JP6393636B2 - Insulation cover for stud welding pins and stud welding pin assembly - Google Patents

Description

  The present invention relates to an insulating cover for stud welding pins and an assembly of stud welding pins, and in particular, a heat insulating material for a metal base material constituting an inner / outer wall of a building, an air conditioner, an outer panel of a machine, and the like. An insulating cover that can be suitably used for a stud welding pin for attaching and fixing a predetermined covering material such as a sound absorbing material, and a stud formed by assembling such an insulating cover for a stud welding pin to a stud welding pin The present invention relates to a weld pin assembly.

  Conventionally, in buildings, air conditioning equipment, and mechanical equipment, in order to improve the heat insulation effect and soundproofing effect, the steel frames and steel plates that make up the inner and outer walls of these buildings, air conditioning equipment, outer panels of mechanical equipment, etc. A predetermined covering material such as a heat insulating material and a sound absorbing material made of glass wool, rock wool or the like is attached and fixed to a metal base material (hereinafter abbreviated as a metal base material) at a predetermined thickness. .

  Moreover, as a method of attaching and fixing such a covering material such as a heat insulating material to a metal base, a plate-like head each made of a conductive material and a rod-like head standing on the head After the covering material is superimposed on a metal base using a welding pin having a leg, the leg of the welding pin is placed at a predetermined position on the covering from the side opposite to the metal base. A technique of fixing the covering material to the metal base by inserting the tip and welding the tip of the leg to the metal base by welding is widely used. Furthermore, in such a welding operation, the tip of the leg is melted by energizing the welding pin and generating an arc between the tip of the leg and the metal base. So-called stud welding in which the part is welded to a metal base is suitably employed.

  And as a welding pin used for attachment and fixation of such a covering material, the thing of various shapes has been proposed until now, for example, patent 2540382 (patent document 1) and patent no. No. 3521390 (Patent Document 2), Japanese Patent Laid-Open No. 10-245904 (Patent Document 3), and the like. Moreover, as what was improved so that the joint strength at the time of carrying out stud welding of those welding pins could be ensured still more favorably, patent 3112900 gazette (patent document 4) has a board-shaped head and A stud welding pin having a rod-like leg portion erected on the leg portion and having a tip end portion of the leg portion tapered or pointed with a concave tapered surface is clarified.

  By the way, using stud welding pins such as those, a predetermined covering material such as heat insulating material and sound absorbing material made of glass wool, rock wool, etc. is fixed to a metal base such as a duct of an air conditioner by stud welding. In such a state, when such a welding pin breaks, there has been a problem that such a stud welding pin falls off from its mounting location. The cause of the breakage of this stud welding pin is, for example, metal fatigue caused by vibration or the like, and the welded connection part breaks, or water or the like adheres to the stud welding pin main body. There are cases where the welded part with the base made by welding or the main part of the weld pin breaks, and thus, when the weld pin breaks, the connection between the metal base and the weld pin is disconnected and inserted. The welding pin comes off from the material.

  On the other hand, the surface of a covering material such as glass wool or rock wool is covered with a conductive material, or aluminum kraft paper or aluminum glass cloth is overlapped on the surface of the covering material to prevent moisture or scattering. When the stud is welded to the metal base with the stud welding pin penetrated, or in order to increase the adhesion of the coating to the metal base, a metal mesh or punching metal is overlaid on the surface of the coating. At the same time, it may be fixed to the metal base using a stud welding pin from above. In those cases, there is a risk of sparks occurring during stud welding between the plate-like head and legs of the stud welding pin and those conductive materials, and when sparks occur at such locations, Insufficient melting at the tip of the stud welding pin to be joined to the metal base may cause a joint failure between the stud welding pin and the metal base. Thus, for example, in the stud welding pin disclosed in Patent Document 4 above, the portion extending from the upper surface of the head and the connecting portion of the head and the leg to a predetermined length is covered with an insulating film. Thus, the stud welding pin and the conductive material are insulated from each other. However, even in the case of a stud welding pin provided with such an insulating film, the above-described problem of dropout is still inherent.

