dust collector remote controll - cheap, and you can't lose it

cool. In the old days I would have had most of the parts flating around, but
after my dad died, I had to clean out his basement, and just didn't have
space for all the random scrap...... sold off pretty near a truck load of
electronic parts to an electronics salvage shop. Last time I was there, the
2" nixie tubes were still on display (its been about 5 years since my dad
died...)

Didn't think my idea was anything novel, but figured it might spark some
interesting discussion..
thansk
--JD

<BRuce> wrote in message news:1072783813.16901@sj-nntpcache-5...
> Well, I don't think your idea is revolutionary as I have had the same
> setup for more than 2 years. I made my "microswitches" and had the
> relay in my junk pile so the cost was just in the wire. I don't think
> you will need a delay as there is a human delay between finishing a cut
> and closing the blast gate, plenty of time to clear the duct. if not
> count to 3 then close the gate.
>
> BRuce
>
> jduprie wrote:
> > Hey folks...
> > as part of the "new shop" I scored an oneida 3HP commercial dust
> > collector (VROOOM - drive by #1)... The problem is, the shop is 40X50
feet
> > (thats number 2), and its a real drag walking all the way over to the DC
> > every time I need to turn it on or off.
> >
> > Here's my solutution:
> > buy:
> > 1) relay of the right size for your DC (Get one rated for low
> > voltage DC for the coil size - I'm using 24VDC)
> > 2) one transformer to provide the DC current
> > 3) one "micro switch" for each of your blasst gates (there
should be
> > a blast gate at each tool) The micro switch is just a small switch with
a
> > long spring loaded arm. When the arm is pushed, the switch closes.
> > 4) enough thermostat wire to run from the DC to all of your
blast
> > gates
> >
> > set up the transformer, and wire your DC power supply through the relay.
> > hook one of the legs of the transformer to one of the legs of the relay
> > coil, and the other to the red side of the thermostat wire. Hook the
white
> > side of the thermostat wire to the other leg of the relay coil. run the
> > thermostat wire to the closest blast gate. Leave a couple feet of wire,
and
> > run another length to the next blast gate. Continue until you've got a
wire
> > going to all of the blast gates.
> >
> > Now you need some way to mount the switch to the blast gate. First
of
> > all, figure out the best way to mount it to make it work. it should be
set
> > up so that when the gate is opened, it pushes on the switch arm, and
closes
> > the switch. If you've got plastic blast gates, you can drill holes to
mount
> > the switch (be carefull not to do something that prevents the gate from
> > opening...). If you've got metal gates, you can drill them as well, or
if
> > you've got metal gates that can be disasembled, you can use the bolts
that
> > hold them together as mount points (this is what I did).
> >
> > I made brackets to hold the switches out of cheap hardware store bar
> > stock metal (I think it was 1/2 by 1/8). Cut it to length (in my case
about
> > 3"), and drill holes to match the mounting holes in the switches and
> > whatever method you're going o use to hold the switch to the blast gate.
Go
> > bolt all the switches to the blast gates, and make sure that the gate
closes
> > the switch when the gate is open (a continuity tester is usefull here).
> >
> > attach the wires to the switches, testing each one as you complete it.
> >
> > If its working right, every tim eyou open a blast gate, the DC will turn
on.
> > When you close the blast gate the DC turns off.
> >
> > My total system (10 gates) cost about $50 US, and took about 3 hours to
> > install.....
> >
> > --JD
> >
> >
>
> --
> ---
>
> BRuce
>

Well, I don't think your idea is revolutionary as I have had the same
setup for more than 2 years. I made my "microswitches" and had the
relay in my junk pile so the cost was just in the wire. I don't think
you will need a delay as there is a human delay between finishing a cut
and closing the blast gate, plenty of time to clear the duct. if not
count to 3 then close the gate.

