Описание товара
Electric Dick Enlargement Sleeve Vacuum Erection Enhancer Penis Pump
| Properties:: | Penis enlarger |
| Type: | Increase the penis size |
| Function:: | penis enlargement cream |
Tips:
Enjoy penis enlargement training at home or away with this innovative EVO automatic penis pump. Designed to gently suck blood into your penis for an instant boost in size, this pump gives you a larger, stronger erection with regular use.
One easy-press buttons operate the 3 suction speeds, while another button acts as a quick-release valve. To use, slip your penis into the openingand turn on the motorised pump. Watch yourself grow in size through the transparent cylinder and maintain pressure for 10-15 minutes at a time for
maximum effect.To increase suction further, add a thin layer of water-based lubricant to the rim of the pump before use.
Key Features:
Automatic penis pump for a bigger erection and better penile health
Medicial soft silicone gel material
Easy-to-use 2-button control operates 3 levels of suction and quick-release valve
Soft, 1 inch opening grips the base of the penis and offers comfort during use
Transparent chamber with measurement gauge enables you to watch your progress
Perfect for an instant boost just before intimacy, as well as long term penile exercises
It powered by usb cable.
ЧАСТО ЗАДАВАЕМЫЕ ВОПРОСЫ
1. Can you design for us?
A: OEM and ODM services are available. We have a professional team that can design products and make beautiful packaging according to your requirements.
2. Are you a factory or a trading company?
A: We are a professional manufacturer with GMP certification and a trading company with export license.
3. Where is your factory? May I visit your factory?
A: It’s our pleasure to invite you to visit our factory, which is located in HangZhou, the world factory.
4. What is your delivery time?
A: Usually 5-30 days, the specific delivery time depends on the production season and order quantity.
5. What is your minimum order quantity?
A: The minimum order quantity depends on the specific product order. Please contact us for more detailed information.
6. Do you offer any discounts on your products?
A: Our discount depends on the quantity of your order. The bigger the order, the bigger the discount. For further discount information, please contact us.
7. In what currency does your company trade? If it is not RMB, can you accept fixed exchange rate,The entire subscription period?
We conduct international business in RMB/USD/HKD/EUR/GBP.
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| Origin: | China Mainland, China |
|---|---|
| Colour: | White |
| Материал: | Flexible Glue |
| Type: | Lubricating Fluid |
| Wearer: | Male |
| Form: | Liquid |
| Образцы: |
US$ 10/Piece
1 Штука (мин.заказ) | |
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| Персонализация: |
Доступно
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Можно ли использовать вакуумные насосы для вакуумной упаковки?
Да, вакуумные насосы можно использовать для вакуумной упаковки. Вот подробное объяснение:
Вакуумная упаковка - это метод удаления воздуха из упаковки или контейнера, создающий вакуумную среду. Этот процесс помогает продлить срок хранения скоропортящихся продуктов, предотвратить порчу и сохранить свежесть продукции. Вакуумные насосы играют решающую роль в достижении необходимого уровня вакуума для эффективной упаковки.
Когда речь идет о вакуумной упаковке, обычно используются два типа вакуумных насосов:
1. Одноступенчатые вакуумные насосы: Одноступенчатые вакуумные насосы обычно используются для вакуумной упаковки. В таких насосах для создания вакуума используется одна вращающаяся лопатка или поршень. Они могут достигать умеренных уровней вакуума, подходящих для большинства требований к упаковке. Одноступенчатые насосы имеют относительно простую конструкцию, компактны и экономически эффективны.
2. Пластинчато-роторные вакуумные насосы: Пластинчато-роторные вакуумные насосы - еще один популярный выбор для вакуумной упаковки. В этих насосах для создания вакуума используется несколько лопастей, установленных на роторе. Они обеспечивают более высокий уровень вакуума по сравнению с одноступенчатыми насосами, что делает их подходящими для приложений, требующих более глубокого вакуума. Пластинчато-роторные насосы известны своей надежностью, стабильной работой и долговечностью.
При использовании вакуумных насосов для вакуумной упаковки обычно выполняются следующие действия:
1. Подготовка: Убедитесь, что упаковочный материал, например вакуумные пакеты или контейнеры, подходит для вакуумной упаковки и может выдержать вакуумное давление без утечки. Поместите упаковываемый продукт в соответствующий упаковочный материал.
