Pretty cool video I work with these pumps a lot. Just one note, real peristaltic pumps have a way to remove and dispose of the entire tubing without having to take the whole pump apart. Otherwise, it kind of defeats the purpose of this type of pump, which is to avoid contamination.
@@jesperwall839 Dialysis machines are good examples of rotary peristaltic pumps since the entire circuit is in contact with blood. The whole length of tubing is disposed of after every run. Regular IV infusion pumps use the same principle, but they work in a linear fashion - i.e.; the tubing is straight and the rollers (cam followers) roll against it in a straight line like a wave.
@@jesperwall839 I've seen them used to move foodstuff liquids before. They're good for moving or metering precision amounts of liquid in a sterile environment or in a situation where one would want to dispose of the entire tubing circuit after use or periodically. They're self-priming, a simple design, and can move pretty viscous things like syrups. They can be easily serviced in the field by untrained personnel and may even be designed as such. It's another design to keep in the mental toolbox of 'using the right tool for the job'.
Nicely made project with proper bearings etc. Nite that a commercial peristaltic pump would typically have the rollers mounted on spring arms to apply a constant pressure to the tube, irrespective of its thickness. This design relies only on the clearance between the rotor and housing so a slightly thicker walled tube would cause binding, and slightly thinner would cause leakage.
I really like how you marked the radius at which the roller axles needed to be drilled while the part was on the lathe - a clever trick I don't think I've seen before!
Instead of the brass rollers, you could have used plastic (nylon or pp) rollers with a thin groove to keep the pipe in place. There will be a tendency to drag the silicone pipe while pumping
I spent almost 2 semesters in college, trying to make one on CNC machines for a part of a larger class project. (I needed something to pump small bits of oil into bearings) I really didn’t do anything different from what you did. Everything was machined to a couple thousands tolerance. Used a low speed high torque motor like you did. I could get them to half work, but not reliably. I also 3D printed many different styles of different pieces before machining anything. Eventually I got one to work, made about 20 of them and not a single one of them worked. I’m thankful covid caused campus to shut down back in 2020 cause I would have pulled out all my remaining hair trying to get them to work.
muito bom seu trabalho quando vejo pessoas com esse potencial fico imaginando se essas pessoas tivessem acesso a grandes laboratório seria verdadeiros cientistas .
Very nice build. Those type pumps can be used for corrosive fluids as well as toxic fluids without any danger of contamination or damaging the pump parts. Good pump for making a continuous flow Ferric Chloride spray circuit board etcher setup.
Excelente proyecto muy bien desarrollado y mejor ejecutado , una bomba de fluidos magnífica , gracias por compartir tanta creatividad y conocimientos , un saludo cordial y por supuesto un gran like desde Narón , Galicia (España) 🤓 😜
You have used a special method of pumping that has little efficiency. Your work was new to me, but I don't think anyone uses this method. Thanks. Do not be tired
I remember my dad and I had a pump like that for pumping fuel into our RC planes. Every other guy at the field had the expensive electric pumps but ours was so much faster I never saw the point of upgrading.
Jedyny minus tych pomp to szybkie zużywanie się wężyka. Pracowałem na utrzymaniu ruchu w pralni chemicznej i podawanie wszystkich detergentów było zrobione na tych pompkach (8 na pralkę). Średnio raz w miesiącu trzeba było wymieniać większość wężyków.