BRuce

jduprie wrote:
> Hey folks...
> as part of the "new shop" I scored an oneida 3HP commercial dust
> collector (VROOOM - drive by #1)... The problem is, the shop is 40X50 feet
> (thats number 2), and its a real drag walking all the way over to the DC
> every time I need to turn it on or off.
>
> Here's my solutution:
> buy:
> 1) relay of the right size for your DC (Get one rated for low
> voltage DC for the coil size - I'm using 24VDC)
> 2) one transformer to provide the DC current
> 3) one "micro switch" for each of your blasst gates (there should be
> a blast gate at each tool) The micro switch is just a small switch with a
> long spring loaded arm. When the arm is pushed, the switch closes.
> 4) enough thermostat wire to run from the DC to all of your blast
> gates
>
> set up the transformer, and wire your DC power supply through the relay.
> hook one of the legs of the transformer to one of the legs of the relay
> coil, and the other to the red side of the thermostat wire. Hook the white
> side of the thermostat wire to the other leg of the relay coil. run the
> thermostat wire to the closest blast gate. Leave a couple feet of wire, and
> run another length to the next blast gate. Continue until you've got a wire
> going to all of the blast gates.
>
> Now you need some way to mount the switch to the blast gate. First of
> all, figure out the best way to mount it to make it work. it should be set
> up so that when the gate is opened, it pushes on the switch arm, and closes
> the switch. If you've got plastic blast gates, you can drill holes to mount
> the switch (be carefull not to do something that prevents the gate from
> opening...). If you've got metal gates, you can drill them as well, or if
> you've got metal gates that can be disasembled, you can use the bolts that
> hold them together as mount points (this is what I did).
>
> I made brackets to hold the switches out of cheap hardware store bar
> stock metal (I think it was 1/2 by 1/8). Cut it to length (in my case about
> 3"), and drill holes to match the mounting holes in the switches and
> whatever method you're going o use to hold the switch to the blast gate. Go
> bolt all the switches to the blast gates, and make sure that the gate closes
> the switch when the gate is open (a continuity tester is usefull here).
>
> attach the wires to the switches, testing each one as you complete it.
>
> If its working right, every tim eyou open a blast gate, the DC will turn on.
> When you close the blast gate the DC turns off.
>
> My total system (10 gates) cost about $50 US, and took about 3 hours to
> install.....
>
> --JD
>
>

--
---

BRuce

yep, certainly a lot of traffic on this one. another point on not
wanting to short cycle the DC is that if I know I am going directly to
another process that will use the DC I just leave it on, open the next
gate and close the first. my shop isn't that big and I an not worried
about an extra minute, this is a hobby after all. at least for now.