Japanese Patent No. 2540382 Japanese Patent No. 3521390 Japanese Patent Laid-Open No. 10-245904 Japanese Patent No. 3112900

  Here, the present invention has been made in the background of such circumstances, and the problem to be solved is a metal base that constitutes the inner and outer walls of buildings, air conditioning equipment, outer panels of mechanical equipment, etc. On the other hand, in a stud welding pin used when attaching and fixing a predetermined covering material such as a heat insulating material or a soundproofing material, it effectively insulates a necessary part of the outer peripheral surface of the welding pin and breaks the welding pin. Insulation cover for stud welding pins that can effectively suppress or prevent the welding pins from falling off the part attached to the covering material even when the connection between the metal substrate and the welding pins is disconnected by Another object of the present invention is to provide such an insulating cover for a stud weld pin, which has an insulating property and is provided with a stud weld pin. To provide an effectively may exert stud welding pin assembly body the captive effect from dressing.

  In the present invention, in order to solve the problems related to the insulating cover for stud welding pins as described above, a conductive material is used to attach and fix a predetermined covering material to the metal base. Each having a disc-shaped head portion and a rod-shaped leg portion, which is erected on the plate-shaped portion, and is inserted into the covering material. An insulating cover fixedly attached to the welded stud welding pin, a cylindrical part into which the leg part of the stud welding pin is inserted, and a leg part standing on the head part of the stud welding pin A cover main body portion disposed so as to cover the surface on the side, and a cylindrical body portion that protrudes integrally from the side surface of the tubular portion and engages with the covering material when inserted into the covering material. Demonstrate the function of preventing the extraction of parts An insulating cover for stud welding pins, characterized in that it has at least one locking portion, and the cylindrical portion, the cover body portion, and the locking portion are integrally formed of an insulating material. This is the gist.

  In addition, according to one of desirable aspects of the insulating cover for stud welding pins according to the present invention, in the rib shape having a predetermined thickness extending in the axial direction of the cylindrical portion, the cylindrical portion is the cylindrical shape. According to another desirable aspect, the locking portion has an inclined surface whose height gradually decreases toward the tip of the cylindrical portion. .

  Moreover, in one of the preferable embodiments of the insulating cover for stud welding pins according to the present invention, the cylindrical wall of the cylindrical part is gradually thinned toward the tip of the cylindrical part, The tip outer peripheral surface is a tapered surface.

  Furthermore, in another preferable aspect of the insulating cover for stud welding pins according to the present invention, the locking portion is provided in a thickness that gradually decreases toward the tip of the cylindrical portion, In another preferred embodiment, the locking portion is tapered on the distal end side in the protruding direction from the side surface of the cylindrical portion.

  Furthermore, according to another desirable aspect of the insulating cover for stud welding pins according to the present invention, the locking portion is provided to be inclined with respect to the axis of the cylindrical portion. According to a preferred aspect, two of the locking portions are formed with a phase difference of 180 ° with respect to the side surface of the cylindrical portion, and are positioned between the two locking portions. The cylindrical portion is cut off so as to form a cut surface in a direction approaching each other toward the distal end of the cylindrical portion.

  According to still another preferred aspect of the insulating cover for stud welding pins according to the present invention, a drooping portion hanging from the outer peripheral portion of the cover main body portion to the head side of the stud welding pin and the drooping portion A holding portion including an engaging portion extending from the center to the center of the head is provided integrally with the cover main body, and engages the holding portion with the outer peripheral portion of the head. Accordingly, the stud welding pin can be fixedly attached to the stud welding pin.

  In addition, in the present invention, in order to solve the problems related to the stud welding pin assembly described above, in order to attach and fix a predetermined covering material to a metal base, a conductive material is used. Each has a plate-like head and a rod-like leg that is erected on the board and passes through the covering material. The leg is welded to the metal substrate at the tip portion by energization. A stud welding pin to be fastened and an insulating cover as described above, and the leg portion of the stud welding pin is inserted into the cylindrical portion of the insulating cover, while the cover body portion of the insulating cover is connected to the stud. A stud weld pin assembly characterized in that the insulating cover is fixedly held by the stud weld pin in the form of being positioned on the head of the weld pin. It is set to.

