Pneumatic stencil cleaner replaces manual cleaning step by step

S-1688 Pneumatic stencil cleaner

  • Complete pneumatic operation without any fire risk
  • Equipment is ergonomically in designed
  • Cleaning and drying process is a simple one-button operation
  • Patented nozzle precision design ensure high cleaning process
  • Interior special design for better effect on rinsing and drying
  • Stencil tension is not affected during the cleaning process
  • Auto liquid feeding and draining system
    our levels filtering system with precise exhaust design and control
  • Liquid can be recycled which results in lower solvent consumption
  • Internationally recognized critical components are used to ensure
    long-term quality and reliability
  • Modular design to ensure easy maintenance
  • Solder paste and glue will adhere to the stencil hole during printing process
  • Manual cleaning is not effective in removing the solder paste deposit. Solidified and hardened deposits can cause the stencil mesh to deform
  • The printing quality will be adversely affected if the stencil is used
    without proper cleaning

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How to improve SMT PCB assembly quality

MISPRINT CLEANING

INTRODUCTION

Assemblers surveyed report that cleaning misprinted circuit assemblies is a production gap that has not been adequately addressed. Traditionally, the industry has used stencil cleaning agents and equipment to address this rework need. One of the benefits of cleaning misprinted assemblies with the stencil cleaning process is the ability to collect and filter wet solder paste. The major short coming of cleaning misprints within stencil cleaning processes is the inability to remove B-side reflow flux residues from both the surface and under bottom termination components.

 

REWORKING/CLEANING MISPRINTED ASSEMBLIES

Stencil printing is a highly automated process. During machine setup, a small group of boards are misprinted. During production stencil printing, circuit boards are periodically misprinted due to clogged apertures, stencil out of alignment, solder paste rheology shifts and other issues. Stencil misprints are defined as A-Side (Initial print out of alignment with no components previously placed) and B-Side (A-Side was successfully printed and components placed and soldered. The subsequent process of printing the B-Side results in the solder paste being out of alignment resulting in a B-Side misprint).

 

Printed Circuit Board misprints are a costly problem with no easy rework methodology. Production cleaning processes are normally not used to clean misprint assemblies. Potential quality issues such as:

  • Solder balls collecting into the wash tank and being transferred back onto the assembly
  • Solder balls migrating into the rinse streams resulting in hazardous waste from metals in the wash and rinse holding tanks

These complexities potentially compromise repeatability and reliability standards. Due to these complex issues, most assembly houses do not allow misprints to be cleaned within their production cleaning process.

 

Assemblers commonly address the misprint cleaning need by either hand wiping the misprinted side of the circuit card and/or clean the misprint in a stencil cleaning machine. Both methods create the potential for quality issues. First, when wiping solder paste from the misprinted side of the board, solder paste can be trapped in solder mask defined channels, through-hole vias, and other board geometries (Figure 1). Numerous quality problems can result due to lack of control and definition.

 


Figure 1: Solder Balls Wedged into No Solder Mask Defined Channels and Via Holes

 

Second, stencil cleaning machines are designed to remove wet solder paste from stencils. Most stencil cleaning processes do not rinse the stencil with water. For those that use a water rinse, the water is reused since trace levels of metals in water prevent disposal to local treatment works. Cleaning a production board in a machine designed to clean stencils fails to meet ionic cleanliness standards required for a production assembly. Additionally, on B-Side misprints, the stencil cleaning agent is typically not adequate for cleaning reflowed flux residues on the A-Side of the board. In most cases, the stencil cleaning agent partially removes the reflowed no-clean flux residue resulting in white residue and an ionically dirty assembly.

 

FILTRATION OPTIONS

Cleaning the misprinted circuit board within an electronic assembly production cleaning process has the potential to achieve cleaning of wet solder paste and reflowed flux residues as well as meet quality and yield objectives. The problem with cleaning a misprinted circuit board in a production cleaning process is the deposits of solder spheres collected into the wash holding tank. Free solder spheres within the wash holding tank can be picked up by the inlet of the pump and sprayed onto production assemblies. There is also the potential that the solder spheres can be dragged into the rinse sections. Both quality and waste treatment issues result from this practice.

