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Jiangsu Baolikang Technology Co., Ltd. is a high-tech enterprise focusing on the research and development of new environmentally friendly materials. Its products include polymer concrete drainage system products, high-corrosion integrated sewage treatment devices, special enhancers for permeable concrete pavements, vinyl resin concrete electrolytic cells, and special enhancers for grass-planted permeable slope protection.
Widely used in sponge city construction projects, urban black and odorous water treatment projects, non-ferrous metal smelting industry, rural sewage comprehensive treatment projects, etc.
Widely used in China, the United Kingdom, Germany, Italy, Belgium, Japan, South Korea, Australia, South Africa, Chile and other countries.
Obtained CE certification, GT/TISO9001-2008 and in compliance with EN1433 and EN124 standards.
The company has 20 years of rich and professional experience in this field.
Used to collect rainwater, sewage, condensate, etc. to prevent water accumulation or overflow.
Provide lubricant storage space to maintain stable operation of the oil circulation system.
Some Sumps are equipped with filtering devices to prevent dirt from entering the pump or engine system and reduce the risk of blockage.
Some oil pans are designed with heat sinks to help reduce lubricant temperature and improve engine performance.
Can be used in combination with different types of pumps, pipes, and drainage systems to meet the needs of various working conditions.
Some Sumps are designed with sewage outlets or cleaning channels for regular cleaning to prevent blockage or pollution accumulation.
Usually located at the lowest point of the system to naturally collect liquids such as water or oil.
Prevent liquid leakage, reduce environmental pollution and equipment damage.
Sumps are often used in basements to collect excess groundwater or runoff that may seep into the foundation, helping to prevent flooding and structural damage.
Sump pumps are devices installed in sumps to actively pump out collected water, ensuring that the area remains dry and preventing water damage.
Sumps collect wastewater or sewage in industrial and municipal facilities. They are critical for the proper management and treatment of wastewater before it is released or processed.
In stormwater management systems, sumps collect rainwater runoff, allowing for sediment removal and filtration before it enters drainage systems or natural bodies of water.
In manufacturing or industrial settings, sumps collect spills or process water, allowing for recovery, recycling, or proper disposal of hazardous or non-hazardous liquids.
Sumps can be part of cooling towers and HVAC systems, collecting water used in the cooling process for recirculation or treatment.
In aquaculture, sumps are used to manage water levels in fish tanks or ponds, facilitating water quality management and aeration.
Sumps can collect and redistribute excess irrigation water, enhancing water efficiency and reducing runoff.
Sumps may be part of fire suppression systems, where they store water or another extinguishing agent for quick access during a fire.
In contaminated sites, sumps can be used to collect leachate or other pollutants for proper treatment and disposal.
Durable, strong, and can be molded into any shape. Often used for large sumps like those in wastewater treatment plants.
High strength and durability. Steel sumps can withstand high levels of pressure and are often used in industrial applications.
Corrosion-resistant, strong, and hygienic. Commonly used in food processing and chemical industries.
Lightweight, corrosion-resistant, and can be molded into complex shapes. Frequently used for smaller sumps or in environments with corrosive substances.
Lightweight, corrosion-resistant, and often less expensive than metal or fiberglass. Suitable for holding chemicals.
Can provide the benefits of various materials, such as strength and corrosion resistance.
Tailor the dimensions and shape of the sump pit based on the volume of water to be managed and the space available.
Design multi-chamber systems to allow for sedimentation, filtration, and separation of different fluids.
Use variable speed pumps that can adjust flow rates based on water levels, improving efficiency and reducing wear.
Customize the type of pump based on the sump’s depth and application requirements.
Implement control panels with sensors for water level detection and automated pump operation to minimize manual intervention.
Integrate IoT solutions for remote monitoring and notifications on pump status, fluid levels, and system performance.
Install custom filtration systems to remove debris and contaminants before fluids are pumped out.
Implement systems for treating wastewater or other fluids before discharge.
Use specialized materials like fiberglass, polyethylene, or coated steel for sumps exposed to harsh chemicals.
Design insulated sumps for environments with extreme temperatures to prevent freezing or heat-related issues.
Implement overflow alarms and systems to prevent flooding.
Design safe and easy access to sumps for maintenance, including covers with safety locks and ladders.
Design systems that can be easily expanded or modified as water management needs change.
Develop portable sump systems for temporary solutions or emergency situations.
