Infiltrator K28 Operation Work Instructions PDF

Summary

This document outlines procedures for operating and maintaining the K28 water technology production line, focusing on quality control, parts identification, and troubleshooting common issues. The instructions cover general operation, QA checks, and other critical aspects of the equipment's usage.

Full Transcript

**Quality System\
Work Instruction**

WI No: 710.15

Issue Date: 2/15/24

Revision No. 1

Page 1

Document Owner: Production Manager

Approval: Operations Manager

Subject: K28 Operation

Section 1: General Information
==============================

1. K28 will run a 16-cavity mold that produces the IMCLIP used on all
IM & CM Tanks.

2. There are four different clip part numbers.

**[P/N]** **[Clips/Bag]** **[Bag Color]**
----------------------- ----------------------------- -----------------------------
200105-1 (IM1060) 68 Clear
200105-2 (IM540) 44 Green
200105-3 (IM1530) 86 Blue
200105-4 (CM1060) 64 Red
**200105-5 (IM1250)** 72 **Black**
200105-6 (IM300) 36 Yellow

3. The clips will be made from PPGF-CLP, which is virgin material
loaded with 25% glass. Loading is 98% PPGF-CLP & 2% Orange Colorant.

4. **If machine is down for more than 3min at any time you must back
the barrel off and purge. Failure to do so can result in degraded
material getting into mold....which is bad.**

Section 2: QA Checks
====================

1. Production is required to conduct a mid-shift QA check on the clips
and bag qty. Press the Quality Shot button shown below. This will
cause the machine to eject the next shot into the reject bin. **DO
NOT JUST GRAB A PART OFF CONVEYOR....THAT WILL MESS UP THE CLIP
COUNT FOR THE NEXT BAG.**


2. Grab a couple clips and set them off to the
side to cool for 2hrs. After the two hours use the go/no-go gauge to
ensure the clips are passing. The clip should easily fit on the go
side, and **[not]** fit on the no-go side. **If the
clips are tight on the go side, there is no need to scrap anything,
but this must be communicated in a huddle report so a process change
can be made.**

3. You must also ensure that the number of clips per bag is correct.
Grab a bag out of one of the gaylords and bring it to the scale.
First, place the control bag that has 64 clips in it on the scale.
Press the 'Func' button, enter the number of clips that are in the
bag, then press the 'Tare' button to calibrate scale to pieces. Now
place the bag being tested on the scale to see how many clips are in
the bag.


**NOTE: Production is required to perform these checks separate of any
checks done by QA. Document checks on your mid shift QA checks.**

Section 3: Alarms
=================

1. The stack light for the system has three modes: green, yellow, & red

2. Note that the blender and press have their own alarms and stack
lights. The most common alarm on this particular press will be an iQ
Controls alarm. This will not stop the machine but will trigger an
audible alarm. This means that the pressure profile that we know
makes a good part was not met within a certain tolerance. This OK.
Do not make changes or rereference the compliance curve w/o talking
to process engineering first. If parts are being rejected for 10-15
shots in a row check for a frozen cavity and reference sections 5
and 12 of this document.

Section 4: Automation HMI
=========================

1. The HMI for the system is fairly intuitive. This work instruction
will not cover all screens, only the most important ones.

2. Home Page: From here you can start the robot, home the robot, reset
any faults, change jobs, or create a quality shot. When changing the
job make sure the conveyor is clear of any parts to avoid creating
any miscounts.

**NOTE: The robot will require you to hit the 'Start' button when
coming out of a downtime event (you can also do this at the teach
pendant by press controller). See the QA Check section for info
about the Quality Shot feature.**


3. Box Out: Using the menu of the left side of screen, press 'Box Out'
and then 'Gaylord Status' to display the Box Out Screen. This will
show you how many bags are in each gaylord/tote. You can also adjust
the number of bags in each gaylord/tote.


**NOTE: Be careful when adjusting bag count. There is a standard
number that should go into each box. If that number is off it will
drive inventory inaccuracies.**

It is also good to note that the system looks for a signal from the
bagger that a seal was made AND a signal from a sensor on the
conveyor before it will automatically add a bag to a box. It will
only ever add 1 at a time. So, if multiple bags are on conveyor for
some reason you will need to manually add the number of bags above 1
to the corresponding box.

4. I/O Monitor & EOAT: You can access several I/O pages by selecting
the 'I/O Monitor' button on the navigation menu. You can access
information on the bagger, robot, EOAT, and IMM. The most important
menu here is the EOAT menu shown below.



From here you can deselect and turn off the vacuum for a specific
cavity. This is required if we ever freeze off a cavity in the mold
and want to keep running without alarming out the robot (see Section
5).

Section 5: Frozen Cavity
========================

1. Since the material is glass filled and the orifice size for the
nozzles is only 2mm, they can get clogged or freeze off.

2. When this happens the part sensor on the EOAT will not make vacuum
and the system will alarm out. To unfreeze or clear the cavity get a
small pick. Heat the pick with a torch and gently insert the pick
into the frozen cavity to clear the plastic.