2. Запечатывание: Правильно запечатайте упаковочный материал, либо с помощью тепловой герметизации, либо с использованием специализированного вакуумного оборудования для герметизации. Это обеспечивает герметичную упаковку продукта.
3. Работа вакуумного насоса: Подключите вакуумный насос к упаковочному оборудованию или непосредственно к упаковочному материалу. Запустите вакуумный насос, чтобы начать процесс вакуумирования. Насос удалит воздух из упаковки, создав вакуумную среду.
4. Контроль уровня вакуума: Контролируйте уровень вакуума в процессе упаковки с помощью манометров или датчиков вакуума. В зависимости от конкретных требований к упаковке, отрегулируйте уровень вакуума соответствующим образом. Цель - достичь желаемого уровня вакуума, подходящего для упаковываемого продукта.
5. Запечатывание и закрытие: После достижения желаемого уровня вакуума полностью запечатайте упаковочный материал, чтобы сохранить вакуумную среду. Это можно сделать с помощью тепловой герметизации упаковочного материала или с помощью специализированных герметизирующих механизмов, предназначенных для вакуумной упаковки.
6. Маркировка и хранение продукта: После герметизации промаркируйте упакованный продукт и храните его надлежащим образом, учитывая такие факторы, как температура, влажность и освещенность, чтобы максимально продлить срок годности продукта.
Важно отметить, что конкретный уровень вакуума, необходимый для вакуумной упаковки, может варьироваться в зависимости от упаковываемого продукта. Для одних продуктов может потребоваться частичный вакуум, а для других - более строгий. Выбор вакуумного насоса и используемых механизмов управления будет зависеть от конкретных требований к вакуумной упаковке.
Вакуумные насосы широко используются в различных отраслях промышленности для вакуумной упаковки, включая производство продуктов питания и напитков, фармацевтику, электронику и многое другое. Они обеспечивают эффективное и надежное средство создания вакуумной среды, помогая сохранить качество продукции и продлить срок ее хранения.
How Do Vacuum Pumps Impact the Quality of 3D Printing?
Vacuum pumps play a significant role in improving the quality and performance of 3D printing processes. Here’s a detailed explanation:
3D printing, also known as additive manufacturing, is a process of creating three-dimensional objects by depositing successive layers of material. Vacuum pumps are utilized in various aspects of 3D printing to enhance the overall quality, accuracy, and reliability of printed parts. Here are some key ways in which vacuum pumps impact 3D printing:
1. Material Handling and Filtration: Vacuum pumps are used in 3D printing systems to handle and control the flow of materials. They create the necessary suction force to transport powdered materials, such as polymers or metal powders, from storage containers to the printing chamber. Vacuum systems also assist in filtering and removing unwanted particles or impurities from the material, ensuring the purity and consistency of the feedstock. This helps to prevent clogging or contamination issues during the printing process.
2. Build Plate Adhesion: Proper adhesion of the printed object to the build plate is crucial for achieving dimensional accuracy and preventing warping or detachment during the printing process. Vacuum pumps are employed to create a vacuum environment or suction force that securely holds the build plate and ensures firm adhesion between the first layer of the printed object and the build surface. This promotes stability and minimizes the risk of layer shifting or deformation during the printing process.
3. Material Drying: Many 3D printing materials, such as filament or powdered polymers, can absorb moisture from the surrounding environment. Moisture-contaminated materials can lead to poor print quality, reduced mechanical properties, or defects in the printed parts. Vacuum pumps with integrated drying capabilities can be employed to create a low-pressure environment, effectively removing moisture from the materials before they are used in the printing process. This ensures the dryness and quality of the materials, resulting in improved print outcomes.
4. Resin Handling in Stereolithography (SLA): In SLA 3D printing, a liquid resin is selectively cured using light sources to create the desired object. Vacuum pumps are utilized to facilitate the resin handling process. They can be employed to degas or remove air bubbles from the liquid resin, ensuring a smooth and bubble-free flow during material dispensing. This helps to prevent defects and imperfections caused by trapped air or bubbles in the final printed part.