BRuce

jduprie wrote:
> cool. In the old days I would have had most of the parts flating around, but
> after my dad died, I had to clean out his basement, and just didn't have
> space for all the random scrap...... sold off pretty near a truck load of
> electronic parts to an electronics salvage shop. Last time I was there, the
> 2" nixie tubes were still on display (its been about 5 years since my dad
> died...)
>
> Didn't think my idea was anything novel, but figured it might spark some
> interesting discussion..
> thansk
> --JD
>
> <BRuce> wrote in message news:1072783813.16901@sj-nntpcache-5...
>
>>Well, I don't think your idea is revolutionary as I have had the same
>>setup for more than 2 years. I made my "microswitches" and had the
>>relay in my junk pile so the cost was just in the wire. I don't think
>>you will need a delay as there is a human delay between finishing a cut
>>and closing the blast gate, plenty of time to clear the duct. if not
>>count to 3 then close the gate.
>>
>>BRuce
>>
>>jduprie wrote:
>>
>>>Hey folks...
>>> as part of the "new shop" I scored an oneida 3HP commercial dust
>>>collector (VROOOM - drive by #1)... The problem is, the shop is 40X50
>
> feet
>
>>>(thats number 2), and its a real drag walking all the way over to the DC
>>>every time I need to turn it on or off.
>>>
>>>Here's my solutution:
>>> buy:
>>> 1) relay of the right size for your DC (Get one rated for low
>>>voltage DC for the coil size - I'm using 24VDC)
>>> 2) one transformer to provide the DC current
>>> 3) one "micro switch" for each of your blasst gates (there
>
> should be
>
>>>a blast gate at each tool) The micro switch is just a small switch with
>
> a
>
>>>long spring loaded arm. When the arm is pushed, the switch closes.
>>> 4) enough thermostat wire to run from the DC to all of your
>
> blast
>
>>>gates
>>>
>>>set up the transformer, and wire your DC power supply through the relay.
>>>hook one of the legs of the transformer to one of the legs of the relay
>>>coil, and the other to the red side of the thermostat wire. Hook the
>
> white
>
>>>side of the thermostat wire to the other leg of the relay coil. run the
>>>thermostat wire to the closest blast gate. Leave a couple feet of wire,
>
> and
>
>>>run another length to the next blast gate. Continue until you've got a
>
> wire
>
>>>going to all of the blast gates.
>>>
>>> Now you need some way to mount the switch to the blast gate. First
>
> of
>
>>>all, figure out the best way to mount it to make it work. it should be
>
> set
>
>>>up so that when the gate is opened, it pushes on the switch arm, and
>
> closes
>
>>>the switch. If you've got plastic blast gates, you can drill holes to
>
> mount
>
>>>the switch (be carefull not to do something that prevents the gate from
>>>opening...). If you've got metal gates, you can drill them as well, or
>
> if
>
>>>you've got metal gates that can be disasembled, you can use the bolts
>
> that
>
>>>hold them together as mount points (this is what I did).
>>>
>>> I made brackets to hold the switches out of cheap hardware store bar
>>>stock metal (I think it was 1/2 by 1/8). Cut it to length (in my case
>
> about
>
>>>3"), and drill holes to match the mounting holes in the switches and
>>>whatever method you're going o use to hold the switch to the blast gate.
>
> Go
>
>>>bolt all the switches to the blast gates, and make sure that the gate
>
> closes
>
>>>the switch when the gate is open (a continuity tester is usefull here).
>>>
>>>attach the wires to the switches, testing each one as you complete it.
>>>
>>>If its working right, every tim eyou open a blast gate, the DC will turn
>
> on.
>
>>>When you close the blast gate the DC turns off.
>>>
>>>My total system (10 gates) cost about $50 US, and took about 3 hours to
>>>install.....
>>>
>>>--JD
>>>
>>>
>>
>>--
>>---
>>
>>BRuce
>>
>
>
>

--
---

BRuce

Maybe I missed it and if so I apologise for being redundant. You should make
clear that all the micro switchs should be wired in parallel. That is the hot
wire from the transformer should go to one side of ALL the switches. Another
wire from the relay coil should go to the other side of ALL the switches. Than
way when any one gate is opened the DC powers up.

Greetings and Salutations.

On Tue, 30 Dec 2003 07:56:51 GMT, tmbg <[email protected]> wrote:

>
>> the problem with this is changing from one machine to another turns the dc on
>> and off way too much. you want 6 or less starts per hour for good motor wear.
>> more generated way to much heat.
>
>Hmmm... in addition to wooddorking, I also mess around with electronic
>junk... I especially love microcontrollers... I bet I could build a small
>uC board that takes switches from each gate like that, and keeps the dc on
>for awhile after the gate closes, so if you open another gate it never
>shuts off... probably could do it with a 555 also, but the uC would let me
>add features (if I could think of any)
>
>Also like to figure out some fancy solenoid system for each gate, so that
>all gates are locked closed unless the machine in question is turned on...
> We have over a dozen gates, and a lot of them are in inconvenient places,
>and we have three DCs. I *really* want a more automated system :P

Got to love technology...it allows the most WONDERFUl toys.
How about this:
1) Grizzly Industrial has automatic blast gates
for sale - http://www.grizzly.com/catalog/pages/121.cfm?
2) Create a small current sensor that would attach to
each machine and automatically open the appropriate blast gate
when the machine turns on.
3) A common line back to a DC control unit that would kick
the power on if any of the blast gates open.
4) a timed relay on the DC that would keep it on for a
period of time after all the blast gates close...say...5 minutes.
Note that you REALLY need to add a bypass gate that will open on
excess vacuum here, to keep air in the system and keep the DC
motor from overspeeding from lack of load. I would suggest that
this duct go up near the ceiling, so it will act to suck any floating
dust out of the air.