3. If this does not unfreeze the cavity, pull back the feed throat and
fill barrel with virgin PP from K20/K21. Turn heats on frozen nozzle
up to 520deg. Run plastic through mold for several cycles, rejecting
the parts, until they look like the part show here.

4. If nozzle has broken free reintroduce the PPGF-CLP back into the
machine and resume production.

5. If the nozzle is still frozen after 20 shots of straight PP and high
heat, reduce heat on nozzle back to 400deg and deselect the cavity
from the EOAT I/O page on the automation HMI and try running
production. There is a chance that running with a cavity frozen off
may cause the pressure compliance to reject the parts. So, monitor
the press. If this does happen it's time to call Process Engineering
or Tooling to come, look at it. Stop press, back off barrel and
purge.

Section 6: Bag Changes
======================

1. Release the handle on the lower right side of the bagger below where
the roll sits on.


2. Pull up the blue strap and slide it off shaft. This will allow you
to remove the shaft and empty roll from the bagger.

3. You will then be able to remove the empty roll
from the machine and replace it with new roll.

4. Place a new roll onto shaft and slide it all the way against the
stop. Next slide the other stop on to sandwich the roll in between
the two stops. Lastly tighten stop down in place by rotating lever
until tight.


5. Feed the bag into the bagger per the diagram below. Do not forget to
place the divider roller into bag (this keeps the two sides of the
film separated so you can turn into a bag).

NOTE: the printer tray will slide out of the way if you pull on the
knobs on either side and pull it back.


**NOTE: This part is a bit of a pain and is easier with two people.
Also have a screwdriver handy to help push the bag through. Be
cautious when reaching inside the bagger, there is a heating element
inside that is hot to the touch.**


6. Once the bag is through and feeding on its own go around and press
the start button on the controller. It will cut the bag and when the
slide comes back there will be an empty bag waiting on clips.


Section 7: Common Issues
========================

1). **[Failure to grip - will result in the bagger alarming out and
requiring a reset. ]**

- This requires you to hit a circular blue reset icon on the bagger
HMI located on the bottom left of the HMI screen, after hitting the
reset icon, it will then read \"drop bag\", you will then press the
\"drop bag\" icon, after that is pressed the icon will then read
\"continue\" and upon pressing that, the bagger should then try to
re-feed the bag and start running again. If the press is timed out
at this point the press and robot will also need to be put back into
automatic. 

Section 8: Rebagging Clips
==========================

1. On occasion you'll end with extra clips. They could be from the QA
Reject shots, a broken seal...whatever the reason, you can easily
rebag them. To do so you will need to stop the press. Go to bagger.
Put the clips in the bagger and press black button on controller to
cycle it. Then press start button on robot.


Section 9: Burn Marks
=====================

1. Occasionally you will see burn marks on the
clips as shown below. While this is **[NOT]** a reject
condition, we do want to get rid of them. To do this we simply need
to clean the mold. Use a scotchbrite pad and mold cleaner. Focus on
the vents and the corners where you see the burn marks.



Section 10: LOTO Point
======================

1. The lockout point for this press is located on the back of the
injection of the injection, just down from the press controller.
**LOTO is required if you are ever going to enter the press.**

Section 11: Pressure Compliance Rejections
==========================================

1. Occasionally the press will automatically reject parts b/c the iQ
controls sense that the injection pressures are out of tolerance. If
this happens for only a couple shots its not a big deal. If it
happens for 10-15 shots in a row, then there is a problem.

2. **Don't touch the process when this happens. As a general rule of
thumb on this machine, you should never make a process change.**
This could cause the iQ to re-reference itself and create a ton of
scrap. So don't make any changes or reference the curve without
talking to process engineering first.

3. If the press is rejecting shot after shot it could be one of two
things; (1) the mold and nozzles are filling up with glass, (2) the
glass content is out of spec.

4. So, the first thing to do is purge through the mold and barrel with
straight PP. Reference the section on Frozen Cavities on how to do
this. It's the same process, except you don't adjust any of the
heats in this case.

5. After you've purged the mold try running production again. If
problem persists it is time to get an ash test done in the lab on
the material. While this is being done, drain the hopper and try a
different batch of material. If problem continues it is time to stop
the press and contact process engineering.

Section 12: Mold Cleaning
=========================

1. The press needs to be stopped and the mold cleaned every Sunday
night.

2. Using mold cleaner and scothbrite clean all vents and cavities (the
areas shown in red below).


**NOTE: Do not forget to lock out press before entering area between the
platens.**

3. Grease the wear plates with general purpose grease (gray tube, red
grease) and check them for tightness. Inspect tool for any water or
hydraulic leaks.

4. Reference Mold Maintenance section in SOC book for more info.

------------------------------- --------------------- ---------
Appendix - Document Revisions
Revision No. Reason for Re-Issue Date
0 Initial Release 12/7/22
1 Changed Recipe 2/15/24

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