5. Enclosure Pressure Control: Some 3D printing processes, such as selective laser sintering (SLS) or binder jetting, require the printing chamber to be maintained at a specific pressure or controlled atmosphere. Vacuum pumps are used to create a controlled low-pressure or vacuum environment within the printing chamber, enabling precise pressure regulation and maintaining the desired conditions for optimal printing results. This control over the printing environment helps to prevent oxidation, improve material flow, and enhance the quality and consistency of printed parts.
6. Post-Processing and Cleaning: Vacuum pumps can also aid in post-processing steps and cleaning of 3D printed parts. For instance, in processes like support material removal or surface finishing, vacuum systems can assist in the removal of residual support structures or excess powder from printed objects. They can also be employed in vacuum-based cleaning methods, such as vapor smoothing, to achieve smoother surface finishes and enhance the aesthetics of the printed parts.
7. System Maintenance and Filtration: Vacuum pumps used in 3D printing systems require regular maintenance and proper filtration to ensure their efficient and reliable operation. Effective filtration systems within the vacuum pumps help to remove any contaminants or particles generated during printing, preventing their circulation and potential deposition on the printed parts. This helps to maintain the cleanliness of the printing environment and minimize the risk of defects or impurities in the final printed objects.
In summary, vacuum pumps have a significant impact on the quality of 3D printing. They contribute to material handling and filtration, build plate adhesion, material drying, resin handling in SLA, enclosure pressure control, post-processing and cleaning, as well as system maintenance and filtration. By utilizing vacuum pumps in these critical areas, 3D printing processes can achieve improved accuracy, dimensional stability, material quality, and overall print quality.
Can Vacuum Pumps Be Used in Laboratories?
Yes, vacuum pumps are extensively used in laboratories for a wide range of applications. Here’s a detailed explanation:
Vacuum pumps are essential tools in laboratory settings as they enable scientists and researchers to create and control vacuum or low-pressure environments. These controlled conditions are crucial for various scientific processes and experiments. Here are some key reasons why vacuum pumps are used in laboratories:
1. Evaporation and Distillation: Vacuum pumps are frequently used in laboratory evaporation and distillation processes. By creating a vacuum, they lower the boiling point of liquids, allowing for gentler and more controlled evaporation. This is particularly useful for heat-sensitive substances or when precise control over the evaporation process is required.
2. Filtration: Vacuum filtration is a common technique in laboratories for separating solids from liquids or gases. Vacuum pumps create suction, which helps draw the liquid or gas through the filter, leaving the solid particles behind. This method is widely used in processes such as sample preparation, microbiology, and analytical chemistry.
3. Freeze Drying: Vacuum pumps play a crucial role in freeze drying or lyophilization processes. Freeze drying involves removing moisture from a substance while it is in a frozen state, preserving its structure and properties. Vacuum pumps facilitate the sublimation of frozen water directly into vapor, resulting in the removal of moisture under low-pressure conditions.
4. Vacuum Ovens and Chambers: Vacuum pumps are used in conjunction with vacuum ovens and chambers to create controlled low-pressure environments for various applications. Vacuum ovens are used for drying heat-sensitive materials, removing solvents, or conducting reactions under reduced pressure. Vacuum chambers are utilized for testing components under simulated space or high-altitude conditions, degassing materials, or studying vacuum-related phenomena.
5. Analytical Instruments: Many laboratory analytical instruments rely on vacuum pumps to function properly. For example, mass spectrometers, electron microscopes, surface analysis equipment, and other analytical instruments often require vacuum conditions to maintain sample integrity and achieve accurate results.
6. Chemistry and Material Science: Vacuum pumps are employed in numerous chemical and material science experiments. They are used for degassing samples, creating controlled atmospheres, conducting reactions under reduced pressure, or studying gas-phase reactions. Vacuum pumps are also used in thin film deposition techniques like physical vapor deposition (PVD) and chemical vapor deposition (CVD).
7. Vacuum Systems for Experiments: In scientific research, vacuum systems are often designed and constructed for specific experiments or applications. These systems can include multiple vacuum pumps, valves, and chambers to create specialized vacuum environments tailored to the requirements of the experiment.
Overall, vacuum pumps are versatile tools that find extensive use in laboratories across various scientific disciplines. They enable researchers to control and manipulate vacuum or low-pressure conditions, facilitating a wide range of processes, experiments, and analyses. The choice of vacuum pump depends on factors such as required vacuum level, flow rate, chemical compatibility, and specific application needs.
editor by CX 2024-04-02
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