Re: Variable speed motors
Extra pins are probably for positioning feedback.? The incline motors out of treadmills are the same. ? Tony ? ?
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Show quoted text
From: [email protected] <[email protected]> On Behalf Of Chris Albertson
Sent: Saturday, 10 February 2024 11:31 AM
To: [email protected]
Subject: Re: [7x12MiniLathe] Variable speed motors? These right-angle motors with lead screws are used to adjust the seats in cars. ?That there are so many of these being sold on the surplus market means ?to me that they must have been replaced by something better. ? I wonder if they are not all brushless motors now Yearago, brushless motor were impractical because MOSFET switches had high on-resistance. ?But now with good and way-cheap mosfets and 50-cent microcontrollers, the brushless types might be cheaper to make, and you necver have to replace the brushes. OK, I just looked. , Newer motors are advertised as having four of five pins this would indicate they are not simple DC brushed motors. ? Likely three phases. ?
? Speaking of that motor from the HSM article - I got an email from? and they are selling that same motor for $10.95 with $6.95 flat rate shipping and they made a brass flange nut for the shaft that is included as well. Here is the link: ? ?The Jan/Feb 2024 Home Shop Machinist has a cover article about making a power X axis drive for a mini-mill table that uses a 12V car seat motor (American Science and Surplus has been selling them forever; there must be warehouses full of these things??) You could probably modify that little gear motor for that purpose.? ?
--
Buffalo John
?
|
Re: Variable speed motors
These right-angle motors with lead screws are used to adjust the seats in cars. ?That there are so many of these being sold on the surplus market means ?to me that they must have been replaced by something better. ? I wonder if they are not all brushless motors now
Yearago, brushless motor were impractical because MOSFET switches had high on-resistance. ?But now with good and way-cheap mosfets and 50-cent microcontrollers, the brushless types might be cheaper to make, and you necver have to replace the brushes.
OK, I just looked. , Newer motors are advertised as having four of five pins this would indicate they are not simple DC brushed motors. ? Likely three phases.
toggle quoted message
Show quoted text
On Feb 9, 2024, at 3:00?PM, BuffaloJohn <johndurbetaki@...> wrote:
Speaking of that motor from the HSM article - I got an email from?
and they are selling that same motor for $10.95 with $6.95 flat rate shipping and they made a brass flange nut for the shaft that is included as well. Here is the link:
?The Jan/Feb 2024 Home Shop Machinist has a cover article about making a power X axis drive for a mini-mill table that uses a 12V car seat motor (American Science and Surplus has been selling them forever; there must be warehouses full of these things??) You could probably modify that little gear motor for that purpose.?
-- Buffalo John
|
Here photo my one of my portable DRO'S? This 5" [125mm] it clamps to bed and a mag base on the carriage using a ?" aluminum Bar.? Works great for snap rings.  Dave?
|
Re: Variable speed motors
Speaking of that motor from the HSM article - I got an email from?
and they are selling that same motor for $10.95 with $6.95 flat rate shipping and they made a brass flange nut for the shaft that is included as well. Here is the link:
?The Jan/Feb 2024 Home Shop Machinist has a cover article about making a power X axis drive for a mini-mill table that uses a 12V car seat motor (American Science and Surplus has been selling them forever; there must be warehouses full of these things??) You could probably modify that little gear motor for that purpose.?
--
Buffalo John
|
Re: Variable speed motors
The high speed 3 phase motors I first in early 2000's could sooner for model .
They could build a very light weight motors turning at upto 20,000 rpm's. Now we see as a brushless motors turn at 4,000 to 6,000 rpm's keep the cost of motors down.
This could be sooner too I just looking that hard in that year.? I only used time proven AC motors at high cost motors.??
Dave
|
Re: Variable speed motors
It interesting thd different ways I have seen for low speeds?
First on AC motors lots of poles you charge the poles for different speeds but very costly motors.
Then was just was belts and or gears.
Variable pitch belts and charge the gear Works but still gears at one was costly too but not bad.
The AC/DC motors usd a Variable transformers. This first lower cost motor setup 1 to w to 1 to 100 speed reduction?
The electronic speed control start with small motors but cost was a lot lower.
The stepper motors in Printers was big change.? In 1970's? they did not need encoders for low cost printers. If skip a a few spaces out of over a hundred thousands you not notice. Next use on low cost CNC equipment. For most part they used two phases motor.
Later I saw mini 3 phase motor but I saw first controls in 1960's but winding your own motors.
