In order to help scientists save their valuable time during their research, and focus on those important things, a Publication Kit with icons of DK INFUSETEK Lab syringe pumps has been created, which allows the researchers to create reliable schematic diagrams and envision innovative applications for DK INFUSETEK's technologies. If you purchased or going to purchase from us, and pump icons are needed for your publication, just contact us by sending email to  sales@infusetek.com and ask for the Kit for free!  DK INFUSETEK, your eternal partner!

The Institute for Molecular Systems Engineering and Advanced Materials at Heidelberg University has incorporated DK INFUSETEK's high-performance intelligent syringe pump as an important component into the microfluidic station.ISPLab01 in Microfluidic Station Equipment List at IMSEAMIn 2022, the Institute for Molecular Systems Engineering and Advanced Materials (IMSEAM) was established at Heidelberg University, the oldest university in Germany, founded in 1386.  The mission of the IMSEAM is to create new materials, methods and technologies from synthetic and natural building blocks at the molecular level, considering complete systems from molecule to function. Four research groups and two junior research groups are currently working at IMSEAM on basic principles and applications for materials development, organic electronics, environmental technology and medicine. IMSEAM also offers core facilities in the field of device fabrication and characterization (IMSEAM core Facility), soft (bio) materials characterization and microfluidics for other universities.Core Facility for Microfluidics ResearchMain Equipment in Microfluidic StationMicrofluidics is an emerging field and is finding use in various disciplines. Starting from understanding flow mechanisms, to the generation of synthetic cells with droplet-based microfluidics, continuous flow microfluidics to complex organ-on-a-chip models. The Microfluidic station aims to provide valuable tools to every interested research group at the University. Among the microfluidic related instruments, syringe pump is a fundamental but critical one, it’s one of the most common methods used to transfer medium into the microfluidic chip, and capable of operating with very accurate and precise volumetric flow rates, ranging from milliliters to picoliters.Researcher setting up a microfluidics systemWith a 4.8" touchscreen and user-friendly control system, the pump is incredibly easy to use, and the working status can be monitored intuitively, which enables the researchers to use the pump instantly and save their valuable time. The pump is designed and has been proven to be a super durable and reliable device, which could greatly reduce the time researchers spend on equipment maintenance.ISPLab01 used for transferring polystyrene beadsDuring the research about establishing a novel method to modify microfluidic chips with thermoresponsive hydrogels using two-photon polymerized direct laser writing, which is conducted by Selhuber-Unkel Group, ISPLab01 had been widely used to transfer deionized water, polystyrene beads and cell solution, which again proved how important the syringe pump plays a role in laboratory.References 1. Microfluidics Core Facility- Microfluidics Equipmenthttps://www.imseam.uni-heidelberg.de/en/core-facilities/scientific-facility-for-microfabrication-and-microfluidics/microfluidics-equipment 2. Molecular Systems Science and Engineering | Master program at Heidelberg Universityhttps://www.youtube.com/watch?v=NzTIgYS_LNk 3. Two-Photon Direct Laser Writing of pNIPAM Actuators in Microchannels for Dynamic Microfluidicshttps://onlinelibrary.wiley.com/doi/full/10.1002/aisy.202300829

Suspension, a heterogeneous fluid containing solid particles large enough to settle, with particle size usually between 0.1 μm and 1mm, is a kind of commonly used liquid in various fields like biology, pharmacy, chemistry, and agriculture. Typical applications include: Electrolytes, Electrodes, Pharmaceuticals, Injecting cells, Pesticides, etc. Some applications require precise infusion or spraying of suspensions over a long period of time, or solid particles that are large and prone to precipitation, so the medium needs to be thoroughly stirred in the syringe to maintain uniform distribution of particles in the liquid. For these applications, DK Infusetek has specially launched the MIX60  stirring syringe pump. The MIX60 stirring syringe pump has injection performance similar to ISPLab01, but with the addition of a stirring mechanism and a 10mL glass syringe with a stirrer inside. By the rotation and linear motion of the stirring mechanism, it ensures that the suspension maintains a good mixing state during the infusion process.This syringe pump has several features:1. Stirring can be done at a fixed position or reciprocate along the syringe2. As the amount of liquid in the syringe decreases, it can automatically change the reciprocating distance and provide limit protection3. Up to 20 working steps can be set to achieve step-by-step infusion4. The syringe control system and stirring mechanism can be controlled separately or synchronously, and the stirring speed can be adjusted        to meet different application needs5. Adopting a sturdy and textured aluminum alloy housing, which is elegant and durable If any comments or suggestions about this model, or if you would like to customize a model that can be adapted to other sizes of syringes, please feel free to contact us by sending email to sale@infusetek.com

