod in FIG. 6), and two protrusions 4a for suspending the bolt 1 are provided at the end portion. . The two protrusions are slightly separated from the diameter of the shaft portion 1b (the screw portion 1e and the smooth portion 1c). Accordingly, the shaft 1b can be inserted between the two protrusions 4a, the head 1a can be bridged over the upper part between the protrusions, and the bolt 1 can be suspended on the insertion jig 4.

  As shown in FIG. 7, with the bolt 1 suspended from the insertion jig 4 (FIG. 7A), the bolt 1 is moved closer to the hole 3c. When the attached member 3 is cylindrical, the bolt 1 is inserted from the opening of the attached member 3. When the bolt 1 is inserted into the hollow portion of the mounted member 3, the tip of the shaft portion 1b is brought into contact with the inner surface of the mounted member 3 by slightly lowering the position of the insertion jig 4, for example (FIG. 7B). ). Then, with the side surface between the protrusions of the insertion jig 4 in contact with the shaft portion 1b, the insertion jig 4 is further inserted into the hollow portion, thereby bringing the bolt 1 closer to the hole 3c at the attachment position. Go.

In the present embodiment, the diameter D ₁ (see FIG. 1A) of the mounting hole 3c of the bolt 1 is provided larger than the diameter of the shaft portion (the screw portion 1e and the smooth portion 1c). When 1b reaches the position of the bolt mounting hole 3c, the shaft portion 1b is inserted into the hole 3c by its own weight (FIG. 7C), and the head 1a of the bolt 1 comes into contact with the protrusion 4a again. Next, by pulling out the insertion jig 4 from the hollow portion, the bolt 1 is detached from the insertion jig 4 and installed at a predetermined mounting position (FIG. 7D).

When the bolt 1 is installed at the attachment position of the member to be attached 3, for example, with the head 1a of the bolt 1 held by a hand or a jig in the hollow portion, the fitting hole of the clip 2 at the tip of the shaft portion 1b The position of 2c is aligned, and the shaft 2 is inserted through the clip 2 by pressing the clip 2 in the axial direction of the shaft 1b. In the present embodiment, crest diameter _{D B2} of the threaded portion 1e is larger than the diameter _{D C} of the fitting hole 2c of the clip 2. Accordingly, when the shaft portion 1b is inserted, the flat clip 2 is temporarily prevented from being inserted by the thread of the screw portion 1e. However, when the clip 2 is press-fitted in this state, the clip 2 is bent due to its elasticity, and the vicinity of the inner peripheral edge provided with the fitting hole 2c is bent due to the elasticity of the material, thereby overcoming the screw thread. . Then, by overcoming the plurality of threads, the clip 2 reaches the smooth portion 1b and is fitted into the smooth portion 1b having a diameter smaller than that of the fitting hole 2c.

  In the present embodiment, since the diameter of the bolt installation hole 3c of the mounted member 3 is larger than the diameter of the shaft portion 1b (screw portion 1e and smooth portion 1c), the bolt 1 can be easily inserted into the hole 3c of the mounted member 3. Can be inserted. Further, for example, even when an extruded profile whose cross-sectional shape is a closed cross-section is used as the attached member 3, the stud bolt 10 can be easily installed without installing a pierce nut using a tool, for example. The assembly workability of the parts can be improved, and a large bolt 1 can be used in accordance with the size of the hollow portion of the attached member 3. For example, as the bolt 1, a shaft having a large diameter of, for example, M12 or more can be used.

  Further, since the length L of the smooth portion 1c of the bolt 1 is larger than the total of the thickness t of the clip 2 and the depth H of the hole 3c of the mounted member 3, the mounted member 3 is the bolt head 1a. Between the clip and the clip clamping portion, leaving a slight gap. Moreover, since the clearance gap is also formed between the axial part 1b and the hole 3c, the stud bolt 10 will be in the state arrange | positioned in the hole 3c in the loose fitting state. Therefore, the stud bolt 10 can be moved in the direction of the bolt axis and the direction perpendicular to the bolt axis within the gap, and the position can be easily adjusted.