Now we know as brushless DC motors . Some maybe two phases I just have seen it .?
Some dates can earlier history on web can be do to the writer error. I know mine maybe off too.?
The 1960's is where lot changes switch from tubes to transitions?
Dave?
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Ralph Lehotsky 2:12pm? ?
Yes - it's probably geared down quite a bit for that application, so power is not as important there
|
Re: Variable speed motors
Yes - it's probably geared down quite a bit for that application, so power is not as important there.
ralphie
|
Re: Variable speed motors
That controller is for a automotive seat motor in the other link
.
animal
On 2/8/24 12:17 PM, Ralph Lehotsky
wrote:
toggle quoted message
Show quoted text
Mike
-?
That
controller won't put out that much power, it's only a 20A
surge.
If
it would put out 18A continuously with a 12 VDC motor, that's
only 216 watts, not even 1/3 hp.
Even
at 24 VDC,? it's less than 500 W,? if you could find a 24 volt
motor.
If
I upgrade the motor on my mini=lathe, I think I would want at
least 0.75 hp, and preferably 1 hp.
ralphie
On Thu, Feb 8, 2024 at
12:27?PM mike allen < animal@...>
wrote:
Someone mentioned the car seat motors , these folks have
them on sale & also have a controller on sale too
animal
On 2/8/24 10:42 AM, mike allen wrote:
I believe that with PWM nothing happens till 15% duty
cycle & limits out at 85% duty cycle . That's in
print somewhere out in internet land .
animal
On 2/7/24 10:08 PM, Evan wrote:
I haven't tried using a treadmill
motor controller and cannot be specific but hope this is
of some help.
Lets start with some calculations from your motor DC
specs:
Power = 120 volt x 21 A = 2,520 watts
1 HP = 745 Watts so divide by 745 gives 3.38 HP?
Calculating backwards from 2.5 HP
2.5 x 745 =?1,862.5 Watts
Divide by 120 gives 15.5 amps at full output.
This discrepancy probably means that the motor can
handle up to 21A when under load.
When running at its maximum speed of 7000 RPM the
armature is acting like a generator creating a
'back-emf' ?or voltage of -120 volts opposing the 120
volt input and that is why it can't run any faster than
7000 RPM. (otherwise it could be a recommended
limitation depending on the centrifugal/centripetal
forces that the armature can handle without flying
apart.)
My Pulse Width Modulator circuit displays amps and volts
and I have a tachometer as well. The data from that may
help answer your question. Under heavy load the motor
slows down, the back EMF decreases at lower RPM and
input voltage is able to push through more amps.
Eventually as the amperage increases the driver circuit
will cut off the power supply to avoid burning out its
components.? In addition to that, the PWM circuit tries
to maintain power output by increasing average amps as
it switches on and off.?
I think the solution is to alter the gearing/pulleys to
allow the motor to run at higher RPM.
Note: the potentiometer used in these circuits operates
on 0 to 5 or 0-10 volts, so is quite safe. It is still a
good idea to have it grounded and/or insulated well.
--
Evan
Lathe: 1955 Boxford Model A with screw
cutting gearbox, power feed with several accessories,
hand tools and a pillar drill press.
Try my Free Online Gear train Software:
You enter a thread pitch or TPI and it shows you a range
of gear trains and gearbox setting to use and even a
scale drawing of the gear train.
It also includes calculations for taper turning by the
tailstock offset method, and cutting speeds.
It includes the specifications for many thread types eg
metric, UNC, BSW, and BA.
Displays drill sizes for tapping threads at any percent
thread depth (with full explanations).
My YouTube Channel and Playlist about using an engineers
lathe: ?
Project to build a Greek Hero steam engine and measure
its power output:?
|
Re: Variable speed motors
Mike -?
That controller won't put out that much power, it's only a 20A surge. If it would put out 18A continuously with a 12 VDC motor, that's only 216 watts, not even 1/3 hp. Even at 24 VDC,? it's less than 500 W,? if you could find a 24 volt motor.
If I upgrade the motor on my mini=lathe, I think I would want at least 0.75 hp, and preferably 1 hp.
ralphie
On Thu, Feb 8, 2024 at 12:27?PM mike allen < animal@...> wrote:
Someone mentioned the car seat motors , these folks have them on
sale & also have a controller on sale too
animal
On 2/8/24 10:42 AM, mike allen wrote:
I believe that with PWM nothing happens till 15% duty cycle
& limits out at 85% duty cycle . That's in print somewhere
out in internet land .
animal
On 2/7/24 10:08 PM, Evan wrote:
I haven't tried using a treadmill motor controller and cannot be
specific but hope this is of some help.
