Rubber End Hose With Two Side Couplings Working Pressure 85 Bar 3M*DN125
- Ref Price:
-
- Loading Port:
- Shanghai
- Payment Terms:
- TT OR LC
- Min Order Qty:
- 10 pc
- Supply Capability:
- 5000 pc/month
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Product Description:
The 3M*DN125 rubber end hose with two side couplings, normally the hoes is made by NR and reinforced by four layer steel wire, and the two couplings at each side are made by steel material No.ST52, 20#, 37MN5, with hot treatment according to customer’s requests, and also package in bundles or nude packing directly put into container.
Scope of Application of the hose
The 3M*DN125 rubber end hose is a concrete delivery for combined use with other concrete pipelines in concrete placement operations. It can be widely used in the construction of various types of concrete structures like industrial and civil buildings, bridges, roads, and other types of infrastructure.
This end hose can only be used in concrete construction operations, but not in any other operations, like dragging, moving, or hoisting heavy articles or personnel. The end hose is also not allowed to be used in any location where any combustible or explosive material exists or a cave-in may occur.
Product Advantages:
OKorder's 3M*DN125 rubber end hose Channels are durable, strong, and safety. We are the biggest group in this business filed and the majority resources are under our control, which is make sure the delivery time and qualified products, meanwhile we have more than 20 overseas branches our people will go to visit customer very fast for more convenient communication.
Main Product Features:
· Premium quality
· Prompt delivery & seaworthy packing (5-10 days)
Reliable performance
Easy to weld
High safety.
· Professional Service
· Competitive pricing
Measuring of wall thickness from the outside
Low purchase cost
FAQ:
Q1: How long about delivery time?
A1: Normally we keep the raw materials for old customers and sometime we also keep stock products to make sure delivery time in any emergency cases.
Q2: How do we guarantee the quality of our products?
A2: We have established an advanced quality management system which conducts strict quality tests at every step, from raw materials to the final product. At the same time, we provide extensive follow-up service assurances as required.
Q3: How soon can we receive the product after purchase?
A3: Within three days of placing an order, we will book the vessel for goods. The specific shipping date is dependent upon international and government factors, but is typically 7 to 30 workdays.
Q4: If we can produce some pipes according to customers request?
A4: Yes, we can produce Concrete Placing Boom according to the difference country situations to make it suitable to the market and customers. We have very professional technical team to make the design.
Q5: How to make a quick resolution for after service?
A5: OKorder and our manufacture both have overseas branches all-around of world, if needed,
Name | Concrete Pump Rubber Hose | |||||
Size | ID | OD | Number of layer | Work pressure | bursting pressure | weight |
3.5" | 113 | 2 | 1200psl | 3000psl | 6.8kg/m | |
4" | 128 | 2 | 1200psl | 3000psl | 7.8kg/m | |
5" | 154 | 2 | 1200psl | 3000psl | 10kg/m | |
5" | 154 | 4 | 1200psl | 3000psl | 12kg/m | |
6" | 181 | 2 | 1200psl | 3000psl | 15kg/m | |
Other size and types upon request | ||||||
Usual Size | 4"-DN80, 5" -DN125, 6"-DN150 | |||||
Material | natrual rubber,steel wire | |||||
Technic | steel wire weaving,composite molding | |||||
Application | used in concrete transport of concrete pump end in construction work | |||||
Serving Brands Of Mounted Truck Concrete Pump And Concrete Pump | SANY,Zoomlion,PM,CIFA and so on | |||||
- Q: How can a faulty water pump affect the concrete pumping operation?
- A faulty water pump can adversely affect the concrete pumping operation in various ways. Firstly, the water pump is responsible for supplying water to the concrete mix, which helps in maintaining the correct consistency and hydration of the concrete. If the water pump is faulty and not functioning properly, it may result in inadequate water supply, leading to an improper mix ratio and compromised quality of the concrete being pumped. Additionally, a faulty water pump may cause interruptions or delays in the pumping process. If the pump fails, it can halt the entire operation until the issue is resolved or a backup pump is brought in. This can result in project delays, increased labor costs, and potential concrete setting issues if the concrete remains stagnant for an extended period. Furthermore, a faulty water pump can also impact the overall efficiency and productivity of the concrete pumping operation. With reduced or inconsistent water supply, the pumping equipment may experience increased wear and tear, resulting in more frequent breakdowns and maintenance requirements. This not only leads to additional costs but also hampers the smooth flow of work. In summary, a faulty water pump can have significant consequences on a concrete pumping operation, affecting the quality of the concrete mix, causing delays, and decreasing overall efficiency. Thus, it is crucial to regularly inspect and maintain water pumps to ensure their proper functioning.
- Q: How can a faulty boom affect the concrete placement process?
- A faulty boom can have significant implications on the concrete placement process. Firstly, it can compromise the safety of the workers involved. A faulty boom may not be able to support the weight and pressure exerted by the concrete, leading to potential collapse or failure, endangering the lives of the workers present at the site. Secondly, a faulty boom can result in inaccurate and uneven concrete placement. The boom's malfunctioning parts may cause the concrete to be discharged at incorrect angles or distances, leading to uneven distribution and an inconsistent concrete surface. This can affect the structural integrity and aesthetics of the final product. Additionally, a faulty boom can lead to delays and disruptions in the concrete placement process. If the boom breaks down or malfunctions during the operation, it will require repairs or replacement, causing downtime and potentially halting the construction work. This can result in project delays, increased costs, and overall inefficiency. Lastly, a faulty boom can result in wastage of concrete. If the boom is not functioning properly, it may not be able to control the flow and discharge of the concrete accurately. This can lead to spills, overflows, or excessive pouring, resulting in unnecessary wastage of concrete material. This not only increases project costs but also has environmental implications. Overall, a faulty boom can have severe consequences on the safety, accuracy, efficiency, and cost-effectiveness of the concrete placement process. It is crucial to ensure that booms are regularly inspected, properly maintained, and promptly repaired to mitigate any potential risks and ensure smooth concrete placement operations.