  As described above, according to the insulating cover for stud welding pins according to the present invention, the covering portion is provided so as to integrally protrude from the side surface of the tubular portion inserted through the leg portion of the stud welding pin. When inserted into the material, the engaging part engages with a covering material such as glass wool or rock wool, so that the insulating cover for the stud welding pin falls out of the covering material, in other words, stud welding. It is possible to effectively suppress or prevent the stud welding pin to which the pin insulating cover is attached from being easily detached from the covering material.

  According to the stud weld pin assembly in which the stud weld pin insulation cover according to the present invention is assembled to the stud weld pin, when the conductive material is superimposed on the covering material, the insulation cover is provided. Even if the stud weld pin breaks, the latched portion effectively suppresses or prevents the pin from falling off, and the stud weld pin is inserted into the covering material during construction. However, the advantage that the stud welding pin does not easily fall off from the covering material and the workability during construction is improved is also advantageously exhibited.

It is a perspective explanatory view showing an example of an insulating cover for stud welding pins according to the present invention. It is explanatory drawing of the insulating cover for stud welding pins shown by FIG. 1, (a) is front explanatory drawing, (b) is right side explanatory drawing (left side explanatory drawing), (c) Is a plan explanatory view, and (d) is an AA cross-sectional explanatory view in (c). It is explanatory drawing which shows an example of the stud welding pin assembly | attachment body which assembled | attached the insulating cover for stud welding pins shown by FIG. 1 with the stud welding pin, Comprising: (a) is front explanatory drawing which shows the state before those are assembled | attached. (B) is a front explanatory view showing the assembled state, (c) is a vertical cross-sectional explanatory view of (b). It is explanatory drawing which shows a mode at the time of fixing a coating | covering material to a metal base | substrate by stud welding using the stud welding pin assembly | attachment body which assembled | attached the insulating cover for stud welding pins shown in FIG. 1, (a) These are sectional explanatory drawings, and (b) is an explanatory sectional view showing an enlarged B portion in (a). It is explanatory drawing which shows another example of the insulating cover for stud welding pins according to this invention, Comprising: (a) is the form of the perspective view which notched some, (b) is the form of a front view, (c ) Are shown in the form of a right side view (partially cutaway cross-sectional view). It is explanatory drawing which shows another example of the latching | locking part provided in a cylindrical part in the insulating cover for stud welding pins according to this invention, Comprising: (a) is a form of a front view, (b) is a right view. In the form of (left side view), (c) is shown in the form of a plan view. It is explanatory drawing which shows another example of the latching | locking part provided in a cylindrical part in the insulating cover for stud welding pins according to this invention, Comprising: (a) is a form of a front view, (b) is a right side surface. In the form of the figure (left side view), (c) is shown in the form of a plan view. It is explanatory drawing which shows another example of the latching | locking part provided in a cylindrical part in the insulating cover for stud welding pins according to this invention, Comprising: (a) is a form of a front view, (b) is a right view. In the form of (left side view), (c) is shown in the form of a plan view. It is explanatory drawing which shows another example about the front-end | tip shape of the cylindrical part of the insulating cover for stud welding pins according to this invention, Comprising: (a) is in the form of a perspective view, (b) is in the form of a front view. , (C) are respectively shown in the form of a right side view (left side view).

  Hereinafter, in order to clarify the present invention more specifically, representative embodiments of the present invention will be described in detail with reference to the drawings.

  First, FIG. 1 shows an example of an insulating cover for stud welding pins according to the present invention in the form of a perspective view. In this case, the insulating cover 10 has a disc-shaped cover main body portion 12 and a cylindrical shape extending from the disc-shaped central portion of the cover main body portion 12 in the vertical direction, in other words, in the thickness direction. Further, two locking portions 16 and 16 projecting from the side surfaces are integrally formed on the upper portion of the cylindrical wall of the cylindrical portion 14 so as to face each other. .