Lets start with some calculations from your motor DC specs:
Power = 120 volt x 21 A = 2,520 watts
1 HP = 745 Watts so divide by 745 gives 3.38 HP?
Calculating backwards from 2.5 HP
2.5 x 745 =?1,862.5 Watts
Divide by 120 gives 15.5 amps at full output.
This discrepancy probably means that the motor can handle up to
21A when under load.
When running at its maximum speed of 7000 RPM the armature is
acting like a generator creating a 'back-emf' ?or voltage of
-120 volts opposing the 120 volt input and that is why it can't
run any faster than 7000 RPM. (otherwise it could be a
recommended limitation depending on the centrifugal/centripetal
forces that the armature can handle without flying apart.)
My Pulse Width Modulator circuit displays amps and volts and I
have a tachometer as well. The data from that may help answer
your question. Under heavy load the motor slows down, the back
EMF decreases at lower RPM and input voltage is able to push
through more amps. Eventually as the amperage increases the
driver circuit will cut off the power supply to avoid burning
out its components.? In addition to that, the PWM circuit tries
to maintain power output by increasing average amps as it
switches on and off.?
I think the solution is to alter the gearing/pulleys to allow
the motor to run at higher RPM.
Note: the potentiometer used in these circuits operates on 0 to
5 or 0-10 volts, so is quite safe. It is still a good idea to
have it grounded and/or insulated well.
--
Evan
Lathe: 1955 Boxford Model A with screw cutting
gearbox, power feed with several accessories, hand tools and a
pillar drill press.
Try my Free Online Gear train Software:
You enter a thread pitch or TPI and it shows you a range of gear
trains and gearbox setting to use and even a scale drawing of
the gear train.
It also includes calculations for taper turning by the tailstock
offset method, and cutting speeds.
It includes the specifications for many thread types eg metric,
UNC, BSW, and BA.
Displays drill sizes for tapping threads at any percent thread
depth (with full explanations).
My YouTube Channel and Playlist about using an engineers lathe:
?
Project to build a Greek Hero steam engine and measure its power
output:?
|
Re: Variable speed motors
I have purchased from them in the past & have been happy with
each purchase . Shipping seemed reasonable & fast . I have had
the motor & controller mentioned earlier for several years
just waiting for me to get the time to put them to work . Ya know
how it goes , ya make all these plans & then life gets in the
way .
animal
On 2/8/24 11:35 AM, Charles Kinzer
wrote:
toggle quoted message
Show quoted text
MPJA is sort of an
interesting outfit worth keeping in mind.? They cover a LOT of
ground including multiple pages of advertising in a Ham Radio
magazine.? All the way to even selling a talking multimeter
which isn't really a joke.? You may be in a position difficult
to see the meter or want to focus on placing test leads
carefully.? And the National Federation of the Blind stocked
these at one time.
Charles E. "Chuck" Kinzer
On Thursday, February 8, 2024 at 11:27:33 AM PST, mike
allen <animal@...> wrote:
Someone mentioned the car seat motors , these folks
have them on sale & also have a controller on sale
too
animal
On 2/8/24
10:42 AM, mike allen wrote:
I believe that with PWM nothing happens till 15%
duty cycle & limits out at 85% duty cycle .
That's in print somewhere out in internet land .
animal
On 2/7/24
10:08 PM, Evan wrote:
I haven't tried using a
treadmill motor controller and cannot be specific
but hope this is of some help.
Lets start with some calculations from your motor DC
specs:
Power = 120 volt x 21 A = 2,520 watts
1 HP = 745 Watts so divide by 745 gives 3.38 HP?
Calculating backwards from 2.5 HP
2.5 x 745 =?1,862.5 Watts
Divide by 120 gives 15.5 amps at full output.
This discrepancy probably means that the motor can
handle up to 21A when under load.
When running at its maximum speed of 7000 RPM the
armature is acting like a generator creating a
'back-emf' ?or voltage of -120 volts opposing the
120 volt input and that is why it can't run any
faster than 7000 RPM. (otherwise it could be a
recommended limitation depending on the
centrifugal/centripetal forces that the armature can
handle without flying apart.)