Due to the diverse needs of our customers for liquids, especially for some industrial users who need to transport liquids containing particles such as graphene and carbon powder, the ordinary PTFE valves will suffer severe wear, resulting in decreased valve performance or even damage. Therefore, DK INFUSETEK has specially developed a new accessory series of Ceramic Alumina Valve.The series of valves includes two types and five models. One is non-distribution valve, and the other is distribution valve; Non-distribution valve have one model of 3-way valve, while distribution valves have four models: 3-way, 4-way, 6-way and 9-way.Ceramic alumina valves mainly features as following:1. The working temperature range is wider, from 0-100℃, especially suitable for high-temperature applications.2. The material is sturdy and has a very long service life. Under normal use, it will hardly be damaged. The valves are available on SP30/60-1A and ASD60 Series, and the 3-Port Non-Distribution Ceramic Valve is even available on CFSP-I, which is a great news for the customers who are interested in using our constant flow pump in coating industry.

For years, there are requirements for high-precision continuous material dosing in the fields of precision spraying, cell culture, drug delivery, chemical synthesis, food additives adding, etc. Numerous pump products are existed in the market, however, each of them has its own problems in the above-mentioned application fields: For the piston pump, every piston movement creates a pulsation; Peristaltic pumps have the same problem, and when the pipes are worn, the flow rate will decrease and won’t be able to keep constant for a long time; Early traditional laboratory syringe pumps were unable to continuously deliver precise and accurate fluids for a long time due to limitations in syringe size; Later, in response to this problem, a bidirectional push-pull injection pump emerged, which solved the problem of unable to continuously transport fluid, but still unable to maintain flow stability for a long time, causing interruptions, especially in certain laboratory application fields, which couldn’t meet the needs of use. In order to meet such market demand and solve user pain points, Constinfuse® Constant Flow Syringe Pump, which is also called CFSP-I pump has been developed by the R&D Team of DK Infusetek. It truly allows the liquid to be delivered stably, accurately and continuously, with a flow rate range for water quality fluids from 0.06 μL/min to 70mL/min, the accuracy is less than ±0.05%, and the maximum pressure can reach 2 Mpa. CFSP-I Constant Flow Syringe Pump helps you achieve for more in your experiments or producing process. Welcome inquiry, and look forward to your feedback so that we could have the opportunity to continuously meet your needs.

1. Plug in and turn on Automated Lateral Flow Reagent Dispenser (ALFRD) unit and external syringe pump.2. Program syringe pump flow rate according to manufacturer’s instructions.    a. See Figures 2 and 3 in Appendix A for recommended flow rates.    b. ClaremontBio recommends using DK INFUSETEK SPLab/ISPLab Series Syringe Pump.3. Select voltage on power supply. A range of 4.5 – 6V is recommended.     a. If a faster head speed is desired, a power supply can connected in lieu of the provided power supply; However, 12V is the maximum voltage that can be used for the ALFRD.Figure 1. Voltage dependence on head speed: Voltage of ALFRD varied from 0 to 12V. Distance travelled = 30 cm.4. Secure dispense tips into desired placement slot on dispense tip head using provided Allen wrench.         a. For best results, position tips very close to the membrane surface, without direct contact (unless contact is desired).    i. Actual height is dependent on membrane type and thickness.     b. Tips positioned too high may result in liquid droplet formation or uneven lines.      c. To test positioning, place membrane on dispense table and initiate switch to cause table to move. Drag on membrane will be apparent.     i. Once desired height is established, it may be helpful to mark position on metal post of dispense tip with a permanent marker. 5. Once dispense reagents have been prepared, remove air bubbles prior to use in ALFRD (i.e. quick centrifugation, nitrogen air purge).    a. A volume of 200 µl or greater is recommended.    b. When solution is running out during dispensing, lines will appear thinner and may produce varying results. 6. Draw up each solution into a syringe, taking care to minimize air bubbles.7. Attach tubing to blunt syringe needle and secure filled syringes on syringe pump according to manufacturer’s instructions.8. Turn on syringe pump to prime solution(s) through tubing and dispense. Turn off pump and wipe away residual liquid.9. Secure membrane onto ALFRD dispense table using magnets.10. Turn on syringe pump, followed immediately by dispense table switch.11. Once dispense tips have reached the end of the table and stopped, turn off the pump.12. Remove membrane from table.13. Return dispense tips to their original position by reversing the table switch.14. Wipe off any residual liquid from table.15. Repeat for each membrane as necessary.