Fine job :-) I would replace the brass rolls with real ball bearings - less work, more comfort, besser surface and probably a longer lifetime of the hose ;-)
2:57 To be pedantic: you are connecting the motor via a belt drive, which consists of a belt running over two pulleys. Gears specifically engage directly with another gear, and reverse rotation, unlike pulleys, which need a belt but don't reverse the direction of rotation. Interesting video otherwise, didn't realize you could build a pump lathe-only that easily
Eco-Lab uses peristaltic pumps to dispense liquid soap at millions of restaurants. I don’t know if they sell these pumps used, but they probably have ten thousand old ones, sitting in a warehouse. The problem with peristaltic pumps is that the fluid line gets squished, over and over; so it occasionally needs to be replaced. For that reason, peristaltic pumps are not such a great solution. But they’re cheap and accurate. Peristaltic pumps are only good if you’re dispensing an expensive fluid. The same thing could be accomplished by placing the fluid-line (with a one-way check valve inside) onto an electric solenoid. When the solenoid actuates with great speed, a certain amount of liquid will pass through the check valve. At the end of travel, a spring-loaded valve-gate would swing closed, just as the solenoid returns to its original position. So you could say that the fluid is stationary, it’s the pump that’s moving. Like a peristaltic pump, this system could be used to dispense small volumes of liquid with accuracy. It wouldn’t be infinitely variable, but companies like Eco-Lab aren’t looking for that kind of infinite adjustment anyway. Possibly increments of 10 cc. Actually, you could have eight of these kinetic check valves operating in unison to make a pump which is not centrifugal, and not positive displacement, either. It’s a bastard red-headed stepchild pump.
Interesting, never heard of this kind of pump before. Having said that, it would have been a lot simpler by directly attaching the rotor to the pump housing with a shaft. Less parts, less points of failure and increased efficiency.
This kind of pump is used in the medical field. It can pump blood inside of a sterile tube without being subject to contamination inside the pump itself.
Wow, that was cool. Perhaps you (or someone) can clear something up for me - why 3 rotating wheels on the tube, why not 2 or 4? 3 feels right, but I can't put my finger on why.
Very interesting to look, this contraption could be also for small CNC spindle without rollers/housin :D Builded similar with resin printed parts 🤔 for spraying chemicals
Now I KNOW I did not just see you cut those zip ties with the good fabric shears did I!????!!!! 21 years of marriage I if there is anything I have learned, I do not touchthe fabric shears. Also, 40+ years of using zip ties, use a flush cutter to cut them flush with the catch. Those sharp cut ends will slice you open just as fast as a straight razor. I have reached my hand into a server rack before and pulled it back out with blood dripping, darned previous tech used zip ties and cut them with scissors at an angle... I spent more time cutting those zip ties out and replacing them with velcro and twist than I did replacing the power supply on the server that was throwing an error.
I thing this kind of pumps is used in medical machine spatially in blood purifying system good gob. I will use this idea for water feed in steam hobby machines
jeszcze kilka takich jakiś ESP aplikacja na telefon i maszyna do drinków (drinkomiks) gotowy, zaletą takich pompek jest możliwość dokładnego dozowania płynów
Ну да, берём обычный металлообрабатывающий станок(но пилим всё равно ножевкой) берём сверлильный станок... И вуаля, элементарно сделали насос... Гениальная система натяжения ремня тоже потрясает своим отсутствием. 🤦♂️
Te di positivo por qué no es otra navaja pero las bombas de fuerza son inútiles en mejor una de 2 o 3 pistones ya que tienes Router CNC la puedes crear fácilmente lo único es que cada pienso tiene resorte de muelle y coginete apresado más que el eje de movimiento tiene la cuña de activación en teflón . En 5° De EGB cree una bomba de fuerza de 12 pistones con un mini motor de 1Kw era capaz se subir fluidos asta más de 50 metros y la estadística de vida que el cuerpo de la bomba industria la taso en 180 años esa que to has fabricado la vida útil son solo 2 a 7 años según cuántas horas tenga declarado el tubo de goma acrílica
Great video that clearly shows all the conception, design, engineering, construction, and testing of the pump. Great job!
Pretty cool video I work with these pumps a lot. Just one note, real peristaltic pumps have a way to remove and dispose of the entire tubing without having to take the whole pump apart. Otherwise, it kind of defeats the purpose of this type of pump, which is to avoid contamination.
Mostly used in medical applications I guess?