To resolve the quality and water treatment issues, collection and filtration method systems are needed to trap and filter solder spheres. Filtration systems designed tocontain the solder spheres and capture them prevents spraying solder balls through the pump and spray manifolds. The mechanical and filtration systems resolve the issues of redepositing solder balls onto production assemblies and the potential to contaminate rinse streams. The overriding quality advantages in using production cleaning equipment, which is designed for repeatedly removing all solder spheres from the assembly, remove reflowed flux residues and render an ionically clean printed circuit board provide a reproducible and repeatable product.

EQUIPMENT OPTIONS

Inline Cleaning Equipment

Two types of aqueous production machines are used to clean electronic assemblies, inline and batch. For the inline machine, the pre-wash section of the cleaning machine is designed to wet, elevate the circuit board to wash temperature, and soften reflowed flux residues from production circuit assemblies. On option for containing solder balls is to equip the pre-wash sectionwith deflectors that contain the raw solder paste as it is being displaced from the circuit assembly. The deflectors close in the pre-wash spray manifolds using two trays and plates to prevent solder spheres from escaping the housing of the pre-wash section. As the boards enter the pre-wash section, the displaced solder balls and wash fluid drain into the catch trays. By capturing and containing the pre-wash liquid, the majority of the solder balls can be channeled into a series of sluice boxes. This important design feature contains the bulk of the solder balls with a minimal amount escaping to the wash holding tank.


 

 

A series of Sluice Boxes can be designed to capture the heavy raw solder spheres similar to the techniques used in mining precious metals from water streams (Figure 5). Three separate sluice boxes capture the majority of the solder paste. Each sluice box is equipped with a wire mesh. The weight of the solder balls drop through the wire mesh and collect into the sluice box trays. The first sluice box captures the majority of the solder spheres with the remaining two sluice boxes used to collect the residual solder spheres.


Figure 3: Sluice Box Collection Boxes courtesy of Speedline Technologies

Solder balls that are not collected within the sluice boxes will drain into the wash fluid holding tank. To prevent these stray solder balls from being sprayed onto circuit boards, three pump intake strainers prevent large spheres from entering the pump (Figure 6). The smaller solder spheres that pass through the strainers will be captured in a bag filter from wash liquid pumped through the outlet of the pump.


Figure 4: Strainers in Suction Inlet of the Wash Holding Tank courtesy of Speedline Technologies

Following the suction strainers, the wash solution is pumped through a filtration system designed to collect any remaining solder spheres before reaching the spray manifolds. The wash outlet enters the top side of the filtration canister, exits the clean side of the filter and then goes to the spray jets.


Figure 7: Filtration Canister

Within the canister, there are internal bars that prevent the bag filter from getting next to the exit side of the filter housing. This design feature prevents back flow or resistance as the liquid pumps through the filter canister. The 10/5 bag filter cartridge (ten microns on the inside and 5 microns on the outside of the filter cartridge) provides double redundancy to contain any solder balls from escaping the filter (Figure 9). The 10 micron side captures the heavy particles and the fine 5 micron side of the filter assures no solder spheres are sprayed onto circuit cards. The filtration design removes solder balls as small as Type 5 Solder Paste while preventing solder balls going to the manifolds. Pressure drops are minimal due to the solder paste being captured within the bag filter. Should the pressure drop, the machine is equipped with a user defined interface, which sends an alarm to the operator. The design is such that thousands of misprint boards could be cleaned before having an impact on the bath integrity, pressure and cleaning performance.

Batch Cleaning Equipment

One main difference between batch cleaning machines versus an in-line type cleaner is the ability to program the type of wash cycle, the sequence, and cycle times within the cleaning process. It is therefore critical that the ability to effectively trap and collect wet solder paste be integrated into the batch cleaner wash cycles.

 

The design objective is to provide the board assembler the flexibility to deflux their normal production runs (A/ B side), deflux an A-side with B-side misprint, clean A/B side misprint, plus the ability to completely rinse and dry the product within the same batch type cleaner.