My Pulse Width Modulator circuit displays amps and
volts and I have a tachometer as well. The data from
that may help answer your question. Under heavy load
the motor slows down, the back EMF decreases at
lower RPM and input voltage is able to push through
more amps. Eventually as the amperage increases the
driver circuit will cut off the power supply to
avoid burning out its components. ?In addition to
that, the PWM circuit tries to maintain power output
by increasing average amps as it switches on and
off.?
I think the solution is to alter the gearing/pulleys
to allow the motor to run at higher RPM.
Note: the potentiometer used in these circuits
operates on 0 to 5 or 0-10 volts, so is quite safe.
It is still a good idea to have it grounded and/or
insulated well.
--
Evan
Lathe: 1955 Boxford Model A with
screw cutting gearbox, power feed with several
accessories, hand tools and a pillar drill press.
Try my Free Online Gear train Software:
You enter a thread pitch or TPI and it shows you a
range of gear trains and gearbox setting to use and
even a scale drawing of the gear train.
It also includes calculations for taper turning by
the tailstock offset method, and cutting speeds.
It includes the specifications for many thread types
eg metric, UNC, BSW, and BA.
Displays drill sizes for tapping threads at any
percent thread depth (with full explanations).
My YouTube Channel and Playlist about using an
engineers lathe: ?
Project to build a Greek Hero steam engine and
measure its power output:?
|
Re: Variable speed motors
MPJA is sort of an interesting outfit worth keeping in mind.? They cover a LOT of ground including multiple pages of advertising in a Ham Radio magazine.? All the way to even selling a talking multimeter which isn't really a joke.? You may be in a position difficult to see the meter or want to focus on placing test leads carefully.? And the National Federation of the Blind stocked these at one time.
Charles E. "Chuck" Kinzer
On Thursday, February 8, 2024 at 11:27:33 AM PST, mike allen <animal@...> wrote:
Someone mentioned the car seat motors , these folks have them on
sale & also have a controller on sale too
animal
On 2/8/24 10:42 AM, mike allen wrote:
I believe that with PWM nothing happens till 15% duty cycle
& limits out at 85% duty cycle . That's in print somewhere
out in internet land .
animal
On 2/7/24 10:08 PM, Evan wrote:
I haven't tried using a treadmill motor controller and cannot be
specific but hope this is of some help.
Lets start with some calculations from your motor DC specs:
Power = 120 volt x 21 A = 2,520 watts
1 HP = 745 Watts so divide by 745 gives 3.38 HP?
Calculating backwards from 2.5 HP
2.5 x 745 =?1,862.5 Watts
Divide by 120 gives 15.5 amps at full output.
This discrepancy probably means that the motor can handle up to
21A when under load.
When running at its maximum speed of 7000 RPM the armature is
acting like a generator creating a 'back-emf' ?or voltage of
-120 volts opposing the 120 volt input and that is why it can't
run any faster than 7000 RPM. (otherwise it could be a
recommended limitation depending on the centrifugal/centripetal
forces that the armature can handle without flying apart.)
My Pulse Width Modulator circuit displays amps and volts and I
have a tachometer as well. The data from that may help answer
your question. Under heavy load the motor slows down, the back
EMF decreases at lower RPM and input voltage is able to push
through more amps. Eventually as the amperage increases the
driver circuit will cut off the power supply to avoid burning
out its components. ?In addition to that, the PWM circuit tries
to maintain power output by increasing average amps as it
switches on and off.?
I think the solution is to alter the gearing/pulleys to allow
the motor to run at higher RPM.
Note: the potentiometer used in these circuits operates on 0 to
5 or 0-10 volts, so is quite safe. It is still a good idea to
have it grounded and/or insulated well.
--
Evan
Lathe: 1955 Boxford Model A with screw cutting
gearbox, power feed with several accessories, hand tools and a
pillar drill press.
Try my Free Online Gear train Software:
You enter a thread pitch or TPI and it shows you a range of gear
trains and gearbox setting to use and even a scale drawing of
the gear train.
It also includes calculations for taper turning by the tailstock
offset method, and cutting speeds.
It includes the specifications for many thread types eg metric,
UNC, BSW, and BA.
Displays drill sizes for tapping threads at any percent thread
depth (with full explanations).
My YouTube Channel and Playlist about using an engineers lathe:
?