They are used in tube feeding devices for instance
@@jesperwall839 Dialysis machines are good examples of rotary peristaltic pumps since the entire circuit is in contact with blood. The whole length of tubing is disposed of after every run. Regular IV infusion pumps use the same principle, but they work in a linear fashion - i.e.; the tubing is straight and the rollers (cam followers) roll against it in a straight line like a wave.
@@jaymzx0 Yeah, that’s what I have seen these pumps working in action. But I guess they have more uses than that?
@@jesperwall839 I've seen them used to move foodstuff liquids before. They're good for moving or metering precision amounts of liquid in a sterile environment or in a situation where one would want to dispose of the entire tubing circuit after use or periodically. They're self-priming, a simple design, and can move pretty viscous things like syrups. They can be easily serviced in the field by untrained personnel and may even be designed as such. It's another design to keep in the mental toolbox of 'using the right tool for the job'.
Nicely made project with proper bearings etc. Nite that a commercial peristaltic pump would typically have the rollers mounted on spring arms to apply a constant pressure to the tube, irrespective of its thickness. This design relies only on the clearance between the rotor and housing so a slightly thicker walled tube would cause binding, and slightly thinner would cause leakage.
I really like how you marked the radius at which the roller axles needed to be drilled while the part was on the lathe - a clever trick I don't think I've seen before!
Instead of the brass rollers, you could have used plastic (nylon or pp) rollers with a thin groove to keep the pipe in place. There will be a tendency to drag the silicone pipe while pumping
Oglądanie obróbki skrawaniem jest takie satysfakcjonujące. Fajny projekt.
I spent almost 2 semesters in college, trying to make one on CNC machines for a part of a larger class project. (I needed something to pump small bits of oil into bearings) I really didn’t do anything different from what you did. Everything was machined to a couple thousands tolerance. Used a low speed high torque motor like you did. I could get them to half work, but not reliably. I also 3D printed many different styles of different pieces before machining anything. Eventually I got one to work, made about 20 of them and not a single one of them worked.
I’m thankful covid caused campus to shut down back in 2020 cause I would have pulled out all my remaining hair trying to get them to work.
This surprises me, since they seem like such simple machines... what were the problems that made them "not work"?
Good information sharing my Friend 👌👌👌🌹🌹🌹🔔🔔
muito bom seu trabalho quando vejo pessoas com esse potencial fico imaginando se essas pessoas tivessem acesso a grandes laboratório seria verdadeiros cientistas .
Very nice build. Those type pumps can be used for corrosive fluids as well as toxic fluids without any danger of contamination or damaging the pump parts. Good pump for making a continuous flow Ferric Chloride spray circuit board etcher setup.
Great! Only if you have a complete machine shop at your disposal.Dr. Skeggs would be proud of you.
Excelente proyecto muy bien desarrollado y mejor ejecutado , una bomba de fluidos magnífica , gracias por compartir tanta creatividad y conocimientos , un saludo cordial y por supuesto un gran like desde Narón , Galicia (España) 🤓 😜
Nice work. This a one fierce peristaltic pump. We would recommend stepper motor instead of the dc brushed motor and the belt but we are biased.
Zaletą tych pomp jest dokładność dozowania.. są stosowane w automatach do kawy.. pozdrawiam 👍👍
Excellent project 👍 I liked it
Im studying for my BEng. And I dont think ive ever paid so much attention. Its almost like ASMR for Engineering nerds!
You have used a special method of pumping that has little efficiency. Your work was new to me, but I don't think anyone uses this method. Thanks. Do not be tired
أنا مشترك جديد من العراق واحب اعمالك الرائعة
Nice job
Thanks for taking the time to make the video and share..
Nice building, congratulstions. Thanks for being clear and direct
Simple hand crank versions of this type of pump are used for RC model methanol fuel to prevent moisture contamination.
I remember my dad and I had a pump like that for pumping fuel into our RC planes. Every other guy at the field had the expensive electric pumps but ours was so much faster I never saw the point of upgrading.
Jedyny minus tych pomp to szybkie zużywanie się wężyka. Pracowałem na utrzymaniu ruchu w pralni chemicznej i podawanie wszystkich detergentów było zrobione na tych pompkach (8 na pralkę). Średnio raz w miesiącu trzeba było wymieniać większość wężyków.
