Tools/planer/induction: Difference between revisions
imported>Jmf (Created page with "<big>Metabo HC260 Planer-Thicknesser Induction</big> {{inductioninfo}} == Introduction == This induction is designed to take a new user through the safe ope...") |
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This induction is designed to take a new user through the safe operation of the planer / thicknesser. |
This induction is designed to take a new user through the safe operation of the planer / thicknesser. |
||
The planer thicknesser is a Metabo HC260. |
|||
This is a combination machine, which can be configured to work as a surface planer ( |
|||
for the flattening of faces and edges of wood), and as a thickness planer, to dimension |
|||
wood that has already been surfaced (“jointed”) on one face and/or edge. |
|||
Both modes of operation involve passing the wood over a circular cutter block which holds two 260mm long HSS knives. |
|||
== Materials == |
|||
The planer thicknesser is designed to work almost exclusively with wood, and additionally, it’s effective operation |
|||
depends on the direction of the wood grain as it is passed over the cutter block. It is not designed to work across |
|||
the grain of the wood, or on the end grain of the wood, in either of the surface planer or thickness planer modes. |
|||
For this reason, it is not possible to plane the face of plywood, as the alternating grain direction in subsequent |
|||
layers results in chips that are too large to evacuate, which clog the machine. It is possible to plane the edge of |
|||
plywood, but this is quite hard on the knives, and in most applications the table saw would make more sense. |
|||
There are some firm modelling foams which can be processed by the planer thicknesser. This should be done with extra |
|||
care, as they produce long chips which are difficult to evacuate and are known to blog the machine. |
|||
== Surface Planing == |
|||
Surface planning requires the outfeed table to be attached to the top of the machine, with the dust extraction port |
|||
installed beneath the cutter block, held in place by the thicknessing bed. |
|||
The procedure for surface planning involves passing stock over the infeed table, into the cutter block, and out over |
|||
the outfeed table. The outfeed table is set fractionally lower than the peak of the cutting circle, and the infeed |
|||
table is set somewhat lower than the outfeed table. Therefore, as stock passes over the infeed table and through to |
|||
the outfeed table, the cutter head removes scallops of material, with repeated passes serving to smooth and flatten |
|||
a surface of the stock. |
|||
Additionally, a fence may be attached to the infeed table, to provide a reference surface for jointing two adjacent |
|||
surfaces of the stock to some user defined reference angle (normally 90 degrees). Here, a typical process would be |
|||
to flatten a face, and then, using this flattened face against the fence, flatten an edge at 90 degrees to the face. |
|||
From here the thicknesser and table saw can be used to give stock that has 4 sides which are either square or parallel |
|||
to each other. |
|||
There are some limiting dimensions to consider: You should not joint pieces less than 250mm and 5mm thick. And the |
|||
maximum width is 260mm. |
|||
=== Setup === |
|||
With the machine unplugged… |
|||
Attach the outfeed table. |
|||
Install the dust collector below the cutter block on the thicknesser bed. |
|||
Check dust collection port is connected to the extractor and that the hose isn’t blocked (a common issue) |
|||
Check the height of the infeed table relative to the outfeed table. Ideally it will have been left about 0.5mm below |
|||
the outfeed table, but it may have been adjusted to take a heavier cut. Better results will be obtained by taking |
|||
multiple passes with a shallower cut. Also, heavier cuts are harder on the knives and will dull them faster. If |
|||
necessary, raise the infeed table with the red knob at the end of the infeed table. Check it is still lower than the |
|||
outfeed table, and that the cutter block can still freely rotate. |
|||
Set the guard. As much as possible of the cutter block must be covered by the guard during operation. If possible, |
|||
raise the guard above the work, and extend over the whole cutter block. If the work is too tall for the guard, |
|||
expose only just enough of the cutter block to process the stock, and lower the guard so it sits close to the cutter |
|||
block. |
|||
If using the fence, check that it is securely locked, and that it is at the right angle to the infeed/outfeed tables. |
|||
Start the planer, and then the dust extractor. Sometimes, if plugged into the same double socket, the start-up current |
|||
of the planer will trip the circuit breaker if the extractor is already on. So it’s less of a headache to start the |
|||
planer first. |
|||
Consider the grain direction of your stock. Best results will be obtained when the knives are cutting with the grain |
|||
(“downhill”), whereas in the opposite direction you are likely to get “tearout”. |
|||
[[File:Cutting uphill.jpg|frameless]] |
|||
Pass the stock over the infeed table, with only enough pressure the keep the stock securely on the table, and moving |
|||
forward at a steady rate. Too much pressure may well deform the stock as it goes over the cutter block, and will not |
|||
result in a flat surface. Too little pressure will result in a chattery poor quality surface. A consistent feed rate |
|||
over the cutter block is very important – a varying feed rate will result in a varying quality surface. When enough |
|||
material has reached the outside the guard on the outfeed table, transfer the downward pressure used to hold the stock |
|||
to the outfeed side, so that this serves as your reference surface. Then, from the infeed side, there should be primarily |
|||
a forward force pushing work over the cutter block. For the end piece of stock, pull this from the outfeed side. '''Never |
|||
should your fingers ever go under the guard.''' |
|||
It is common for there to be a slightly deeper scallop at the start and end of a piece of stock, called jointer snipe. |
|||
It is hard to completely avoid this. The easiest way is to leave a few extra cm on each end that can be trimmed off later |
|||
if needs be. |
|||
Take repeated passes until the surface is flat. |
|||
Revision as of 13:51, 27 November 2018
Metabo HC260 Planer-Thicknesser Induction
Some of the tools at the Hackspace are potentially hazardous to use, for these tools members are required to have an induction before they can use them. Inductions provide the most basic information on how to safely and effectively use the simpler functions of the tools, we appreciate that some members may have professional experience on some of these tools and in this case please tell your induction provider and the induction may be very reduced and just cover any risks or procedures specific to rLab. Some tools have multiple levels of induction in order to cover more advanced uses of that tool without making the basic induction take too long, higher induction levels will introduce some of the more advanced features of the tools but as with all inductions are only intended to provide basic information on the capabilities of the tools and how to use them safely. Some members of rLab may be willing to offer more detailed tuition beyond basic induction level or offer guided practice sessions in exchange for beer money or assistance on their own projects.