Project to build a Greek Hero steam engine and measure its power
output:?
|
Re: Variable speed motors
Someone mentioned the car seat motors , these folks have them on
sale & also have a controller on sale too
animal
On 2/8/24 10:42 AM, mike allen wrote:
toggle quoted message
Show quoted text
I believe that with PWM nothing happens till 15% duty cycle
& limits out at 85% duty cycle . That's in print somewhere
out in internet land .
animal
On 2/7/24 10:08 PM, Evan wrote:
I haven't tried using a treadmill motor controller and cannot be
specific but hope this is of some help.
Lets start with some calculations from your motor DC specs:
Power = 120 volt x 21 A = 2,520 watts
1 HP = 745 Watts so divide by 745 gives 3.38 HP?
Calculating backwards from 2.5 HP
2.5 x 745 =?1,862.5 Watts
Divide by 120 gives 15.5 amps at full output.
This discrepancy probably means that the motor can handle up to
21A when under load.
When running at its maximum speed of 7000 RPM the armature is
acting like a generator creating a 'back-emf' ?or voltage of
-120 volts opposing the 120 volt input and that is why it can't
run any faster than 7000 RPM. (otherwise it could be a
recommended limitation depending on the centrifugal/centripetal
forces that the armature can handle without flying apart.)
My Pulse Width Modulator circuit displays amps and volts and I
have a tachometer as well. The data from that may help answer
your question. Under heavy load the motor slows down, the back
EMF decreases at lower RPM and input voltage is able to push
through more amps. Eventually as the amperage increases the
driver circuit will cut off the power supply to avoid burning
out its components. ?In addition to that, the PWM circuit tries
to maintain power output by increasing average amps as it
switches on and off.?
I think the solution is to alter the gearing/pulleys to allow
the motor to run at higher RPM.
Note: the potentiometer used in these circuits operates on 0 to
5 or 0-10 volts, so is quite safe. It is still a good idea to
have it grounded and/or insulated well.
--
Evan
Lathe: 1955 Boxford Model A with screw cutting
gearbox, power feed with several accessories, hand tools and a
pillar drill press.
Try my Free Online Gear train Software:
You enter a thread pitch or TPI and it shows you a range of gear
trains and gearbox setting to use and even a scale drawing of
the gear train.
It also includes calculations for taper turning by the tailstock
offset method, and cutting speeds.
It includes the specifications for many thread types eg metric,
UNC, BSW, and BA.
Displays drill sizes for tapping threads at any percent thread
depth (with full explanations).
My YouTube Channel and Playlist about using an engineers lathe:
?
Project to build a Greek Hero steam engine and measure its power
output:?
|
Re: Variable speed motors
I believe that with PWM nothing happens till 15% duty cycle &
limits out at 85% duty cycle . That's in print somewhere out in
internet land .
animal
On 2/7/24 10:08 PM, Evan wrote:
toggle quoted message
Show quoted text
I haven't tried using a treadmill motor controller and cannot be
specific but hope this is of some help.
Lets start with some calculations from your motor DC specs:
Power = 120 volt x 21 A = 2,520 watts
1 HP = 745 Watts so divide by 745 gives 3.38 HP?
Calculating backwards from 2.5 HP
2.5 x 745 =?1,862.5 Watts
Divide by 120 gives 15.5 amps at full output.
This discrepancy probably means that the motor can handle up to
21A when under load.
When running at its maximum speed of 7000 RPM the armature is
acting like a generator creating a 'back-emf' ?or voltage of -120
volts opposing the 120 volt input and that is why it can't run any
faster than 7000 RPM. (otherwise it could be a recommended
limitation depending on the centrifugal/centripetal forces that
the armature can handle without flying apart.)
My Pulse Width Modulator circuit displays amps and volts and I
have a tachometer as well. The data from that may help answer your
question. Under heavy load the motor slows down, the back EMF
decreases at lower RPM and input voltage is able to push through
more amps. Eventually as the amperage increases the driver circuit
will cut off the power supply to avoid burning out its components.
?In addition to that, the PWM circuit tries to maintain power
output by increasing average amps as it switches on and off.?
I think the solution is to alter the gearing/pulleys to allow the
motor to run at higher RPM.
Note: the potentiometer used in these circuits operates on 0 to 5
or 0-10 volts, so is quite safe. It is still a good idea to have
it grounded and/or insulated well.
--
Evan
Lathe: 1955 Boxford Model A with screw cutting
gearbox, power feed with several accessories, hand tools and a
pillar drill press.
Try my Free Online Gear train Software:
You enter a thread pitch or TPI and it shows you a range of gear
trains and gearbox setting to use and even a scale drawing of the
gear train.