  More specifically, as shown in FIGS. 2A to 2D, the cover body 12 is made of a material appropriately selected from various known resin materials having electrical insulation, It has a thin disk shape with a predetermined thickness, and has an outer diameter that can cover the disk-shaped head of the stud welding pin to which the insulating cover 10 is attached. A cylindrical portion 14 projecting from the cover main body 12 with a predetermined height is formed at the center of one of the disk-shaped surfaces of the cover main body 12 with the same material as the cover main body 12. It is formed integrally with the part 12.

  In this case, the cylindrical portion 14 has a length shorter than the length of the leg portion of the stud welding pin to which the insulating cover 10 is assembled. Here, the base portion close to the cover main body portion 12 has a large diameter cylindrical portion 14a. In addition, two cylindrical bodies having different diameters, each having a cylindrical portion 14b having a smaller diameter than the cylindrical portion 14a, are coaxially arranged at the tip of the cylindrical portion 14a, and are connected to each other. The structure is formed. Further, the diameter of the insertion hole 20 inside the cylindrical portion 14 through which the leg portion of the stud welding pin is inserted, that is, the inner diameter of the cylindrical portion 14b is the thickness of the leg portion of the stud welding pin to which the insulating cover 10 is attached. It is the size corresponding to. Further, the inner diameter of the cylindrical portion 14 b (the diameter of the insertion hole 20) is formed so as to be slightly reduced toward the distal end portion of the cylindrical portion 14. As a result, the leg portion of the stud welding pin inserted into the cylindrical portion 14 is press-fitted into and fitted into the insertion hole 20 of the cylindrical portion 14, and the insulating cover 10 is fixed to the stud welding pin. You will be harassed. The reduced diameter portion in the insertion hole 20 is not only positioned on the distal end side of the cylindrical portion 14 as illustrated, but may be any intermediate portion or base portion side, and the entire length of the insertion hole 20 is not limited. It is also possible to adopt a structure in which the diameter is reduced over the entire length.

  Further, as shown in FIG. 2D, the cylindrical wall of the cylindrical portion 14 is gradually thinned toward the distal end of the cylindrical portion 14 at a portion on the distal end side, and the outer periphery of the distal end of the cylindrical portion 14. The surface is formed to be a tapered surface 18. Thus, by making the tip of the cylindrical portion 14 the tapered surface 18, it is possible to effectively reduce resistance when the stud welding pin to which the insulating cover 10 is attached is inserted into a covering material such as rock wool or glass wool. It is possible to improve the workability of the installation by reducing it.

  Further, two locking portions 16 and 16 each having a rib shape with a predetermined thickness extending in the axial direction are provided on the cylindrical wall of the cylindrical portion 14 at 180 ° in the circumferential direction with respect to the side surface of the cylindrical portion 14. Each is formed so as to stand from the side surface of the cylindrical portion 14 with a phase difference. Further, the height of the locking portion 16 from the side surface of the cylindrical portion 14 is such that the height is gradually lowered toward the distal end side of the cylindrical portion 14 while the height of the cover main body portion 12 is increased. As shown in FIG. 2 (a), the side surfaces are inclined surfaces 22.

  Thus, when the side surface of the locking portion 16 is the inclined surface 22, the cylindrical portion 14 is inserted when inserting the stud welding pin in which the insulating cover 10 is assembled into the covering material stacked on the metal base. Thus, the resistance when the engaging portion 16 protruding from the side surface enters the covering material can be further effectively reduced. Then, with respect to the force in the direction in which the stud welding pin is pulled out, the protruding portion of the locking portion 16 engages with the covering material, and the insulation cover 10 comes out of the covering material from where it becomes a large resistance. In other words, it is possible to effectively suppress or prevent the stud welding pin with the insulating cover 10 assembled from dropping from the covering material.