For all tools you are only required to take level-1 induction before use, after that you may perform any task that you feel confident you can do safely, higher levels of induction may be useful to you in performing more advanced operations but are not required before doing tasks covered in them so long as you're confident of your ability to handle those tasks without risk to yourself, others, or the tool.
PLEASE NOTE : All induction providers are volunteers who are providing inductions to the best of their ability but are NOT qualified instructors. Inductions are provided on a best-effort basis but you and you alone are responsible for your safety while using the tools and for satisfying yourself that you can operate the tools safely. There are professional training courses available from various providers in Reading and the surrounding area if you feel they are appropriate for the level of work you intend to undertake. Reading these notes is NOT a substitute for an in-person induction.
Note for wiki editors : Please do not edit induction pages unless you are one of of the people that gives that induction
Introduction
This induction is designed to take a new user through the safe operation of the planer / thicknesser.
The planer thicknesser is a Metabo HC260.
This is a combination machine, which can be configured to work as a surface planer ( for the flattening of faces and edges of wood), and as a thickness planer, to dimension wood that has already been surfaced (“jointed”) on one face and/or edge.
Both modes of operation involve passing the wood over a circular cutter block which holds two 260mm long HSS knives.
Materials
The planer thicknesser is designed to work almost exclusively with wood, and additionally, it’s effective operation depends on the direction of the wood grain as it is passed over the cutter block. It is not designed to work across the grain of the wood, or on the end grain of the wood, in either of the surface planer or thickness planer modes.
For this reason, it is not possible to plane the face of plywood, as the alternating grain direction in subsequent layers results in chips that are too large to evacuate, which clog the machine. It is possible to plane the edge of plywood, but this is quite hard on the knives, and in most applications the table saw would make more sense.
There are some firm modelling foams which can be processed by the planer thicknesser. This should be done with extra care, as they produce long chips which are difficult to evacuate and are known to blog the machine.
Surface Planing
Surface planning requires the outfeed table to be attached to the top of the machine, with the dust extraction port installed beneath the cutter block, held in place by the thicknessing bed.
The procedure for surface planning involves passing stock over the infeed table, into the cutter block, and out over the outfeed table. The outfeed table is set fractionally lower than the peak of the cutting circle, and the infeed table is set somewhat lower than the outfeed table. Therefore, as stock passes over the infeed table and through to the outfeed table, the cutter head removes scallops of material, with repeated passes serving to smooth and flatten a surface of the stock.
Additionally, a fence may be attached to the infeed table, to provide a reference surface for jointing two adjacent surfaces of the stock to some user defined reference angle (normally 90 degrees). Here, a typical process would be to flatten a face, and then, using this flattened face against the fence, flatten an edge at 90 degrees to the face. From here the thicknesser and table saw can be used to give stock that has 4 sides which are either square or parallel to each other.
There are some limiting dimensions to consider: You should not joint pieces less than 250mm and 5mm thick. And the maximum width is 260mm.
Setup
With the machine unplugged…
Attach the outfeed table.
Install the dust collector below the cutter block on the thicknesser bed.
Check dust collection port is connected to the extractor and that the hose isn’t blocked (a common issue)
Check the height of the infeed table relative to the outfeed table. Ideally it will have been left about 0.5mm below the outfeed table, but it may have been adjusted to take a heavier cut. Better results will be obtained by taking multiple passes with a shallower cut. Also, heavier cuts are harder on the knives and will dull them faster. If necessary, raise the infeed table with the red knob at the end of the infeed table. Check it is still lower than the outfeed table, and that the cutter block can still freely rotate.
Set the guard. As much as possible of the cutter block must be covered by the guard during operation. If possible, raise the guard above the work, and extend over the whole cutter block. If the work is too tall for the guard, expose only just enough of the cutter block to process the stock, and lower the guard so it sits close to the cutter block.
If using the fence, check that it is securely locked, and that it is at the right angle to the infeed/outfeed tables.
Start the planer, and then the dust extractor. Sometimes, if plugged into the same double socket, the start-up current of the planer will trip the circuit breaker if the extractor is already on. So it’s less of a headache to start the planer first.
Consider the grain direction of your stock. Best results will be obtained when the knives are cutting with the grain (“downhill”), whereas in the opposite direction you are likely to get “tearout”.
Pass the stock over the infeed table, with only enough pressure the keep the stock securely on the table, and moving forward at a steady rate. Too much pressure may well deform the stock as it goes over the cutter block, and will not result in a flat surface. Too little pressure will result in a chattery poor quality surface. A consistent feed rate over the cutter block is very important – a varying feed rate will result in a varying quality surface. When enough material has reached the outside the guard on the outfeed table, transfer the downward pressure used to hold the stock to the outfeed side, so that this serves as your reference surface. Then, from the infeed side, there should be primarily a forward force pushing work over the cutter block. For the end piece of stock, pull this from the outfeed side. Never should your fingers ever go under the guard.
It is common for there to be a slightly deeper scallop at the start and end of a piece of stock, called jointer snipe. It is hard to completely avoid this. The easiest way is to leave a few extra cm on each end that can be trimmed off later if needs be.
Take repeated passes until the surface is flat.