Product Description
disposable elastomeric vacuum pump for resin vacuum infusion top syringe pump
Product Description
pecial Function |
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Keep-Vein-Open (KVO): |
After finishing predetermined infusion volume, to prevent the formation of thrombus, continue infusion with preset minimum rate 0.1ml/h (setted). |
Power Supply Switching Function: |
When the AC power supply is off, it will automatically switch to internal battery power supply and prompt at the same time. When AC is switched on, it is automatically converted back to AC supply. |
Repeat Alarm Function: |
After the operator presses the “” key, if the reason causing the alarm has be untreated for about 2 minutes, the alarm will sound again to alert the operator to solve the problem. |
Data Memory Function: |
Save the last setting of sound volume level, brand and occlusion pressure level, to prepare for the next use. The longest memory time is 5 years. |
Battery Protection Alarm: |
In order to protect the battery and ensure infusion safety, there are different levels of acousto-optic prompts when the electric quantity of the battery is changing from close to depletion to almost depleted. |
Move: |
When user tries to remove or take away the syringe,give move alarm. |
High Flow Safety Confirm: |
In order to ensure infusion safety, when the flow rate is greater than 300ml/h (or equivalent), the device will prompt user to confirm again, and will not carry out infusion before confirmation. |
Company Profile
FAQ
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How to buy your products ?Do you have distributor in our country?
You can buy the products from our company directly.Normally the procedure is:Sign the contact ,payment byT/T, contact the shipping company to delivery the goods to your country.
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What is the warranty?
The free warranty is 1 year from the day of Commissioning qualified.
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Can we visit your country ?
Of course,we will prepare for everything in advance if it is necessary .Generally,it is require that customers must have build agency relationship or business relationship with our company.
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How long is the validity of quotation?
Generally,our price is valid within 1 month from the date of quotation .The price will be adjusted appropriately according to the price fluctuation of raw material and changes in market .
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Do you have the CE certificate ?
Yes, most of our products have the CE certificate.
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Certification: | CE, FDA, EEC, ISO13485 |
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Scale: | Small |
Type: | Injection Pump |
Kvo: | 0.1ml/H |
Electric Shock Protection: | Type CF |
Syringe Size: | 30/35ml,50/60ml |
Samples: |
US$ 300/Piece
1 Piece(Min.Order) | |
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Customization: |
Available
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What are the cost considerations when purchasing or installing small vacuum pumps?
When purchasing and installing small vacuum pumps, there are several cost considerations to keep in mind. These costs can vary based on factors such as the type of pump, application, and installation requirements. Here are key cost considerations:
1. Initial Purchase Cost:
The initial purchase cost of the vacuum pump is a significant factor. Different types of small vacuum pumps come with varying price tags. For example, diaphragm and rotary vane pumps are generally more affordable than high-end scroll pumps or specialized pumps for specific applications.
2. Pump Type:
The type of vacuum pump you choose will impact the cost. Oil-free pumps may be more expensive upfront but can reduce long-term maintenance and oil-related costs.
3. Application Requirements:
The specific requirements of your application can affect costs. For instance, if your application demands a high vacuum level or precise control, you may need a more advanced and costly pump.
4. Maintenance Costs:
Consider the long-term maintenance costs of the pump. Oil-lubricated pumps require regular oil changes and maintenance, which can add to the overall cost of ownership. Oil-free pumps generally have lower maintenance costs.
5. Installation Expenses:
Installation costs may include labor, materials, and any necessary modifications to your equipment or facility. Some pumps may require specialized installation, especially in industrial or laboratory settings.
6. Operating Costs:
Factor in the ongoing operating costs, such as electricity consumption. Energy-efficient pumps may have lower operational expenses over time.
7. Warranty and Service:
Check the manufacturer’s warranty and the availability of service and spare parts. A longer warranty can provide cost savings by reducing repair expenses.
8. Life Cycle Costs:
Consider the total cost of ownership over the pump’s expected lifespan. A higher upfront cost may be justified if it results in lower overall operating and maintenance costs.
9. Energy Efficiency:
Energy-efficient pumps may have a higher initial cost but can lead to significant savings in energy bills over time.
10. Regulatory Compliance:
Some industries or applications may require compliance with specific regulations or safety standards, which could add costs related to compliance testing and certification.
11. Customization:
If your application requires customized features or configurations, be prepared for potential customization costs.
12. Spare Parts and Accessories:
Consider the availability and cost of spare parts and accessories, as well as any additional components you may need for your specific application.
It’s essential to perform a thorough cost analysis that takes into account both the initial purchase cost and the long-term operating and maintenance expenses. This analysis will help you make an informed decision when selecting a small vacuum pump that aligns with your budget and application requirements.