An intelligent syringe pump is a smart machine that moves liquid very slowly and carefully. It uses a syringe to either push or pull liquid. Many labs use this pump when working with very small amounts of liquid. The pump helps the liquid move smoothly and steadily. Another name for this device is a programmable syringe pump. The person taking the test can set the speed, time, and amount of liquid before it starts. This saves time and makes lab work easier. This is why an intelligent syringe pump is such a useful tool in modern labs.Why Flow Rate Control Is ImportantThe flow rate tells you how quickly the liquid moves through the syringe. The liquid has to move very slowly in a lot of lab tests. With a microflow syringe pump, you can precisely control liquids. It can move a liquid drop by drop with great accuracy. The pump is also used by a lot of labs as an infusion withdrawal pump. This means that the pump can move liquid in two different ways. This is why the pump is good for a lot of tests. Changing the direction is easy for scientists. This is why the pump is useful for many research tasks.Easy Use with Touch Screen TechnologyMany modern pumps now have a touch screen syringe pump control system. The screen is clear and easy to understand. Users can touch the screen to set the flow speed, time, and liquid amount. The buttons and menus are simple to follow. Even new lab workers can learn the system quickly. The screen also shows helpful information while the experiment is going on. Users can easily see the flow speed and running time. The user can quickly change the settings if something needs to be changed. This helps you save time and make fewer mistakes. Because of this simple control, many labs prefer touch-screen intelligent syringe pumps.Main benefits include:Simple menuFast setupClear screen displayEasy setting changesIdeal for Micro Liquid ExperimentsMany science tests use very small amounts of liquid. In biology and chemistry, even a tiny drop can be important. An intelligent syringe pump for micro liquids is made for this kind of work. It allows users to move very small amounts of liquid with high control. This helps protect important samples. The pump can also be used as a microfluidic syringe pump. Microfluidic systems move fluids through very small tubes or channels. These channels need a steady, slow flow. The test might not work if the liquid doesn't move evenly. The pump keeps the liquid flowing smoothly. This makes it great for research in this technology.Safety Features That Protect ExperimentsSafety is very important in laboratories. Modern pumps include safety systems to protect the equipment and the test samples. A blockage protection pump can detect when the tube becomes blocked. If the liquid cannot move, the pump stops automatically. This helps keep things from getting broken or leaking. This safety system also keeps important samples safe. Some liquids used in labs are hard to find and cost a lot of money. If you lose them, your research work may take longer. The system reacts quickly if something goes wrong with a blockage protection pump. The pump stops before serious damage occurs. This helps scientists feel more confident during experiments.This feature helps:Protect lab machinesStop liquid leaksReduce test failureKeep users safeCommunication and Smart ControlModern laboratories often connect machines. A modbus compatible pump can connect with computers and other lab equipment. This allows the pump to work as part of a bigger system. Scientists can control the pump from a computer. This makes it easier to run more than one test at a time. This smart connection also helps keep track of experimental data. The computer can keep track of the flow speed and the time it takes to work. This makes it easier to read and keep track of research records. Because of this, many advanced labs choose a modbus compatible pump for their work.Benefits include:Computer controlEasy machine connectionAutomatic test controlBetter data recordsMulti Mode Pump OperationA multi-mode infusion pump can work in different ways. This helps scientists use a single pump for multiple types of experiments. Each mode changes how the liquid moves. Infusion mode pushes liquid forward slowly. Withdrawal mode pulls liquid back into the syringe. Some pumps can also work in continuous flow mode. The liquid flows all the time in this mode. Another mode lets you set timers. The pump runs for a set time and then stops. These options make the Intelligent Syringe Pump very flexible for research work.Common modes include:Infusion modeWithdrawal modeContinuous flow modeTimed operationIntelligent Syringe Pump Models for Laboratory UseISPLab01-ProISPLab01-Pro is made for laboratories that need very high accuracy. It provides a very stable flow of liquid. The system also includes a clear