Similar to the design for the in-line cleaning system, the same equipment manufacturer used the multi-stage filtration approach to effectively collect solder spheres and to prevent the spheres from being sprayed onto the board assembly. A pre-wash type cycle in the batch cleaning process will wet, elevate the circuit board to wash temperature, and soften the reflowed flux residues from the production circuit assemblies. The flux composition with the raw solder paste is easier to remove than the reflowed paste. An internal bag type filter is used to capture the raw solder paste that is removed during the Flood Wash cycle . The main purpose of the internal bag filter is to minimize the amount of solder paste that would be drained into the wash fluid holding tank.


Figure 8: Bag Filter in Wash Holding Tank

Solder spheres that are not collected in the bag filter will collect in the wash fluid holding tank. To prevent large particles from entering into the wash pumps, two intake strainers are located in the wash holding tank.


Figure 9: Batch Intake Strainers

Following the suction strainers, the wash solution is pumped through a filtration system that is designed to capture the smallest of solder spheres before being sprayed through the wash fluid spray delivery system. The filtration system is designed to capture solder paste as low as type 5 paste (Figure 10).


Figure 10: Batch Filtration Design

SUMMARY

Cleaning both A-Side and B-Side misprints has been a complex problem for assemblers. Using a stencil cleaner to clean misprints has numerous flaws. Two key issues is the inability to remove reflowed flux residues with stencil cleaning agents and poor rinsing. Notwithstanding, most assembly houses do not allow misprints to be cleaned in production cleaning machines due to the risk of contaminating product boards with stray solder balls and due to waste water metal contamination issues.

 

Collection and filtration systems designed into inline and batch production cleaning equipment safely captures and contains solder spheres from being sprayed onto production assemblies. Additionally, the containment and filtration systems prevent raw solder paste from entering the rinse water streams.

 

Using a production cleaning machine provides numerous benefits to the assembler.

  1. Recovery and rework of expensive hardware
  2. Removal of wet solder paste
  3. Containment of solder spheres
  4. Removal of reflowed flux residues
  5. Exceptional rinsing
  6. Ionically clean assemblies
  7. Repeatable
  8. Reproducible

 

Wiping wet solder paste from production assemblies is a bad practice. When wiping wet solder paste, solder spheres can be wedged into no solder mask defined troughs, vias and other offsets. When these solder balls become wedged, high levels of energized sprays may not be sufficient in displacing a wedged solder ball.

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Here is a brief summary about the products we provide:

1.SMT Equipments,include:

  • 1.One stop LED SMT whole line solution
  • 2.SMT peripheral equipments

2.AI Equipments,include:

  • 1.Axial insertion machine
  • 2.Radial insertion machine
  • 3.Odd form insertion machine customed

3.Full Pneumatic Stencil Cleaner

4.

Support non-standard machine customization

5.Accessaries,include:

  • 1.AI machine spare parts and consumables ( Universal,XG ,or others)
  • 2.SMT machine spare parts and consumables(Different brand )

How does SMT electronics assembly work?

Electronics manufacturing using surface-mount technology (SMT) simply means that electronic components are assembled with automated machines that place components on the surface of a board (printed circuit board, PCB).

SMT车间

Electronics manufacturing using surface-mount technology (SMT) simply means that electronic components are assembled with automated machines that place components on the surface of a board (printed circuit board, PCB). In contrast to conventional through-hole technology (THT) processes, SMT components are placed directly on the surface of a PCB instead of being soldered to a wire lead. When it comes to electronic assembly, SMT is the most frequently used process in the industry.

Electronic assembly encompasses not only placing and soldering components to the PCB, but also the following production steps:

  • Applying soldering paste, which is made of tin particles and flux, to the PCB
  • Placing SMT components to the soldering paste on the PCB
  • Soldering the boards with a reflow process.

