Product Description

Keda Shz-III High Quality Small Water Ring Vacuum Pump Price

Product Description

The circulating water vacuum pump is a laboratory vacuum generator that uses a water jet to generate a vacuum. This machine is used to provide vacuum conditions for the process of evaporation, distillation, crystallization, drying, sublimation, filtration, degassing, decompression, and so on, particularly be suitable for labs and small-scale tests in industries such as universities and colleges, scientific research institutes, chemical industry, pharmacy, biochemistry,  foodstuff, pesticide, agricultural engineering, biological engineering.

Product Parameters

 

Model		SHZ-D	SHZ-D four-meter, four tap
The machine Performance	Power(W)	180	370
	Voltage(V/Hz)	220/50
	Flow(L/min)	60
	Lift(m)	8
	Body material	Anti-corrosion/1Cr18	Anti-corrosion
The machine performance	Max. pressure (M Pa)	0.098
	Sucking rate for single tap(L/min)	10
	Quantity of tap (Pcs)	2	4
	Tank capacity(L)	15
Dimension(mm)	4362 Main Markets: Central America, Mid East, Oceania, Africa, South America   Packaging & Shipping Pre-sale Service: 24 Hours online service for your consult. Help choose the right model, and a series of services, people, and advise.  Provide discount for many sets of order Choose a payment term you convenient. Promptly production and delivery, inform you in time.   After sale service: 1 year warranty service and all-life maintenance. Technical Engineer is available for oversea training. Free change for some parts Remote control technical consult Maintenance plan Packaging: -After use cartons inside, outside with wooden case packaging; -Both neutral and customized packaging can be available. Shipping: -We can ship the goods to you by International Express such as DHL,TNT,EMS,FedEX and so on and you can also choose the appropriate 1 based on your timeline and budget. Besides, you can definitely choose to use your own shipping agent. Shipping method Note Express Door to door, very convenient, don’t need to clearance or pick-up By air Airport to airport, you need to do the customs clearance and pick up the goods at your local airport, which you can have a local shipping agent to do for you. By sea Port to port and you need to do the customs clearance and pick-up the goods at your local port, which you can have a local shipping agent to do for you.   FAQ 1. What’s the minimum order quantity? One set at present. 2. What kind of payment terms do you accept? Normally we accept TT, Paypal, Western Union, Alibaba Escrow, and L/C. The exact term will be discussed during the deal. 3. How will you deliver these goods? It will be decided according to your quantity. Normally we will choose International Express, Air and sea. 4. How will we package glass equipment be? We package these glass equipment in good and Nonfumigation standard wooden cases. 5. Can you accept OEM terms? Sure. 6. How to choose suitable equipment? You tell us your requirements (For example capacity, temperature range, pressure, etc ), we will recommend you the best suitable equipment.   /* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1 After-sales Service: Online Service Long Life Warranty: 1 Year Oil or Not: Oil Free Structure: Desktop Exhauster Method: Entrapment Vacuum Pump Vacuum Degree: 0.098kp

Can small vacuum pumps be used in medical or laboratory equipment?

Yes, small vacuum pumps are commonly used in both medical and laboratory equipment due to their versatility, precision, and reliability. They play a crucial role in various applications within these fields. Here’s an overview of how small vacuum pumps are utilized in medical and laboratory equipment:

1. Laboratory Equipment:

Small vacuum pumps find extensive use in laboratory equipment for a wide range of tasks, including:

• Vacuum Filtration: They facilitate the separation of solids from liquids through filtration membranes, used in sample preparation and analysis.
• Rotary Evaporation: Small vacuum pumps are integral to rotary evaporators, which are employed for gentle evaporation of solvents from samples, typically in chemistry labs.
• Lyophilization (Freeze Drying): Freeze-drying equipment relies on vacuum pumps to remove moisture from delicate samples without exposing them to high temperatures.
• Sample Concentration: Vacuum concentrators are used to concentrate and desiccate samples, such as DNA or protein solutions, by evaporating solvents under vacuum.
• Gas Chromatography (GC): Vacuum pumps are used to maintain the vacuum in GC systems, ensuring precise separation and analysis of gas components.

2. Medical Equipment:

In the medical field, small vacuum pumps are incorporated into various equipment and devices for critical functions, including:

• Medical Aspirators: They are used to remove fluids or debris from the body during surgical procedures or in emergency situations. Vacuum pumps create the necessary suction for aspiration.
• Wound Care Systems: Vacuum-assisted closure (VAC) systems help accelerate wound healing by applying controlled negative pressure to wounds, promoting tissue regeneration.
• Blood Collection Devices: Vacuum pumps are essential components in blood collection systems, ensuring precise and hygienic blood sample collection from patients.
• Anesthesia Machines: These machines use vacuum pumps to control and monitor the flow of gases, including the administration of anesthesia during surgery.
• Dental Suction Units: In dental practices, vacuum pumps power suction units for removing saliva and debris during dental procedures.

3. Diagnostic Equipment:

Diagnostic instruments in both medical and laboratory settings often rely on small vacuum pumps for various functions, such as sample handling, filtration, and fluid movement. These pumps contribute to the accuracy and efficiency of diagnostic processes.