Super gadżet :) milion subscribe pęknie chyba w tym roku.
Fantastic work, Maciej! 😃
Beautiful little pump!
Happy new year! And stay safe there with your family! 🖖😊
Fine job :-) I would replace the brass rolls with real ball bearings - less work, more comfort, besser surface and probably a longer lifetime of the hose ;-)
What a beautiful work... And a delightful hobby. If I have resources and time, for equipment and projects like this...(...) Congrats !
Super Vorstellung wie du die Pumpe hergestellt hast . MFG. Norman
2:57 To be pedantic: you are connecting the motor via a belt drive, which consists of a belt running over two pulleys. Gears specifically engage directly with another gear, and reverse rotation, unlike pulleys, which need a belt but don't reverse the direction of rotation.
Interesting video otherwise, didn't realize you could build a pump lathe-only that easily
That is some good metal work. Thanks!
I like it very much. Great Idea bro 👍👍
Pomysłowy spryciarz z ciebie. Gratulacje!
Perfect kind of pump for dosing additives.
Interessante. 🤔👏👏
I never knew these pumps operated on such a simple principle.
Very cool job! Thanks for sharing!
Znowu Coś ciekawego 👍Podoba mi się 😎
Cool project. Thanks. Subscribed!
when simple needs industrial grade equipments
Danish idea ... we have it in our printing machine as ink pump ... LooooL it looks like cow milking machine .... thanks & Like
Eco-Lab uses peristaltic pumps to dispense liquid soap at millions of restaurants. I don’t know if they sell these pumps used, but they probably have ten thousand old ones, sitting in a warehouse.
The problem with peristaltic pumps is that the fluid line gets squished, over and over; so it occasionally needs to be replaced. For that reason, peristaltic pumps are not such a great solution. But they’re cheap and accurate.
Peristaltic pumps are only good if you’re dispensing an expensive fluid. The same thing could be accomplished by placing the fluid-line (with a one-way check valve inside) onto an electric solenoid. When the solenoid actuates with great speed, a certain amount of liquid will pass through the check valve. At the end of travel, a spring-loaded valve-gate would swing closed, just as the solenoid returns to its original position. So you could say that the fluid is stationary, it’s the pump that’s moving.
Like a peristaltic pump, this system could be used to dispense small volumes of liquid with accuracy. It wouldn’t be infinitely variable, but companies like Eco-Lab aren’t looking for that kind of infinite adjustment anyway. Possibly increments of 10 cc.
Actually, you could have eight of these kinetic check valves operating in unison to make a pump which is not centrifugal, and not positive displacement, either. It’s a bastard red-headed stepchild pump.
Great ingenuity !
A great option for waste oil furnaces ... The only question is how long the hose can withstand
Nicely done and well thought out! Are you going to use it for something specific? Thanks for sharing your impressive design and build.
I would like to know what psi that pump will put out.
Cool video 👍
Amazing 🤩
I like that hacksaw!
What brand is it?
I am wonder, what is/will be the lifespan of the hose inside the pump..? Any experience..?
насосы по такому принципу работы встречал в струйных принтерах. Это помпа, качающая отработку чернил в памперс.
how long the hose stand before ripped
Interesting, never heard of this kind of pump before. Having said that, it would have been a lot simpler by directly attaching the rotor to the pump housing with a shaft. Less parts, less points of failure and increased efficiency.
This kind of pump is used in the medical field. It can pump blood inside of a sterile tube without being subject to contamination inside the pump itself.
@@djkommando Ah okay, thanks for the info.
If the motor had the proper speed and torque.
Very cool , I want to make more stuff on a lathe .
Looks like a project to get me started.
Are the plans available?
Good work. Knives cool video.