Additionally, consult with manufacturers or suppliers to obtain detailed cost estimates and explore any available financing options or discounts that may apply to your purchase.
Can you describe the typical power sources for small vacuum pumps?
Small vacuum pumps can be powered by various sources, depending on their design, size, and intended applications. Here are the typical power sources for small vacuum pumps:
1. Electric Power:
Most small vacuum pumps are electrically powered and use standard alternating current (AC) or direct current (DC) sources. Electric vacuum pumps are versatile and widely used in laboratory equipment, industrial processes, and portable devices. They can be plugged into wall outlets or connected to DC power sources such as batteries or power supplies.
2. Battery Power:
Portable and handheld devices often incorporate battery-powered small vacuum pumps. These pumps are ideal for applications where mobility is crucial, such as fieldwork, medical instruments, and handheld vacuum aspirators. Batteries can be rechargeable or disposable, depending on the device’s requirements.
3. Compressed Air:
In some applications, small vacuum pumps are driven by compressed air or other gases. These pumps are known as pneumatic or air-operated vacuum pumps. They are commonly used in industrial automation, vacuum gripping systems, and manufacturing processes where compressed air is readily available.
4. Hydraulic Power:
In specialized applications, small vacuum pumps can be hydraulically powered. These pumps are often used in systems where hydraulic power sources are already in use. They are less common than electric or pneumatic options but find application in specific industries like automotive manufacturing.
5. Solar Power:
In remote or off-grid locations, small vacuum pumps can be powered by solar panels and photovoltaic systems. Solar-powered vacuum pumps are environmentally friendly and energy-efficient, making them suitable for sustainable and remote applications.
6. Hand Cranks:
For ultra-portable and emergency situations, some small vacuum pumps can be hand-operated using a manual hand crank. These pumps are typically compact and lightweight, making them suitable for backup or low-volume vacuum needs.
7. Engine-Driven:
In certain industrial and automotive applications, small vacuum pumps can be driven by an internal combustion engine. These pumps are commonly used in power brake boosters and emission control systems in vehicles.
The choice of power source for a small vacuum pump depends on factors such as the application’s mobility requirements, availability of power sources, energy efficiency goals, and environmental considerations. Manufacturers design vacuum pumps to be compatible with various power sources to meet diverse application needs.
Can you explain the different types of small vacuum pumps available in the market?
Certainly, there are several types of small vacuum pumps available in the market, each with unique working principles and applications. Here are some of the most common types:
1. Diaphragm Vacuum Pumps:
Diaphragm vacuum pumps use a flexible diaphragm that moves up and down to create suction. These pumps are oil-free, making them ideal for applications where contamination from lubricants is a concern, such as in laboratories. They are commonly used in vacuum filtration, sample concentration, and scientific research.
2. Rotary Vane Vacuum Pumps:
Rotary vane vacuum pumps operate by using vanes that rotate inside a cylindrical chamber. As the vanes move, they create a vacuum by trapping and compressing gas. These pumps are known for their high efficiency and reliability. They are used in applications like rotary evaporation, HVAC systems, and industrial processes.
3. Piston (Reciprocating) Vacuum Pumps:
Piston vacuum pumps use a piston-cylinder arrangement to create a vacuum. They are often found in smaller, portable units and are suitable for applications requiring intermittent or continuous vacuum, such as refrigeration evacuation, air sampling, and medical devices.
4. Scroll Vacuum Pumps:
Scroll vacuum pumps consist of two interleaved spiral scrolls that move in opposite directions. This design generates a series of crescent-shaped pockets, trapping and compressing gas as they move. Scroll pumps are known for their quiet operation and are used in applications like semiconductor manufacturing, analytical instruments, and vacuum ovens.
5. Venturi Vacuum Pumps:
Venturi vacuum pumps operate using the Venturi effect, where a high-speed fluid (usually air or gas) creates a vacuum when passing through a constriction. These pumps are simple and compact, making them suitable for portable and lightweight applications like vacuum pick-and-place systems and vacuum grippers.
6. Turbomolecular Vacuum Pumps:
Turbomolecular vacuum pumps are high-speed pumps that use rotating blades to capture and accelerate gas molecules out of the vacuum chamber. They are capable of achieving very high vacuum levels and are used in ultra-high vacuum applications, such as electron microscopy, mass spectrometry, and semiconductor manufacturing.
Choosing the right type of small vacuum pump depends on factors such as the required vacuum level, flow rate, contamination sensitivity, and application-specific requirements. It’s essential to consider these factors when selecting a vacuum pump to ensure it meets your needs effectively.
editor by Dream 2024-05-17