JP6977209B2 - Positioning pin - Google Patents

Description

The present invention relates to a positioning pin for positioning a work during welding.

Conventionally, there has been a welding positioning pin made of high-speed tool steel SKH51 as described in Patent Document 1.

Jikkenhei 06-005779 Publication No. 06-005779

In the above case, the positioning pin is magnetized by the welding current at the time of welding, iron powder, spatter, etc. may be adsorbed on the positioning pin and cannot be blown off by an air blow. There is a problem that it takes time and effort to remove the work because the adsorbed iron powder, spatter, etc. become an obstacle when removing the work.

The present invention provides a positioning pin that solves the above-mentioned problems, is not likely to be magnetized by a welding current, is not attracted to iron powder, spatter, etc. due to magnetization, and can be easily removed from the work. It was done for the purpose of doing that.

The positioning pin of the present invention made to solve the above-mentioned problems is a positioning pin composed of a fixing portion and an insertion protrusion formed on the upper part of the fixing portion, and the base material of the positioning pin is made of a non-magnetic metal. It is characterized in that a non-magnetic plating film is applied to the material and a coating layer of a lubricant is formed on the plating film.

It is preferable that the base material is made of copper or a copper alloy and the plating film is an electroless nickel plating film, which is the invention according to claim 2.

In the present invention, the base material of the positioning pin is made of a non-magnetic metal, the base material is coated with a non-magnetic plating film, and a coating layer of a lubricant is formed on the plating film, so that the positioning pin is magnetized and iron is formed. No powder or spatter is adsorbed, and even if iron powder or spatter adheres for reasons other than magnetization, the adhesive force of iron powder or spatter is weak due to the coating layer of the lubricant, so iron powder or spatter can be easily attached. It has the effect that spatter and the like can be peeled off and the work can be easily removed.

It is a front view which shows one Example of this invention. It is a plan view of FIG. It is explanatory drawing of the coating film of a positioning pin.

Hereinafter, preferred embodiments of the present invention will be described with reference to FIGS. 1 to 4.

1 to 3 show an embodiment of the present invention, and 1 is shown in which a fixing portion 3 having a flange 2 at the upper end and a fixing portion 3 projecting from the upper surface of the flange 2 of the fixing portion 3 are projected. A positioning pin made of copper or a copper alloy, which is a non-magnetic material such as beryllium copper, formed from an insertion protrusion 4 that is inserted into a positioning hole of a work and positions the work. Is screwed with a screw 5 for attaching to a welding machine or the like (not shown), and a tapered guide portion 6 is provided on the upper portion of the insertion protrusion 4.

As shown in FIG. 3, the positioning pin 1 is provided with an electroless nickel-plated plating film 8 which is a non-magnetic plating film in order to increase the surface hardness of the base material 7, and is on the plating film 8. A coating layer 9 of a lubricant such as an ultra-high pressure lubricant and an extreme pressure lubricant is formed on the surface. If necessary, the plating film 8 may be applied and then heat-treated to increase the surface hardness.

As described above, in the present invention, the base material 7 of the positioning pin 1 is made of a non-magnetic metal, the base material 7 is coated with the non-magnetic plating film 8, and the coating layer 9 of the lubricant is formed on the plating film 8. Therefore, the positioning pin 1 is magnetized so that iron powder, spatter, etc. are not adsorbed, and even if iron powder, spatter, etc. adheres due to reasons other than magnetization, iron powder, spatter, etc. are formed by the coating layer 9 of the lubricant. Since the adhesive force of the metal is weak, iron powder, spatter, etc. can be easily peeled off, and the work can be easily removed.

1 Positioning pin 3 Fixing part 4 Insertion protrusion 7 Base material 8 Plating coating 9 Coating layer

Claims (2)

In the positioning pin consisting of the fixing part and the insertion protrusion formed on the upper part of the fixing part, the base material of the positioning pin is made of non-magnetic metal, and the base material is coated with a non-magnetic plating film and lubricated on the plating film. A positioning pin characterized by forming a coating layer of agent. The positioning pin according to claim 1, wherein the base material is made of copper or a copper alloy, and the plating film is an electroless nickel plating film.

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