Applying Soldering Paste

Applying soldering paste is one of the first steps in the SMT assembly process. Soldering paste is “printed” on the boards using the silk-screen method. Depending on the design of the board, different stainless-steel stencils for “printing” the paste onto the board and various product-specific pastes are used. Using a laser cut stainless-steel stencil custom made for the project, the soldering paste to be applied only to the areas where components will be soldered. After the soldering paste is on the boards, a 2D-soldering paste inspection is performed to ensure that the paste is evenly and correctly applied. Once the accuracy of the soldering paste application has been confirmed, the boards are transferred to the SMT assembly line, where the components will be soldered.

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Component  Placement and Assembly

The electronic components to be assembled come in trays or reels, which are then loaded into the SMT machine. During the loading process, intelligent software systems ensure that components are not inadvertently switched or misloaded. The SMT assembly machine then automatically removes each component with a vacuum pipette from its tray or reel and places it on its correct position on the board using precise pre-programmed X-Y coordinates. Our machines are capable of assembling up to 25,000 components per hour. After the SMT assembly is completed, the boards are moved on to the Reflow ovens for soldering, which affixes the components to the board.

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Component Soldering

To solder electronic components, we use two different methods, each of which has distinct advantages depending on the order quantity. For series production orders, the Reflow-soldering process is used. During this process, boards are put in a nitrogen atmosphere and are gradually warmed up with heated air until the soldering paste melts and the flux vaporizes, which fuses the components to the PCB. After this stage, the boards are cooled off. As the tin in the soldering paste hardens, the components become permanently affixed to the board and the SMT assembly process is completed.

For prototypes or highly sensitive components, we have a specialized vapor-phase soldering process. In this process, boards are heated until the specific melting point (Galden) of the soldering paste is reached. This allows us to solder at lower temperatures or solder different SMT components at different temperatures depending on their individual soldering temperature profiles.

PastedGraphic-59

AOI and Visual Check

Soldering is the second-to-last step of the SMT assembly process. In order to ensure the quality of the assembled boards, or to catch and correct a mistake, AOI visual inspections are performed for almost all series production orders. Using several cameras, the AOI system automatically checks each board and compares the appearance of each board with the correct, pre-defined reference image. If there are any deviations, the operator of the machine is informed of the potential problem, who then corrects the mistake or pulls the board from the machine for further inspection. The AOI visual check ensures consistency and accuracy in the SMT assembly production process.

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Pay more attention to safety hazard during operating auto machine!

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Automation technique is applied to the development of mechanical manufacturing industry ,which  can greatly improve productivity, in other hands, the machinery manufacturing automation technology is currently one of the most valuable in the world of science and technology, it is to promote the development of social productivity and also make people’s life become more quickly, play an important role in improving people’s living standard.

But with the development of mechanical processing manufacturing, also can not avoid artificial operating machinery and equipment, and always heard the sad news, such as workers injury or death when operating the machine.On May 29, a factory ‘s worker body is stuck to the machine unfortunately when operating the machine, while firefighters rushed to the rescue, the women were taken to a hospital successful, but the last,the woman died of his wounds.This let us deep thinking.

So in our SMT/AI industry,every workers must to know the machine security issues and safety guidelines,it‘s very important,we must ensure the safety of workers!

SMT车间

 

 

 

 

 

 Security issues and  safety guidelines:

1 Tooling cuff requirements beam, work shoes should be prevented slippery, and can’t wear high heels.

2 When  working alongside the material stack, must press the STOP button bright women scarves.

3 The woman should on long hair to disk, and the men tie to close firmly, prevent into the machine at work.

4 Single machine operation, it is strictly prohibited to many people at the same time.

5 Hands in upper and lower, inside the machine components to use pliers or tweezers (axial element), hands, hands after leaving the plug-in area, then operate the control panel.

6  Must sure to remove all tools sundry machine worktable when start to operate the machine.

7 Work in it is prohibited to put any goods on the worktable, so as not to damage the machine.

8 In the work such as unexplained machine stopped suddenly, may not be reached below the plug-in head.

9 Plug-in mistakes in normal production, may not be reached to the head.

10 For the automatic machine, the machine in normal production, it is forbidden to reach into to send slab bridge.

11 To understand the mesa machine movement area, not collision.

Maybe there are more things we should care,safety is the basis of the production.So please every factory ’s leader pay more attention to the Security issues and the workers must be more care.

 

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