While the Grizzly gates are pretty slick, they are a tad
pricy. I suspect that a person with some mechanical and electronic
experience could fabricate alternatives for a bit more time but
a lot less money.
The time delay relays are a stock item...I picked up several
at a recent hamfest (over in Shelby, NC) for a couple of bucks apiece
for the relays and a buck apiece for the socket bases.
A common wire going through all the blast gates will "or"
all the inputs together automatically, and, be dirt simple. Actually,
it occurs to me that if one has all metal tubing on the DC system,
one COULD inject a HF signal onto the pipe surface - eliminating
the need for extra wiring.
Having the current sensor on the machine would simplify
things too, as it would ensure that the gate would open up with
the machine coming on, and, automatically close when the machine
went off. one could also add a little time delay here, too,
say, 3 minutes, to eliminate wear on the mechanism. I could
see that being useful on the tablesaw. I will often be in a
situation where I make several cuts, then turn the saw off for
a few minutes while I get a different jig or set of stock.
Regards
Dave Mundt

On Tue, 30 Dec 2003 22:13:07 GMT, "jduprie" <[email protected]> wrote:

>could be a problem if you did a lot of short cycling. I tend to work at no
>more than one machine in any given hour or so...... I can't think of any
>situation where I'd be turning the DC on/off 6 times in an hour...it
>shouldbe pretty simple to rig up a delay so it would stay on for a minute or
>two after the gate is closed..... I don't know what that would do to the
>load on the motor - the oneida system came with dire warnings about Bad
>Things hapening if the DC was run without at least a 4" gate open.....

but getting a good remote is far easier (G) Most dc's it does not matter if all
of the gates are shut. I do it all the time. it actually takes less juice to run
the dc that way.


--
Knight-Toolworks & Custom Planes
Custom made wooden planes at reasonable prices
See http://www.knight-toolworks.com For prices and ordering instructions.

could be a problem if you did a lot of short cycling. I tend to work at no
more than one machine in any given hour or so...... I can't think of any
situation where I'd be turning the DC on/off 6 times in an hour...it
shouldbe pretty simple to rig up a delay so it would stay on for a minute or
two after the gate is closed..... I don't know what that would do to the
load on the motor - the oneida system came with dire warnings about Bad
Things hapening if the DC was run without at least a 4" gate open.....

--JD



"Steve Knight" <[email protected]> wrote in message
news:[email protected]...
> On Tue, 30 Dec 2003 01:43:49 GMT, "jduprie" <[email protected]> wrote:
>
> >Hey folks...
> > as part of the "new shop" I scored an oneida 3HP commercial dust
> >collector (VROOOM - drive by #1)... The problem is, the shop is 40X50
feet
> >(thats number 2), and its a real drag walking all the way over to the DC
> >every time I need to turn it on or off.
>
> the problem with this is changing from one machine to another turns the dc
on
> and off way too much. you want 6 or less starts per hour for good motor
wear.
> more generated way to much heat.
>
> --
> Knight-Toolworks & Custom Planes
> Custom made wooden planes at reasonable prices
> See http://www.knight-toolworks.com For prices and ordering instructions.

On Tue, 30 Dec 2003 01:43:49 GMT, "jduprie" <[email protected]> wrote:

>Hey folks...
> as part of the "new shop" I scored an oneida 3HP commercial dust
>collector (VROOOM - drive by #1)... The problem is, the shop is 40X50 feet
>(thats number 2), and its a real drag walking all the way over to the DC
>every time I need to turn it on or off.

the problem with this is changing from one machine to another turns the dc on
and off way too much. you want 6 or less starts per hour for good motor wear.
more generated way to much heat.

--
Knight-Toolworks & Custom Planes
Custom made wooden planes at reasonable prices
See http://www.knight-toolworks.com For prices and ordering instructions.

> the problem with this is changing from one machine to another turns the dc on
> and off way too much. you want 6 or less starts per hour for good motor wear.
> more generated way to much heat.

Hmmm... in addition to wooddorking, I also mess around with electronic
junk... I especially love microcontrollers... I bet I could build a small
uC board that takes switches from each gate like that, and keeps the dc on
for awhile after the gate closes, so if you open another gate it never
shuts off... probably could do it with a 555 also, but the uC would let me
add features (if I could think of any)

Also like to figure out some fancy solenoid system for each gate, so that
all gates are locked closed unless the machine in question is turned on...
We have over a dozen gates, and a lot of them are in inconvenient places,
and we have three DCs. I *really* want a more automated system :P