  The insulating cover 10 having such a structure is assembled to a stud welding pin as disclosed in, for example, Patent Document 4 (Patent No. 3112900) shown above, It will be a solid. That is, as shown in FIG. 3A, the insulating cover 10 is formed by using a stud welding pin 30 composed of a dish-shaped head 32 and an elongated rod-shaped leg 34 erected on the head. The leg part 34 of the stud welding pin 30 is inserted into the cylindrical body 14 from the lower part of the pin, and the surface of the head 32 of the stud welding pin 30 and the cover main body part 12 of the insulating cover 10 are in close contact with each other. The stud welding pin assembly 40 as shown in FIG. 3 (b) or FIG. 3 (c) is configured by press-fitting until.

  Therefore, according to the stud welding pin insulating cover 10 according to the present invention, the cover main body portion 12, the cylindrical portion 14, and the locking portion 16 are integrally formed of an electrically insulating material. Therefore, it is possible to insulate the necessary portion of the stud welding pin 30 simply by assembling the insulating cover 10 formed integrally with the stud welding pin 30.

  And, using a stud welding pin assembly 40 in which the insulating cover 10 according to the present invention is attached to the stud welding pin 30, a predetermined covering such as glass wool or rock wool is applied to a metal base such as an air conditioning duct. When fixing the material, for example, as shown in FIGS. 4A and 4B, the covering material 44 is overlaid so as to cover the surface of the metal base 42, and further, if necessary, a metal mesh or aluminum craft paper. After interposing the conductive member 46 having conductivity such as the covering member 44, the leg portion 34 of the stud welding pin assembly 40 (stud welding pin 30) is covered with the metal base 42 until the tip thereof contacts the metal base 42. In a state where the conductive member 46 is inserted so as to pass through and the tip of the leg 34 is in contact with the metal base 42, stud welding is performed using a predetermined stud welding machine. As a result, the tip of the leg 34 and the contact portion of the metal base 42 are melted to form the joint portion 48 and the stud welding pin assembly 40 is fixed to the metal base 42, thereby making the metal The covering material 44 is attached to the base 42. Therefore, the stud welding pin assembly 40 has the locking portion 16 that integrally protrudes from the side surface of the cylindrical portion 14 of the insulating cover 10 attached so as to cover a part of the leg portion 34 of the stud welding pin 30. When the stud welding pin assembly 40 is engaged with the inserted covering material 44, the stud welding pin assembly 40 does not easily fall off from the portion inserted so as to penetrate the covering material 44 when the stud welding is performed. After the stud welding is performed (after the joint portion 48 is formed), it is attached even when the leg portion 34 of the stud welding pin 30 is broken or the joint portion 48 with the metal base 42 is broken. That is, it is possible to effectively suppress or prevent the stud welding pin 30 (stud welding pin assembly 40) from dropping off from the portion.

  Further, when the covering material 44 is fixed to the metal base 42 using the stud welding pin assembly 40, a conductive member 46 having conductivity such as a wire mesh or aluminum craft paper is arranged on the covering material 44. Even if it is provided, the portion where the head portion 32 and the leg portion 34 of the stud welding pin 30 may come into contact (conduct with) the conductive member 46 is the cover main body portion 12 and the cylinder of the insulating cover 10. By being insulated by the shaped portion 14, it is effective that the current flowing between the stud welding pin 30 and the metal base 42 leaks to the conductive member 46 when performing stud welding. Therefore, the joining of the metal base 42 and the stud welding pin assembly 40 by stud welding can be more reliably performed.

  As described above, one of the representative embodiments of the present invention has been described in detail. However, this is merely an example, and the present invention is not limited by the specific description according to such an embodiment. It should be understood that this is not to be construed as limiting.

  For example, in the above-described embodiment, the stud welding pin 30 and the insulating cover 10 are assembled by press-fitting the leg portion 34 of the stud welding pin 30 into the cylindrical portion 14 (insertion hole 20) of the insulating cover 10. The insulating cover 10 is fixed to the stud welding pin 30 by using other holding means, although it is held by a frictional force between the inner wall of the shaped portion 14 and the outer wall of the leg portion 34. It is also possible. For example, as shown in FIGS. 5 (a) to 5 (c), on the side where the head portion 32 of the stud welding pin 30 of the cover main body 12 is attached, in other words, on the side where the cylindrical portion 14 is not formed. A hanging portion 52 that hangs down with a predetermined width from the outer periphery of the cover body portion 12 in the thickness direction of the cover body portion 12, and an engagement that extends from the hanging portion 52 toward the inside in the radial direction of the cover body portion 12. A holding claw 56 formed with a portion 54 may be formed, and the outer periphery of the head portion 32 of the stud welding pin 30 may be engaged with the holding claw 56 to be fixed. By fixing the insulating cover 50 to the stud welding pin 30 using such holding claws 56, the stud welding pin 30 and the insulating cover 10 can be more reliably assembled.