  Next, the usage method of the structure provided with the stud bolt of this embodiment is demonstrated. First, a part (a bumper of an automobile in the example of the bumper stay 30 in FIG. 4) to be fixed to a structure having a stud bolt is attached to the bolt 1 at a predetermined fixing hole (a hole through which the stud bolt 10 is inserted). The bolt 1 is inserted into the fixing hole of the component in the vicinity of the tip of the shaft portion 1b. At this time, when the position of the bolt 1 matches the position of the fixing hole of the component, the bolt 1 can be smoothly inserted into the fixing hole of the component. On the other hand, when the position of the bolt 1 is shifted with respect to the fixing hole of the component due to an attachment error or the like, or when the position of the fixing hole of the component is shifted with respect to the position of the bolt 1 due to a processing tolerance of the fixing hole The bolt 1 cannot be smoothly inserted into the fixing hole. However, since the structure including the stud bolt of the present invention can move the bolt 1 and the clip 2 integrally in the bolt axis direction and the direction perpendicular to the bolt axis, the position of the stud bolt 10 is adjusted. By aligning the fixing hole of the component and the position of the tip of the bolt 1, the component can be easily attached to the stud bolt 10. In this embodiment, for example, when a part is fixed to the bolt 1 with a fastening part such as a nut after the part is attached to the stud bolt 10, the head 1a of the bolt 1 is a nut by fastening the nut. It moves to the side, the space | interval between the head 1a of the volt | bolt 1 and the clip 2 becomes small, and the to-be-attached member 3 can be pinched | interposed in the tightened state between the clip 2 and the head 1a of the volt | bolt 1.

  In the structure including the stud bolt according to the present embodiment, the protrusion 3a and the groove 3c are formed on the member 3 to be attached, and in the state where the clip 2 is fitted to the bolt 1, the flat clip 2 is The head 1a of the bolt 1 is fitted between the two protrusions 3a even inside the member 3 to be attached. That is, when the bolt 1 tries to rotate integrally with the clip 2, the side surface of the clip 2 contacts the side surface of the groove 3b, and the side surface of the head 1a of the bolt 1 contacts the side surface of the protrusion 3a. 1 and the clip 2 can be prevented from rotating. Therefore, when using the stud bolt 10, when fixing the component to the stud bolt 10, the nut can be fastened smoothly.

  Further, when the depth of the groove 3b of the mounted member 3 is, for example, equal to or greater than the thickness t of the clip 2, when the clip 2 is fitted to the bolt 1, the clip 2 is the outermost of the mounted member 3. Protruding from the surface can be prevented. Therefore, when the stud bolt 10 is used, it is possible to prevent the clip 2 from interfering with the attachment of the parts fixed to the stud bolt.

  In the present embodiment, the head 1a and the clip 2 of the bolt 1 are square in a plan view. However, the head 1a and the clip 1 of the bolt 1 are within a range in which the rotation of the bolt 1 and the clip 2 can be prevented. The shape of the clip 2 is not limited. For example, as shown in FIGS. 2 (c) and 3 (c), at least one of the head 1a and the clip 2 of the bolt 1 is circular or elliptical in plan view. Any shape may be used as long as the shape is a square or the like and the bolt 1 and the clip 2 can be prevented from rotating between the groove or the protrusion of the attached member 3. However, in order to effectively prevent the rotation of the stud bolt 10 when, for example, a nut or the like is fastened to the shaft portion 1b of the bolt 1, the shape of the head 1a of the bolt 1 is preferably not circular. Further, the length of the smooth portion 1c of the shaft portion 1b of the bolt 1 may not be approximately the same as the plate thickness of the mounted member 3, and is appropriately selected according to the use when the bolt 1 is used as a stud bolt. The length and the size of the shaft portion 1b are not limited as long as the clip 2 can be press-fitted to overcome the screw portion 1e and can be fitted to the smooth portion 1c. Furthermore, the gap formed between the bolt head 1a and the clip 2 and the mounted member 3 sandwiched between them is so small that the head 1a and the flange portion 2b are in contact with the mounted member 3, respectively. May be. Even in this case, the position can be easily adjusted by moving the stud bolt 10.

  Furthermore, although the to-be-attached member 3 is comprised from the rectangular cylinder-shaped extrusion shape material, the material and shape of the to-be-attached member 3 are not specifically limited in this invention. However, when it is set as the structure by which the protrusion 3a and the groove | channel 3b are formed in the to-be-attached member 3, it is preferable that the to-be-attached member 3 is comprised by the extrusion shape material, the casting, or the profile rolling material, and productivity and From the viewpoint of securing the strength, it is particularly preferable that it is made of an extruded profile. Further, the cross-sectional shape of the mounted member 3 is not limited to the hollow closed cross section, and various modifications can be made within the range having the configuration of the present invention. For example, in the bumper stay 30 as shown in FIG. 4, a plate-like member can be used as the mounted member 3. Further, the projection 3a and the groove 3b formed on the attached member 3 are not particularly limited in size and installation range as long as the rotation of the bolt 1 and the clip 2 can be prevented. If the rotation can be sufficiently prevented, the protrusion 3a and the groove 3b may not be formed. In addition, the hole 3c may be appropriately selected as long as the hole 3c having a size that takes into account the dimensional tolerance and attachment tolerance of the part is appropriately formed and does not deteriorate the workability of attaching the bolt 1. it can. In this case, the shape of the hole 3c is not limited to a circle but may be an ellipse or a rectangle.