4. Environmental and Analytical Instruments:

Small vacuum pumps are used in environmental monitoring instruments, such as air and water quality analyzers, to collect and transport samples for analysis. They ensure precise measurements and data accuracy.

The choice of vacuum pump in medical and laboratory equipment depends on factors like the required vacuum level, flow rate, and compatibility with the materials or substances being handled. Small vacuum pumps are favored for their compact size, low noise levels, and reliability, making them well-suited for integration into sensitive and precision-oriented equipment.

Overall, small vacuum pumps are indispensable components in medical and laboratory equipment, contributing to the success of various critical applications in these fields.

Are there maintenance requirements for keeping small vacuum pumps in good condition?

Yes, maintaining small vacuum pumps is essential to ensure their optimal performance, longevity, and reliability. Regular maintenance helps prevent breakdowns and reduces downtime. Here are some common maintenance requirements for small vacuum pumps:

1. Inspection:

Regularly inspect the pump for visible signs of wear, damage, or loose components. Look for leaks, cracks, or worn seals. Address any issues promptly to prevent further damage.

2. Oil Changes:

If your vacuum pump uses oil lubrication, adhere to the manufacturer’s recommendations for oil changes. Regular oil changes help maintain proper lubrication, preventing excessive wear on internal components.

3. Filter Replacement:

Filters in the vacuum system should be checked and replaced as needed. Clogged or dirty filters can hinder pump performance and may allow contaminants to enter the system.

4. Lubrication:

For pumps that require lubrication, ensure that the lubricant levels are within the recommended range. Lubricate bearings and moving parts according to the manufacturer’s guidelines.

5. Seal Inspection:

Inspect the seals and gaskets for signs of wear, cracks, or deterioration. Damaged seals can lead to air leaks, reducing vacuum efficiency.

6. Cleaning:

Keep the exterior of the pump clean and free from debris. Dust and dirt can affect cooling and ventilation, potentially causing the pump to overheat.

7. Performance Testing:

Regularly test the pump’s performance to ensure it meets the required vacuum level and flow rate. Adjust or recalibrate as necessary to maintain consistent performance.

8. Safety Checks:

Perform safety checks to ensure that all safety features and mechanisms are in working order. This is particularly important in medical and laboratory settings where the safe operation of the pump is critical.

9. Vibration Analysis:

Monitor vibration levels in the pump. Excessive vibration can indicate misalignment or worn components. Address vibration issues to prevent further damage.

10. Maintenance Logs:

Keep detailed maintenance records, including dates of inspections, repairs, and replacements. This helps track the pump’s maintenance history and plan future maintenance tasks.

11. Professional Service:

For more complex maintenance tasks or repairs, consider having the pump serviced by a professional technician or the manufacturer’s service center. They can perform in-depth diagnostics and repairs as needed.

It’s important to follow the manufacturer’s maintenance guidelines and recommendations specific to your vacuum pump model. Proper maintenance not only prolongs the pump’s life but also ensures it operates efficiently and safely, reducing the risk of unexpected failures.

What are the advantages of using a small vacuum pump in specific applications?

Small vacuum pumps offer various advantages in specific applications across multiple industries. These advantages make them valuable tools for achieving specific tasks efficiently. Here are some key advantages:

1. Portability:

Small vacuum pumps are compact and lightweight, making them easy to transport and use in various locations. Their portability is especially beneficial for fieldwork, mobile applications, and situations where mobility is essential.

2. Precision and Control:

Small vacuum pumps provide precise control over the vacuum level, allowing for accurate and controlled processes. This level of control is crucial in scientific research, medical procedures, and manufacturing applications requiring fine-tuned vacuum conditions.

3. Oil-Free Operation:

Many small vacuum pumps, such as diaphragm pumps, operate without the need for oil lubrication. This oil-free operation is essential in applications where oil contamination is undesirable, such as in laboratories and cleanroom environments.

4. Low Maintenance:

Compared to larger industrial vacuum systems, small vacuum pumps often have simpler maintenance requirements. They are designed for ease of use and may require less frequent servicing, reducing downtime and maintenance costs.

5. Energy Efficiency:

Small vacuum pumps are energy-efficient, especially when equipped with features like variable speed drives (VSDs). VSDs allow the pump to adjust its speed based on demand, minimizing energy consumption and reducing operational costs.

6. Quiet Operation:

Some small vacuum pumps, such as scroll pumps and diaphragm pumps, operate quietly. This characteristic is advantageous in environments where noise levels need to be minimized, such as in laboratories, medical facilities, and offices.

7. Versatility:

Small vacuum pumps can be used in a wide range of applications, including vacuum filtration, rotary evaporation, sample concentration, and air sampling. Their versatility makes them suitable for diverse industries, from pharmaceuticals to electronics manufacturing.

8. Cost-Effectiveness:

Small vacuum pumps are often more cost-effective than larger industrial vacuum systems. They offer a balance between performance and affordability, making them accessible to a broad range of users and applications.

It’s important to note that the advantages of using small vacuum pumps are application-specific. To maximize the benefits, it’s essential to select the right type of pump that matches the requirements and constraints of the specific application.

editor by CX 2024-04-09