Provided is a jet nozzle that varies a width of a flow of jetted molten solder. The jet nozzle contains a nozzle main body having a channel section at its part and a molten solder flow width varying member that varies a width of the upper opening end of the nozzle main body by a slide of the molten solder flow width varying member within the channel section of the nozzle main body to vary a width of the molten solder flow jetted from the upper opening end of the nozzle main body. The molten solder flow width varying member includes a molten solder flow width varying plate that varies the width of the molten solder flow, a rectangular rectifying piece that extends along a slide direction of the molten solder flow width varying member, and a sliding shaft that slides the rectifying piece.

The present disclosure provides a printing system and a method for controlling a printing system. The printing system is used to print on a board, and includes at least one pair of adjustment assemblies. Each of the at least one pair of adjustment assemblies includes a carrying component, an alignment component and a drive component. The carrying component is configured to carry the board. The drive component is configured to be capable of driving the carrying component and the alignment component to move and is configured to adjust a distance between an upper surface of the carrying component and an upper surface of the alignment component to be equal to the thickness of the board. The structure of the printing system of the present disclosure enables a height difference between the upper surface of the alignment component and the upper surface of the carrying component to be adjusted according to the thickness of the board to be processed, such that the height difference between the upper surface of the alignment component and the upper surface of the carrying component is equal to the thickness of the board to be processed, so as to adapt to boards of different thicknesses to be processed.

A wave soldering machine is configured to perform a wave soldering operation on a printed circuit board. The 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 solder pot having a reservoir of solder material, a flow duct positioned in the reservoir of the solder pot, and a wave soldering nozzle assembly coupled to the flow duct. The wave soldering nozzle assembly has a solder distribution baffle configured to create a solder wave. The wave soldering nozzle assembly is configured to control a width of the solder wave through the solder distribution baffle to produce a maximum width solder wave and a minimum width solder wave.

A wave soldering machine is configured to perform a wave soldering operation on a printed circuit board. The 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 solder pot having a reservoir of solder material, a flow duct positioned in the reservoir of the solder pot, and a wave soldering nozzle assembly coupled to the flow duct. The wave soldering nozzle assembly has a solder distribution baffle configured to create a solder wave. The wave soldering nozzle assembly is configured to control a width of the solder wave through the solder distribution baffle to produce a maximum width solder wave and a minimum width solder wave.

There are provided a circuit board, a method for manufacturing a circuit board, and an etching device capable of suppressing side etching and suppressing a takt time even when etching is performed on a thick workpiece. An etching device includes a conveyance means that conveys a workpiece, a spray pipe that extends along a conveyance direction of the workpiece by the conveyance means and feeds an etching solution, a plurality of spray nozzles capable of injecting the etching solution to the workpiece and provided in the spray pipe in a row in the conveyance direction, and a movement means that is capable of moving the spray pipe in a conveyance orthogonal direction orthogonal to the conveyance direction, and moves the spray pipe so that the etching solution injected from the spray nozzles is sprayed to the workpiece over the entire predetermined region in the conveyance orthogonal direction.

A wave soldering machine is configured to perform a wave soldering operation on a printed circuit board. The 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 solder pot having a reservoir of solder material, a flow duct positioned in the reservoir of the solder pot, and a wave soldering nozzle assembly coupled to the flow duct. The wave soldering nozzle assembly has a solder distribution baffle configured to create a solder wave. The wave soldering nozzle assembly is configured to control a width of the solder wave through the solder distribution baffle to produce a maximum width solder wave and a minimum width solder wave.

A wave soldering machine is configured to perform a wave soldering operation on a printed circuit board. The 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 solder pot having a reservoir of solder material, a flow duct positioned in the reservoir of the solder pot, and a wave soldering nozzle assembly coupled to the flow duct. The wave soldering nozzle assembly has a solder distribution baffle configured to create a solder wave. The wave soldering nozzle assembly is configured to control a width of the solder wave through the solder distribution baffle to produce a maximum width solder wave and a minimum width solder wave.

The present invention relates to a substrate edge etching apparatus including: a substrate support assembly having a horizontally rotatable chuck base, chuck pins disposed on top of the chuck base to support a substrate, a purge gas inlet hole extending from an underside center of the chuck base to an interior of the chuck base in an upward and downward direction thereof, and a purge gas outlet hole extending radially from the purge gas inlet hole and then extending upwardly to penetrate top of the chuck base; a purge gas supply assembly for supplying a purge gas to the purge gas inlet hole; a chemical liquid supply unit for supplying a chemical liquid to top of the substrate; a bowl assembly having bowls surrounding the periphery of the substrate support assembly and configured to be able to ascend and descend; and a fan filter unit spaced apart from top of the substrate support assembly.

A deposition apparatus includes a first substrate support for supporting a substrate in a substantially vertical orientation. The substrate has a first main surface, a second main surface opposite the first main surface and a side surface between the first main surface and the second main surface. The deposition apparatus includes a first deposition device for depositing a first conductive pattern or a first resist mask on the side surface of the substrate while the substrate is supported in the substantially vertical orientation by the first substrate support.

A contact arrangement. The contact arrangement has at least one electrically conductive substrate, in particular a circuit carrier. The contact arrangement also has a flexible circuit board having at least one reversibly bendable, electrically insulating film and at least one or only one electrically conductive layer. The electrically conductive layer is electrically conductively connected to the substrate. The contact arrangement has an electrically conductive connecting element, which is arranged on the electrically conductive layer of the flexible circuit board so that the connecting element and the substrate enclose the flexible circuit board between them. The connecting element is welded to the electrically conductive layer of the flexible circuit board and to the substrate such that a welded connection extends from the connecting element through the electrically conductive layer of the flexible circuit board, in particular transversely to a flat extent of the flexible circuit board, into the substrate.