All you need now is a pressure flow curve and you have a very competitive product ;)
Well built for sure, although it certainly cost you more than buying one off ebay 😅 says the guy that has also built a few of these himself 😁
Please explain how it works. Keith
Wow, that was cool. Perhaps you (or someone) can clear something up for me - why 3 rotating wheels on the tube, why not 2 or 4? 3 feels right, but I can't put my finger on why.
These types of pump is used in inkjet printers to suck ink from printers heads to prime it and also to clean them.
What is the basic purpose of this pump?
Very impressive !!!!!!!!!!!!!
Very interesting to look, this contraption could be also for small CNC spindle without rollers/housin :D
Builded similar with resin printed parts 🤔 for spraying chemicals
wow very good ❤️❤️
Good simple pump at home
I am looking for slightly larger pump. Tube id 8.0 mm dc24v motor, rpm 200 approx. Flow rate 150 ml per min. Any suppliers? I need 6 pumps.
why not ball bearings instead of those brass rollers?
Now I KNOW I did not just see you cut those zip ties with the good fabric shears did I!????!!!! 21 years of marriage I if there is anything I have learned, I do not touchthe fabric shears.
Also, 40+ years of using zip ties, use a flush cutter to cut them flush with the catch. Those sharp cut ends will slice you open just as fast as a straight razor. I have reached my hand into a server rack before and pulled it back out with blood dripping, darned previous tech used zip ties and cut them with scissors at an angle...
I spent more time cutting those zip ties out and replacing them with velcro and twist than I did replacing the power supply on the server that was throwing an error.
عبكرى يفنان.
Bonne vidéo. Bonne année
Great! I will copy it
Please make a ultrasonic sonicator for laboratory
Invert pulleys to get more pressure
I thing this kind of pumps is used in medical machine spatially in blood purifying system good gob. I will use this idea for water feed in steam hobby machines
Can you do small hydraulic pump next?
genial now only need a electromecanical workshop.
I can't believe you went to all that effort to make the pump, beautiful housing ect then cable tied the motor... Wtf? 😂
There is always a complicated way to make simple things
a dialysis pump. great job .
👌 👏👏👏
Зделайте себе такое когда вам лень с кружки в кружку перелить без применения фильдруёщёго элемента!
jeszcze kilka takich jakiś ESP aplikacja na telefon i maszyna do drinków (drinkomiks) gotowy, zaletą takich pompek jest możliwość dokładnego dozowania płynów
Ciekawe jak z żywotnością węża wodnego. Wiem, że to pracy wykonywać raczej nie będzie no ale...
Parece brujeria,oh!.
Ну да, берём обычный металлообрабатывающий станок(но пилим всё равно ножевкой) берём сверлильный станок... И вуаля, элементарно сделали насос... Гениальная система натяжения ремня тоже потрясает своим отсутствием. 🤦♂️
Mai multe spire la furtun si mai elastic+2 role presoare.
looks good but inefficient
Sir please make a record player machnizm
Nice!
"Simple."
Nice pump. Foolish title.
Video upload regularly
"Making a simple pump" - Proceeds to use expensive heavy machinery to create the first part.
Interesting...
50cent motor, $300 in labor and aluminum.
Very inefficient, as we can observe you fast forward the film, to give an expression of high speed pumping action done by this pump.
And you could just take one jar and pour it into the other... No need to drill anything...
Good
Te di positivo por qué no es otra navaja pero las bombas de fuerza son inútiles en mejor una de 2 o 3 pistones ya que tienes Router CNC la puedes crear fácilmente lo único es que cada pienso tiene resorte de muelle y coginete apresado más que el eje de movimiento tiene la cuña de activación en teflón .
En 5° De EGB cree una bomba de fuerza de 12 pistones con un mini motor de 1Kw era capaz se subir fluidos asta más de 50 metros y la estadística de vida que el cuerpo de la bomba industria la taso en 180 años esa que to has fabricado la vida útil son solo 2 a 7 años según cuántas horas tenga declarado el tubo de goma acrílica
Top!
SUPER
güzel video
Very interesting 🤔 🧐 Do you recycle♻️ the wasted material? So much waste