  Further, the locking portion 16 formed on the cylindrical wall of the cylindrical portion 14 has a small resistance when the insulating cover 10 is inserted into the covering material 44 in addition to the rib shape exemplified in the above-described embodiment. It is desirable that the insulating cover 10 can be inserted and effectively engaged with the covering material 44 when the pulling force is applied, so that the insulating cover 10 is not easily detached from the covering material 44. For this purpose, various shapes can be employed. For example, as shown in FIGS. 6A to 6C, there is provided a locking portion 62 having a rib shape that gradually decreases in height and gradually decreases in width toward the tip of the cylindrical portion 14. Further, as shown in FIGS. 7A to 7C, the height gradually decreases toward the distal end of the cylindrical portion 14 and toward the distal end side in the protruding direction from the side surface of the cylindrical portion 14. A locking portion 72 that is gradually tapered is adopted, and as shown in FIGS. 8A to 8C, the height gradually decreases toward the tip of the cylindrical portion 14, and the cylindrical portion It is possible to provide a locking portion 82 provided to be inclined with respect to the 14 axes.

  Further, the illustrated locking portions 16, 62, 72, and 82 are all provided in a shape that is rigid with respect to the tubular portion 14, but the locking portion is thin and flexible. It is configured so that it is deformed at the time of insertion into the covering material 44 to facilitate the insertion, and after insertion, the shape of the locking portion is restored to the original shape and is engaged with the covering material 44. It is also possible to do.

  The number of the locking portions 16, 62, 72, 82 formed on the cylindrical wall of the cylindrical portion 14 is not limited to the two illustrated, and may be one or three. Of course, it is possible to form the above-described locking portion 16. Furthermore, the arrangement positions of the locking portions 16, 62, 72, 82 on the outer peripheral surface of the cylindrical portion 14 are not limited to the tip portion as illustrated, but the shape of the locking portion, the cylindrical portion 14 and the like. Depending on the thickness (outer diameter), length, etc. of the tube, it can be appropriately selected and can be provided at an intermediate portion in the length direction of the tubular portion 14.

  The length of the cylindrical portion 14 is also appropriately determined according to the length of the leg portion 34 of the stud welding pin 30 to be assembled, and the stud cover pin assembly is assembled by assembling the insulating cover 10 to the stud welding pin 30. When the attachment body 40 is used, it corresponds to the thickness of the covering material 44 into which the stud welding pin assembly 40 is inserted, and exhibits sufficient electrical insulation with respect to the conductive member 46 penetrated. It will be determined to be the length to obtain. Then, the locking portions 16, 62, 72, and 82 are formed from the cover main body portion 12 in the tubular portion 14 so as to ensure effective coupling between the locking portions 16, 62, 72, and 82 and the covering material 44. In general, the distance to the region to be formed is 1 mm or more, preferably 3 mm or more, more preferably 5 mm or more.

  Furthermore, in the above-described embodiment, the outer peripheral surface on the distal end side of the cylindrical portion 14 is the tapered surface 18, but as shown in FIGS. 9A to 9C, the two locking portions 92, 92 is formed with a phase difference of 180 ° in the circumferential direction with respect to the side surface of the tubular portion 14, and the distal end side portion of the tubular portion 14 located between the two locking portions 92, 92. However, the insulating cover 90 may be cut off so as to form the cut surfaces 94 and 94 in a direction approaching each other toward the tip of the cylindrical portion 14 so that the tip of the cylindrical portion 14 has a substantially wedge shape. Is possible. By making the tip side of the cylindrical portion 14 in such a shape, the resistance when the stud welding pin 30 to which the insulating cover 90 is attached is inserted into the covering material and enters the inside is advantageous. It can be reduced to a low.