screen that makes it easy for users to set the pump. Researchers can program detailed settings for long experiments. This helps deliver liquid with great accuracy. The pump is also made to last a long time. Its strong parts keep the system running smoothly for a long time. Even during long tests, the flow remains stable. Because of this, ISPLab01‑Pro is a good choice for advanced research laboratories.Key features:High-precision controlAdvanced programmingStrong safety systemStable micro-liquid flowISPLab01ISPLab01 is a dependable laboratory syringe pump for daily lab work. Many laboratories use it for routine testing. It's simple to learn and use the system. After a short training session, new staff can start using it right away. The pump moves liquids smoothly for many tests. Its small design fits well on laboratory tables. Even though it is simple, it still provides strong accuracy. Because of this, ISPLab01 is a practical choice for many laboratories.Main benefits:Easy to useStable flowSmall designGood for many lab tasksISPLab02ISPLab02 is designed for flexible laboratory work. It supports many experiment setups. Researchers can easily adjust flow settings to match different tests. The pump works well and quietly while it's running. This model can also work in a number of different ways. It can control very small amounts of liquid flow very well. Many research teams use ISPLab02 because it offers both flexibility and accuracy. This makes it a reliable choice for many laboratory tasks.Important features:Multiple working modesAccurate microflow deliveryStrong safety protectionQuiet operationHigh-Quality Intelligent Syringe Pump SolutionsDuko Industrial Technology (Shanghai) Co., Ltd. is a manufacturer of advanced laboratory pumps. The company focuses on product quality and smart design. Their pumps are used in many research labs worldwide. Scientists trust their tools to accurately control liquids. The company makes dependable goods, such as programmable syringe pump devices and microflow syringe pump systems. These intelligent syringe pumps help researchers complete experiments with better accuracy.An intelligent syringe pump helps labs move liquid slowly and safely. It provides very accurate flow measurements for small liquid tests. With smart control and safety features, it is a useful tool for many laboratories.FAQsWhat is an intelligent syringe pump used for?It accurately moves small amounts of liquid in labs.What is a programmable syringe pump?It lets you set the flow and time before use.Can the pump handle very small liquid volumes?Yes, it works with small amounts of liquid.What happens if the tube becomes blocked?The pump stops automatically.Can the pump connect to other lab systems?Yes, it can connect with computers.

A constant flow syringe pump is a simple machine that delivers liquid at a steady rate. It moves the liquid slowly and smoothly. The flow doesn't stop or start suddenly. This helps people be very careful with liquids. When the flow stays steady, it's easier to trust and more accurate. A lot of the time, people in labs work with very small amounts of liquid. This is why they often use a microfluidic syringe pump. This pump can move liquid in very small drops. It keeps the liquid flowing smoothly through small tubes. Small fluid experiments, chemical research, and biological testing are types of scientific tasks that benefit from this.Why Choose a Constant Flow Syringe PumpA constant flow syringe pump is designed to deliver a stable, controlled liquid flow. Users can set the exact flow speed they need. After that, the pump keeps the same speed for a long time. This facilitates the proper operation of multiple tests. This pump is used in labs because it reduces errors. The same amount of liquid may be repeatedly given with a high-precision syringe pump. This makes the results more reliable. When liquid flow stays steady, scientists can compare results more easily.Benefits include:Smooth liquid movementEasy flow speed controlStable work for a long timeGood for labs and factoriesIntelligent Control SystemNew pumps now have smart control systems. A constant flow syringe pump with intelligent control makes it easy for users to manage the pump. The system checks the flow and makes sure it stays stable. This helps keep things from going wrong during delicate lab work. Also, if something changes, the system can notify people. Some models work as closed-loop syringe pumps. This shows the pump continually checks the flow. If the flow changes, the pump automatically adjusts. This smart control helps keep the liquid moving at the correct speed.Easy Programming FunctionsA lot of pumps these days can be programmed to work like syringe pumps. This means that users can make simple programs. The pump moves the liquid according to what the program says. Users