Pick a low point in your basement or crawl space to install the sump pump. It should be near a wall and away from any obstructions.
Use a shovel to dig a hole for the sump basin. The hole should be about 24-30 inches deep and wide enough to accommodate the sump basin.Make sure the sides are smooth and level.
Place the sump basin in the hole and ensure it sits level.If needed, add gravel or crushed stone around the bottom to improve drainage.
Follow the manufacturer’s instructions to set up the sump pump, including attaching the float switch and any necessary components.
Carefully place the sump pump into the basin, ensuring that the float switch can move freely and isn’t obstructed.
Attach the discharge pipe to the pump outlet. Use a hose clamp to secure the connection if necessary. Run the discharge pipe to the outside, ensuring it directs water away from the foundation of your home.
This prevents water from flowing back into the sump pit after the pump turns off. Install it in the discharge line above the pump.
If your sump basin has a cover, secure it to prevent odors or pests from entering. Seal any gaps with waterproof sealant.
Fill the sump pit with water to test the pump. Check if the float switch activates the pump and that the discharge line works properly.Ensure that there are no leaks and that water is discharged away from the foundation.
Make any necessary adjustments to the float switch or discharge pipe to improve functionality.
Connect the pump to a power outlet (use a GFCI outlet for safety). Ensure that the cord does not pose a tripping hazard.
Periodically check the sump pump functionality, clean the pit, and ensure the discharge line is clear of debris.
A: A Sump is a container for collecting, storing and discharging liquids, and is widely used in many fields such as construction, industry, automobiles, and ships. It can handle different types of liquids such as rainwater, sewage, coolant, and engine oil.
A: Sumps are mainly divided into the following categories: Construction and municipal drainage Sumps: Used for rainwater and wastewater discharge in basements and parking lots. Industrial waste liquid Sumps: Used to collect and treat wastewater in chemical, mining and other industries. Automobile engine oil pan (Sump): Used to store and manage engine oil. Ship and marine engineering Sumps: Used for ship cabin drainage and seawater treatment. Aerospace Sumps: Used for fuel and lubricant management of aircraft and spacecraft.
A: Common Sump materials include: Metals: Aluminum alloy, stainless steel, cast iron, suitable for high temperature and corrosion resistant environments. Plastics: Polyethylene (PE), polypropylene (PP), fiberglass reinforced plastics (FRP), suitable for lightweight and corrosion resistant requirements. Concrete: Mainly used in large-scale municipal projects, with good durability.
A: When choosing a suitable Sump, the following factors should be considered: Application scenario: Determine the use environment (construction, industry, automobile, etc.). Capacity and size: Choose the appropriate size according to the amount of liquid to be processed. Material: Choose corrosion-resistant and high-temperature resistant materials suitable for the specific environment. Functional requirements: Are additional functions required, such as oil-water separation, intelligent monitoring, etc.?
A: Regular inspection: Regularly check the sealing of the Sump, the working condition of the pump, and the cleanliness of the filter. Clean up the sediment: Regularly clean the sediment and debris in the Sump to prevent blockage. Check the pump and valve: Make sure the drainage pump and valve are working properly, and repair or replace them if necessary.
A: The Sump is usually equipped with a water pump. When the water level reaches a certain height, the pump will automatically start to discharge the water. The drainage system can use gravity drainage or pumping drainage, depending on the installation location and design requirements.
A: Location selection: It should be installed in low-lying areas or basements where water is easily accumulated. Drainage pipe: Make sure the slope of the drainage pipe is reasonable to facilitate smooth drainage. Anti-leakage design: Anti-leakage design should be considered during installation to avoid liquid leakage affecting the surrounding environment.
A: The service life of the Sump depends on the material, the use environment and the maintenance. Metal Sumps usually have a longer service life of about 10-20 years; plastic Sumps may need to be replaced every 5-10 years.
A: The operating temperature range of the Sump depends on its material and design. Generally speaking, metal Sump is suitable for high temperature environments, while plastic Sump is suitable for normal or low temperature environments. The specific operating temperature needs to be referred to the product manual or consulted with the manufacturer.
A: Yes, many manufacturers offer custom Sump services that can be customized according to customers' specific needs (such as size, material, function, etc.).
We're well-known as one of the leading sump manufacturers and suppliers in China for our quality products and customized service. Please feel free to wholesale bulk sump in stock here from our factory.
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