Provided are a nut, an attachment for nut and a screw shaft, which are fitted to a coating material coating device or a soldering device and can change a fixed position of the nut easier than that of a convention example even if any adhered matters generated when each device is used for a long time are fixed, and a soldering device using the same. The nut 10 screws on to the screw shaft 2 having a predetermined length. The nut 10 is provided with a non-meshing part 11 composed of a notch 12 that is formed parallel to a movement direction thereof by cutting off screw threads and a flange portion 13, which has connecting holes 14 for connecting another member. Under such a configuration, by forward and/or backward movement of the nut 10, the notch 12 functions as if it scraps the fixed matters 6.

Provided are a nut, an attachment for nut and a screw shaft, which are fitted to a coating material coating device or a soldering device and can change a fixed position of the nut easier than that of a convention example even if any adhered matters generated when each device is used for a long time are fixed, and a soldering device using the same. The nut 10 screws on to the screw shaft 2 having a predetermined length. The nut 10 is provided with a non-meshing part 11 composed of a notch 12 that is formed parallel to a movement direction thereof by cutting off screw threads and a flange portion 13, which has connecting holes 14 for connecting another member. Under such a configuration, by forward and/or backward movement of the nut 10, the notch 12 functions as if it scraps the fixed matters 6.

A flux comprising one or more amines which is especially useful as a solder flux in soldering operations involving reactive metals such as aluminum; and a process for making aluminum surfaces solderable using the flux and conventional solders.

A method of pretinning a guidewire core made of shape memory alloy and having an elongate axis, comprising: placing a ball of solder in a pocket in a soldering block; melting the ball of solder; holding a guidewire core over the ball of solder; lowering the guidewire core into the ball of solder; removing the guidewire from the ball of solder.

A method of forming an aerosol provision device inductor coil comprises providing a litz wire comprising a plurality of wire strands, wherein each of the plurality of wire strands comprise a bondable coating. The method further comprises forming an inductor coil from the litz wire on a support member, wherein the inductor coil has a predetermined shape. The method further comprises activating the bondable coating such that the inductor coil substantially retains the predetermined shape, and removing the inductor coil from the support member.

A wave soldering machine includes a housing and a conveyor coupled to the housing. The conveyor is configured to deliver a printed circuit board through the housing. The wave soldering machine further includes a wave soldering station coupled to the housing. The wave soldering station includes a reservoir of solder material, and an adjustable wave solder nozzle assembly adapted to create a solder wave. The adjustable wave solder nozzle assembly has a first curve plate and a second curve plate that together define a nozzle. The second curve plate is movable with respect to the first curve plate between a close proximate position in which the second curve plate is proximate the first curve plate and a spaced apart position in which the second curve plate is spaced from the first curve plate to adjust a width of the nozzle.

A soldering module for a soldering system for selective wave soldering, having at least one first and one second solder pot, wherein the solder pots are displaceable along an x-axis by means of an x-axis drive, along a y-axis by means of a y-axis drive, and along a z-axis by means of a z-axis drive, wherein the axes are all arranged orthogonally in relation to each other; wherein two y-axis drives and two moving devices are provided on which the solder pots are displaceable along the y-axis by means of the y-axis drives; wherein a first moving device is associated with the first solder pot, and wherein a second moving device which is different from the first moving device is associated with the second solder pot.

An apparatus for increasing solder hole-fill in a printed circuit board assembly (PCBA) are provided in the illustrative embodiments. In the PCBA comprising a Printed Circuit Board (PCB) and the device, a pin of a device is caused to move in a first direction, the pin occupying a hole in the PCB, the hole being filled to a first distance by a solder material. By causing the pin to move, the solder material is drawn into the hole up to a second distance that is greater than the first distance. The pin is allowed to move in a second direction, to return the pin to an initial position in the hole. Allowing the pin to move in the second direction keeps the solder material at a third distance, wherein the third distance is greater than the first distance in the hole.

An example method of calibrating the operation of soldering apparatus for use in a soldering machine, in which the soldering apparatus includes at least one nozzle which is configured to apply solder to an electronics board, in use, involves: providing machine settings to the soldering apparatus, the machine settings including a nozzle target calibration position and at least one solder setting for the at least one nozzle; positioning the at least one nozzle according to the nozzle target calibration position; pumping solder from the at least one nozzle according to the at least one solder setting, when the at least one nozzle is positioned according to the target calibration position; obtaining at least one image of the soldering apparatus when the at least one nozzle is positioned according to the nozzle target calibration position; determining, from the at least one image, at least one nozzle characteristic; and adjusting the machine settings to reduce a difference between the at least one nozzle characteristic determined from the at least one image, and a corresponding expected at least one nozzle characteristic.

Solder housed in flow tank 20 is ejected from nozzle 22 by a pump provided inside flow tank 20. Jet motor 26 that drives the pump is provided outside flow tank 20, and cooling device 30 is provided between flow tank 20 and jet motor 26. Cooling device 30 includes cooling pipe 52 that is formed folded back on itself. Nitrogen gas is supplied from an upper end of cooling pipe 52, flows along cooling pipe 52, and flows out of a lower end of cooling pipe 52 so as to be supplied to flow tank 20. The temperature of the nitrogen gas increases due to heat dissipated from jet motor 26, thus lowering the temperature of jet motor 26. Heat is transferred from jet motor 26 to the nitrogen gas, and jet motor 26 is cooled satisfactorily.