It also includes calculations for taper turning by the tailstock
offset method, and cutting speeds.
It includes the specifications for many thread types eg metric,
UNC, BSW, and BA.
Displays drill sizes for tapping threads at any percent thread
depth (with full explanations).
My YouTube Channel and Playlist about using an engineers lathe: ?
Project to build a Greek Hero steam engine and measure its power
output:?
|
Re: Variable speed motors
Note that the potentiometer is operated at low volts BUT the electronics may now be isolated from line power, intended to be enclosed and therefore from us.?
Always take care in this regard, never assume.?
toggle quoted message
Show quoted text
Note: the potentiometer used in these circuits operates on 0 to 5 or 0-10 volts, so is quite safe. It is still a good idea to have it grounded and/or insulated well.
|
Re: Variable speed motors
Looks great
You till you work in wood.?
Dave?
|
Re: Cutting a 32mm thread on a mini lathe
Yes ads pay for site.?
Some where I had details on cutting a variable pitch thread. The used a South Bend Lathe 9A for camera lens.?
Hopping that makes to YouTube.?
You may fine up to 4 TPI [ 6mm]. Most time it is under 8 TPI [3 mm]
|
Re: Variable speed motors
On Wed, Feb 7, 2024 at 12:31 PM, davesmith1800 wrote:
Any photos you post of ban saw?
Yes, far too many of them.? I think I was a little overly proud of the project.? :-) https://projects.foxharp.net/bandsaw/ ?? paul
|
Re: Cutting a 32mm thread on a mini lathe
Hi Lone tree. I cut my thread with a normal bit. The item was an adaptor to join additional? lenses to a Canon G2 digital camera. It was an internal thread, 40mm dia, 0.75mm pitch, both ends ! Worked fine and completed on an imperial lathe. ???? ??????Ellis ? ? ? Don' think that will be cut with a normal threading bit.? ?(Yes, I endured the insufferable youtube ad to see this)? ?8^)
Lone Tree
|
Re: Cutting a 32mm thread on a mini lathe
Don' think that will be cut with a normal threading bit.? ?(Yes, I endured the insufferable youtube ad to see this)? ?8^)
--
Lone Tree, Colorado? ?USA
|
Re: Variable speed motors
I haven't tried using a treadmill motor controller and cannot be specific but hope this is of some help.
Lets start with some calculations from your motor DC specs:
Power = 120 volt x 21 A = 2,520 watts
1 HP = 745 Watts so divide by 745 gives 3.38 HP?
Calculating backwards from 2.5 HP
2.5 x 745 =?1,862.5 Watts
Divide by 120 gives 15.5 amps at full output.
This discrepancy probably means that the motor can handle up to 21A when under load.
When running at its maximum speed of 7000 RPM the armature is acting like a generator creating a 'back-emf' ?or voltage of -120 volts opposing the 120 volt input and that is why it can't run any faster than 7000 RPM. (otherwise it could be a recommended limitation depending on the centrifugal/centripetal forces that the armature can handle without flying apart.)
My Pulse Width Modulator circuit displays amps and volts and I have a tachometer as well. The data from that may help answer your question. Under heavy load the motor slows down, the back EMF decreases at lower RPM and input voltage is able to push through more amps. Eventually as the amperage increases the driver circuit will cut off the power supply to avoid burning out its components. ?In addition to that, the PWM circuit tries to maintain power output by increasing average amps as it switches on and off.?
I think the solution is to alter the gearing/pulleys to allow the motor to run at higher RPM.
Note: the potentiometer used in these circuits operates on 0 to 5 or 0-10 volts, so is quite safe. It is still a good idea to have it grounded and/or insulated well.
--
Evan
Lathe: 1955 Boxford Model A with screw cutting gearbox, power feed with several accessories, hand tools and a pillar drill press.
Try my Free Online Gear train Software:
You enter a thread pitch or TPI and it shows you a range of gear trains and gearbox setting to use and even a scale drawing of the gear train.
It also includes calculations for taper turning by the tailstock offset method, and cutting speeds.
It includes the specifications for many thread types eg metric, UNC, BSW, and BA.
Displays drill sizes for tapping threads at any percent thread depth (with full explanations).
My YouTube Channel and Playlist about using an engineers lathe: ?
Project to build a Greek Hero steam engine and measure its power output:?
|
davesmith1800
BuffaloJohn
Ralph Lehotsky
Evan