can choose when to start, how fast the flow should be, and when to stop. Programming saves time and work. Users can run the same program multiple times instead of having to reset the pump over and over again. This is very useful for tests that need to do the same things over and over. It keeps things simple and neat.Programming features may include:Adjustable flow speedTime-based liquid flowMulti-step flow controlAuto start and stopPerfect for Microfluidic ApplicationsMicrofluidic systems use very tiny tubes. Liquid must move through them very slowly and smoothly. A constant flow syringe pump works very well for this job. It keeps the liquid moving at a steady rate. A microliter syringe pump can control very small volumes of liquid. It can move liquid at microliter levels. Inside small channels, the flow remains smooth. As a result, syringe pumps are often used in labs for microfluidics in chemical and biology research.Continuous Liquid TransferSome systems need liquid to flow continuously, without stopping. A constant flow syringe pump can serve as a continuous flow syringe pump. It keeps pushing liquid forward at the same speed. The pump may function as a continuous fluid transfer pump as a result of this constant flow. It is used in many automated systems in labs. Some factories also use it in production lines. The steady liquid supply helps machines work smoothly.Common uses include:Chemical researchFluid testing systemsAutomatic lab setupsIndustrial liquid dosingTouch Screen OperationA lot of modern pumps have simple displays. Users can easily control a syringe pump with a touch screen. Users can quickly see and change settings on the screen. The screen also shows information that is important. It can show things like flow speed, running time, and more. The pump is easy to use, even for beginners. The clear screen lets people see the pump while it runs.Advantages include:Clear displayFast-setting controlReal-time monitoringEasy program controlDispensing Mode for Flexible UseSome pumps include a syringe pump with dispensing mode. This mode lets the pump release liquid in steps. Each step gives the same amount of liquid. This feature helps labs add liquid to many samples. Every quantity is kept constant by the pump. Tests are simpler and fair as a result. It is helpful for a variety of laboratory tasks.It helps with tasks such as:Lab sample preparationChemical dosingControlled testingUse in Industrial and Laboratory WorkA constant flow syringe pump is useful in many places. Labs use it for research work. Factories use it for controlled liquid supply. Many companies use it as an industrial syringe pump in automated machines. It may also be used in research facilities as a laboratory infusion pump. Because of this, it is useful for both industry and research.Applications include:Chemical research labsMedicine researchBiotechnology testingPrecision fluid systemsCFSP-I/CU-I Constant Flow Syringe PumpThe Constant Flow Syringe Pump model CFSP-I/CU-I is designed for stable, accurate liquid control. It uses smart control technology and a strong design. This helps the pump maintain a steady flow of liquid. This model is good for labs, research centers, and industrial systems. It is effective for precision activities such as microfluidic studies. The pump provides to be easy, reliable, and simple to use.Key features:FeatureDescriptionFlow ControlStable and smooth liquid flowIntelligent SystemSmart monitoring and controlPrecisionGood for microfluidic experimentsOperationEasy control and programmingReliabilityDesigned for long worktimesConstant Flow Syringe Pump for Labs and Industry UseGet the latest syringe pumps from Duko Industrial Technology (Shanghai) Co., Ltd. The company provides modern fluid control machines for labs and industry. We share details about pump models, features, and uses. Visitors can learn how these pumps help research and production systems. The company focuses on strong quality and simple design for reliable performance.A constant flow syringe pump provides smooth, accurate liquid control. It is simple to use and works well for labs and industry.FAQsWhat is a Constant Flow Syringe Pump?A constant-flow syringe pump moves liquid at a steady speed. It helps control small amounts of liquid in labs and research.Where is a syringe pump used?It is used in laboratories, chemical research, biotechnology tests, and industrial fluid control systems.Why is a high-precision syringe pump important?A high-precision syringe pump delivers the exact amount of liquid. This helps experiments stay accurate and repeatable.Can a syringe pump be programmed?Yes. A programmable syringe pump lets users set flow speed, time, and steps for automatic operation.Is it useful for microfluidics?Yes. A syringe pump for microfluidics controls very tiny liquid flows in small channels.