  In addition, although not enumerated one by one, the present invention can be carried out in a mode with various changes, modifications, improvements, etc. based on the knowledge of those skilled in the art. It goes without saying that any one of them falls within the scope of the present invention without departing from the spirit of the present invention.

DESCRIPTION OF SYMBOLS 10 Insulation cover 12 Cover main-body part 14 Cylindrical part 16 Locking part 18 Tapered surface 20 Insertion hole 22 Inclined surface 30 Stud welding pin 32 Head 34 Leg part 40 Stud welding pin assembly 42 Metal base 44 Covering material 46 Conductivity Member 50 insulating cover 52 hanging portion 54 engaging portion 56 holding claw 62, 72, 82 locking portion 90 insulating cover 92 locking portion 94 cutting surface

Claims (10)

In order to attach and fix a predetermined covering material to a metal base, a plate-shaped head composed of a conductive material, and a rod-like head that is erected on the plate-like head and is inserted through the covering material. An insulating cover that is fixedly attached to a stud welding pin that is welded to the metal base at the tip portion by energization.
A cylindrical part into which the leg part of the stud welding pin is inserted, a cover main body part arranged so as to cover the surface of the stud welding pin on the leg part standing side, and the cylindrical part Having at least one locking portion that protrudes integrally from the side surface, engages with the covering material when inserted into the covering material, and exerts a function of preventing extraction of the tubular portion; An insulating cover for stud welding pins, wherein the cylindrical portion, the cover main body portion, and the locking portion are integrally formed of an insulating material.   The insulating cover for stud welding pins according to claim 1, wherein the locking portion is erected on a side surface of the cylindrical portion in a rib shape having a predetermined thickness extending in the axial direction of the cylindrical portion.   The insulating cover for stud welding pins according to claim 1 or 2, wherein the locking portion has an inclined surface whose height gradually decreases toward the tip of the cylindrical portion.   The cylindrical wall of the said cylindrical part is gradually thinned toward the front-end | tip of this cylindrical part, The front-end | tip outer peripheral surface of this cylindrical part is made into the taper surface. An insulation cover for stud welding pins as described in 1.   The insulating cover for stud welding pins according to any one of claims 1 to 4, wherein the locking portion is provided at a thickness that gradually decreases toward a tip of the cylindrical portion.   The insulating cover for stud welding pins according to any one of claims 1 to 5, wherein the locking portion is tapered on a tip end side in a protruding direction from a side surface of the cylindrical portion.   The insulating cover for stud welding pins according to any one of claims 1 to 6, wherein the locking portion is provided to be inclined with respect to an axis of the cylindrical portion.   Two of the locking portions are respectively formed with a phase difference of 180 ° with respect to the side surface of the cylindrical portion, and a tip side portion of the cylindrical portion located between the two locking portions is The insulating cover for stud welding pins according to any one of claims 1 to 7, which is cut off so as to form a cut surface in a direction approaching each other toward the tip of the cylindrical portion.   The cover body includes a holding portion including a hanging portion that hangs down from the outer peripheral portion of the cover body portion toward the head side of the stud welding pin and an engaging portion that extends from the hanging portion toward the center side of the head portion. 1 to Claims, wherein the holding portion is fixedly attached to the stud welding pin by engaging the holding portion with the outer peripheral portion of the head. The insulating cover for stud welding pins according to any one of 8. In order to attach and fix a predetermined covering material to a metal base, a plate-shaped head composed of a conductive material, and a rod-like head that is erected on the plate-like head and is inserted through the covering material. A stud welding pin that has a leg portion, and the leg portion is welded to the metal base at the tip portion by energization, and the insulating cover according to any one of claims 1 to 9.
In the form in which the leg portion of the stud welding pin is inserted into the cylindrical portion of the insulating cover, while the cover main body portion of the insulating cover is positioned on the head portion of the stud welding pin. The stud welding pin assembly is characterized in that the insulating cover is fixedly held by the stud welding pin.

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