Method for retaining fastening element solder
Abstract
A structure and method for retaining fastening element solder are introduced. The structure includes a fastening element which has a solderable surface and a fastening portion or a hole portion. One end of the hole portion or the fastening portion has a retaining portion. During a soldering heating process, solder flows into or enters the retaining portion to cool down and solidify. The solidified solder is retained in the retaining portion. The fastening element is firmly coupled to a first object because of coordination between the solderable surface and the retaining portion, and the second object is coupled to or removed from the fastening element because of coordination between the fastening portion and the hole portion, so as to couple together and separate the first and second objects repeatedly and quickly.
Claims
exact text as granted — not AI-modifiedWhat is claimed is:
1 . A method for retaining fastening element solder, comprising a fastening element and an intermediator, the fastening element having a solderable surface and a fastening portion or a hole portion, the intermediator is movably disposed at the fastening portion or the hole portion of the fastening element, the intermediator is a threaded fastening member, a fastening post, an outer fastening member or an inner fastening member, wherein an end of the hole portion or the fastening portion has a retaining portion which solder flows into or enters during a soldering heating process to cool down and solidifies, and the solidified solder is retained in the retaining portion.
2 . The method for retaining fastening element solder according to claim 1 , wherein the retaining portion is stepped, oblique, arcuate, curved, grooved, dented or hole-shaped.
3 . The method for retaining fastening element solder according to claim 1 , wherein the fastening element is carried by a carrier and taken out with a tool so as to be placed on a first object for soldering.
4 . The method for retaining fastening element solder according to claim 1 , wherein the fastening element is carried by a carrier and taken out with a tool such that the position of the fastening element is compared with that of a first object by a comparison device, allowing position-related information to be sent to the tool to enable the tool to place the fastening element at a soldering point on the first object.
5 . The method for retaining fastening element solder according to claim 1 , wherein the fastening element is carried by a carrier and taken out with a tool through the intermediator before being placed on a first object for soldering.
6 . The method for retaining fastening element solder according to claim 1 , wherein the fastening element is carried by a carrier and taken out with a tool through the intermediator such that the position of the fastening element is compared with that of a first object by a comparison device, allowing position-related information to be sent to the tool to enable the tool to place the fastening element at a soldering point on the first object.
7 . The method for retaining fastening element solder according to claim 4 , wherein the comparison device is an image comparison device, vision comparison device, distance comparison device or space comparison device.
8 . The method for retaining fastening element solder according to claim 6 , wherein the comparison device is an image comparison device, vision comparison device, distance comparison device or space comparison device.
9 . The method for retaining fastening element solder according to claim 1 , wherein the fastening element is soldered to a first object having a corresponding solderable surface such that, when heated up, solder between the solderable surface and the corresponding solderable surface turns liquid, wherein the liquid solder flows into the retaining portion to cool down and solidify, and the solidified solder is retained in the retaining portion.
10 . The method for retaining fastening element solder according to claim 1 , wherein the solder flows into the retaining portion and solidifies, and the solidified solder is retained in the retaining portion whereby the liquid solder resulting from heating is prevented from flowing into the hole portion or the fastening portion to cool down and solidify, thereby preventing a second object from causing interference after being fastened to or inserted into the fastening portion or the hole portion or preventing the solidified solder from falling off which might otherwise happen because of a collision.
11 . The method for retaining fastening element solder according to claim 1 , wherein the fastening element has a fitting portion, and both the retaining portion and the fitting portion have a solderable surface, or the whole surface of the fastening element is a solderable surface.
12 . The method for retaining fastening element solder according to claim 1 , wherein the fastening element has a fitting portion with a solderable surface, and the fitting portion is soldered to a first object.
13 . The method for retaining fastening element solder according to claim 12 , wherein the fitting portion is soldered to a through hole of the first object from inside or outside or to a flat surface of an end of the first object.
14 . The method for retaining fastening element solder according to claim 1 , wherein the fastening element is soldered to a first object, and the first object is a printed circuit board (PCB), a metal board or a plastic board.
15 . The method for retaining fastening element solder according to claim 9 , wherein a predetermined solder layer is disposed between the solderable surface of the fastening element and the corresponding solderable surface of the first object.Join the waitlist — get patent alerts
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