  Next, a stud bolt according to a second embodiment of the present invention will be described. FIG. 8A is a side view showing a clip in a stud bolt according to a second embodiment of the present invention, FIG. 8B is a plan view, and FIGS. 9A to 9C are the present invention. It is a figure which shows the attachment process of a clip in the stud bolt which concerns on 2nd Embodiment. In the first embodiment, the flat clip 2 is provided with a circular fitting hole 2c in plan view. However, in the present embodiment, the clip 2 has an outer edge from the center as shown in FIG. A notch 2d is provided so as to extend to the side. The notch 2d is provided so that the width at the outer edge of the clip 2 is slightly smaller than the width at the center of the clip 2 and smaller than the diameter of the smooth portion 1c of the bolt 1. Also in this embodiment, like the first embodiment, the clip 2 is made of a synthetic resin having elasticity such as polypropylene resin, and is made of a material having both strength and rigidity as a clip.

  Further, in the first embodiment, the clip 2 is configured to be inserted from the tip of the shaft portion 1b of the bolt 1. However, in the present embodiment, the clip 2 is located at the position of the notch 2d. After making it contact with the smooth part 1c of the bolt 1, it is fitted into the smooth part 1c from a direction perpendicular to the bolt axis, for example, by press-fitting. Therefore, in this embodiment, when the clip 2 is attached, the operation of pressing the bolt 1 in the axial direction becomes unnecessary.

  Next, the process of constituting the structure provided with the stud bolt by attaching the stud bolt 10 of the present embodiment to the attached member 3 will be described. In addition, since it is the same as that of 1st Embodiment until the process of installing the volt | bolt 1 in the hole 3c of the to-be-attached member 3, detailed description is abbreviate | omitted. In the present embodiment, in a state where the bolt 1 is inserted into the hole 3 c of the mounted member 3, the smooth portion 1 c of the bolt 1 protrudes to the outside slightly longer than the thickness t of the clip 2 from the surface of the mounted member 3. In this state, as shown in FIG. 9A, the flat clip 2 is brought closer to the smooth portion 1c from a direction perpendicular to the bolt axis, for example. Then, as shown in FIG. 9B, the clip 2 is brought into contact with the smooth portion 1c of the bolt 1 at the position of the notch 2d. Thereafter, the clip 2 is pressed toward the bolt shaft side.

  In the present embodiment, the width of the notch 2d at the outer edge of the clip 2 is formed slightly smaller than the diameter of the smooth portion 1c of the bolt 1. Therefore, the clip 2 is temporarily prevented from being pressed to the bolt shaft side when the edges facing each other across the notch 2d come into contact with the smooth portion 1c of the bolt 1. However, when the clip 2 is further pressed toward the smooth portion 1c, the clip 2 is slightly elastic due to its elasticity, so that the width of the edge sandwiching the notch 2d is slightly increased. get over. And as shown in FIG.9 (c), the clip 2 is fitted by the smooth part 1c in the center part of the notch 2d.

  Also in this embodiment, the structure after attaching the stud bolt 10 becomes the same as that of the first embodiment, and the same effect as that of the first embodiment can be obtained. In the present embodiment, when the clip 2 is attached, the pressing force is applied in the direction perpendicular to the bolt axis, for example, not the bolt axis direction. Therefore, it is not necessary to hold down the bolt 1 in the bolt axial direction when the clip 2 is attached, and the stud bolt attaching workability is good.

  In addition, when the surface of the to-be-attached member 3 is flat like this embodiment, as shown to Fig.10 (a), when attaching the component 5, the clip 2 can be used as a washer. . That is, in the example shown in FIG. 10A, when the component 5 is fixed to the stud bolt 10, a fastening component such as a nut 6 is fastened to the bolt 2. At this time, by using the clip 2 as a washer, it is possible to protect the outer surface of the attached member 3 and to prevent the nut 6 and the like from loosening. Further, as shown in FIG. 10B, for example, a groove having a size capable of accommodating the clip 2 is provided on the surface of the attached member 3, or the clip 2 is previously attached to the component 5 as shown in FIG. In the case where a groove of a size that can be accommodated is provided, the component 5 is in close contact with, for example, the outer surface of the mounted member 3, and water and dust can be prevented from staying in the groove.

  Next, a modified example of the stud bolt according to the second embodiment will be described with reference to FIG. In this modification, as shown in FIG. 11A, the clip 2 is formed in a long piece shape, and a notch 2d is provided at one end portion in the longitudinal direction. About another structure and the installation process of the stud bolt 10, it is the same as that of 2nd Embodiment. In this embodiment, when the stud bolt 10 is attached to the member 3 to be attached and the component is attached to the bolt 1, the other end on the opposite side of the notch 2d is pulled to attach the clip 2 to the shaft portion of the bolt 1. Extract from 1b. When the clip 2 is extracted from the shaft portion 1b, the nut 6 is fastened by rotating the nut 6 in the direction of the arrow as shown in FIG. 11B, and the component 5 is fixed to the mounted member 3 (FIG. 11 ( c)). Thereby, in this modification, it is not necessary to provide the groove | channel for accommodating the clip 2 in the to-be-attached member 3 or the components 5, Compared with the embodiment shown in FIG.10 (b) and FIG.10 (c). Further, the manufacturing cost due to the installation of the grooves can be reduced. Moreover, since the clip 2 extracted from the bolt 1 can be used again, the component cost can be reduced.

  1: Bolt, 1a: Head, 1b: Shaft, 1c: Smoothing, 1d: Projection, 1e: Screw, 10: Stud bolt, 2: Clip, 2a: Shaft, 2b: Flange 2c: fitting hole, 2d: notch, 3: attached member, 3a: protrusion, 3b: groove, 3c: hole, 3d: groove, 30: bumper stay, 4: insertion jig, 5: Parts, 6: Nut (for fastening)

Claims (8)

In the stud bolt arranged in the plate-like attached portion in which the hole in the attached member is formed,
A bolt with a head larger than the hole and a shaft inserted into the hole;
A clip that is fitted to the shaft portion and includes a pinching portion that can pinch the mounted portion between the head portion and is locked so as not to come off from a predetermined locking position of the shaft portion in the axial direction. And having
The shaft portion of the bolt has a smooth portion with a smooth outer surface on the base end side, and a step is formed between the smooth portion and a screw thread provided on the outer surface of the shaft portion. The clip is locked to
The locking position of the clip in the shaft portion is such that the distance between the head and the clamping portion is larger than the depth of the hole, and the hole is larger than the diameter of the shaft portion. Features a stud bolt. 2. The stud bolt according to claim 1, wherein the clamping portion of the clip is fitted into the shaft portion up to a locking position where the clip is moved over the screw thread and locked to the step. In the stud bolt arranged in the plate-like attached portion in which the hole in the attached member is formed,
A bolt with a head larger than the hole and a shaft inserted into the hole;
A clip that is fitted to the shaft portion and includes a pinching portion that can pinch the mounted portion between the head portion and is locked so as not to come off from a predetermined locking position of the shaft portion in the axial direction. And having
The shaft portion of the bolt has a smooth portion with a smooth outer surface on the base end side, and the clip has a notch fitted to the smooth portion,
The locking position of the clip in the shaft portion is such that the distance between the head and the clamping portion is larger than the depth of the hole, and the hole is larger than the diameter of the shaft portion. Features a stud bolt. A width of the notch in the outermost edge portion of the clip is smaller than a diameter of the smooth portion, and the clip is fitted into the smooth portion by press-fitting the notch into the smooth portion. The stud bolt according to claim 3. A structure including a stud bolt in which the stud bolt according to claim 1 or 2 is installed on a mounted member,
After the shaft portion is inserted into the hole of the attached member, the clip is press-fitted into the step and the attached member is sandwiched between the head and the clip, so that the stud bolt is loosened into the hole. A structure provided with a stud bolt, which is arranged in a fitted state. A structure including a stud bolt in which the stud bolt according to claim 3 or 4 is installed on a member to be attached,
After the shaft portion is inserted into the hole of the attached member, the notch is press-fitted into the smooth portion, and the attached member is sandwiched between the head and the clip so that the stud bolt is inserted into the hole. A structure provided with a stud bolt, wherein the stud bolt is arranged in a loosely fitted state. The locking member for preventing rotation of the bolt and / or the clip when the head or the clip is fitted in a protrusion or a groove is formed on the attached member. A structure provided with the stud bolt according to 5 or 6. The structure with a stud bolt according to any one of claims 5 to 7, wherein the member to be attached is an extruded shape member of aluminum or an aluminum alloy, a casting, or a profile rolled material.

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