- Q: What are the different types of concrete pump pistons?
- In the construction industry, various concrete pump pistons are frequently utilized. These encompass the following: 1. Single-acting pistons: Smaller concrete pumps employ these pistons with a single working side. They propel the concrete out of the cylinder during the forward stroke and rely on gravity to retract the piston during the return stroke. 2. Double-acting pistons: Larger concrete pumps utilize these pistons with two working sides. They push the concrete out during the forward stroke and pull it back during the return stroke, thereby enhancing the pumping process's efficiency. 3. S-tube pistons: Trailer-mounted concrete pumps commonly employ these pistons, which are shaped like an S. They assist in regulating the concrete flow by directing it through a series of valves and pipes. 4. Rock valve pistons: These pistons are specifically designed for pumping concrete with larger aggregates. With their sturdy design, they can handle the more abrasive nature of such materials. 5. Gate valve pistons: These pistons employ a gate valve system to manage the concrete flow. They are frequently used in high-pressure applications and provide precise control over the pumped concrete's quantity. In summary, the selection of a concrete pump piston depends on various factors specific to the construction project, including the pump's size, the type of concrete being pumped, and the desired flow rate and pressure.
- Q: What are the different sizes of concrete pump pipes available?
- Concrete pump pipe sizes vary based on the unique requirements and specifications of each construction project. Typically, these pipes range in diameter from 2 inches to 6 inches. The most commonly utilized sizes are 2 inches, 3 inches, 4 inches, and 5 inches. The selection of the pipe size depends on several factors, including the concrete's volume and pressure, the distance it needs to travel, and the equipment type. Smaller pipes with a smaller diameter are suitable for shorter distances and lower concrete volumes, while larger pipes are used for longer distances and higher volumes. Choosing the appropriate pipe size is crucial to ensure efficient and safe concrete pumping. By using the correct pipe size, pressure loss is minimized, and a consistent flow rate is maintained. Moreover, it helps prevent blockages or clogs in the system. To determine the most suitable pipe size for a specific construction project, it is advisable to consult with a concrete pumping professional or engineer.
- Q: What are the functions of concrete pump truck?
- It is composed of pump body and conveying pipe. It is divided into piston type, extrusion type and water pressure diaphragm type according to the structure. The pump body is mounted on the automobile chassis, and then equipped with telescopic or bent cloth rods to form a pump truck
- Q: What are the different types of concrete pump control system sensors?
- There are several different types of sensors used in concrete pump control systems to ensure smooth and efficient operation. These sensors are designed to monitor various aspects of the pump's performance and provide real-time feedback to the control system. Some of the common types of sensors used in concrete pump control systems include: 1. Pressure Sensors: These sensors are used to measure the pressure of the concrete being pumped. They are typically installed in the discharge line and help to ensure that the pump is operating within the desired pressure range. Pressure sensors are crucial in preventing over-pressurization and potential damage to the pump or pipeline. 2. Flow Sensors: Flow sensors are employed to measure the flow rate of the concrete. By monitoring the volume of concrete passing through the system per unit of time, these sensors enable the control system to regulate the speed and output of the pump accordingly. Flow sensors help in maintaining a consistent and controlled flow of concrete during pumping operations. 3. Level Sensors: Level sensors are utilized to monitor the level of concrete in the hopper or storage tank. These sensors provide information to the control system about the concrete volume, ensuring that the pump is not running dry or becoming overloaded. By maintaining the appropriate level of concrete in the hopper, level sensors help to prevent pump cavitation or blockages. 4. Proximity Sensors: Proximity sensors are used to detect the position of various moving parts in the pump system, such as the boom or outriggers. They provide feedback to the control system, ensuring that the pump operates safely and avoids any potential collisions or obstructions. Proximity sensors play a crucial role in preventing accidents and protecting both the equipment and personnel. 5. Temperature Sensors: Temperature sensors are employed to monitor the temperature of the concrete mix. These sensors help to ensure that the concrete remains within the desired temperature range during pumping, as extreme temperatures can affect the workability and curing process. By maintaining the optimal concrete temperature, temperature sensors contribute to the quality of the final product. Overall, these sensors work together to provide precise and reliable feedback to the control system, allowing for efficient and safe operation of the concrete pump. By continuously monitoring and adjusting various parameters, the sensors help to optimize pumping performance and enhance the overall productivity of concrete placement projects.
- Q: How do I properly maintain and replace hydraulic filters in concrete pump spare parts?
- Proper maintenance and replacement of hydraulic filters in concrete pump spare parts is crucial to ensure the longevity and efficiency of your equipment. Here are some steps to follow: 1. Understand the manufacturer's recommendations: Start by familiarizing yourself with the manufacturer's guidelines for maintaining and replacing hydraulic filters. These instructions may vary depending on the specific pump model and filter type. 2. Regular inspection: Regularly inspect your hydraulic filters for any signs of damage, clogging, or excessive wear. Look for dirt, debris, or other contaminants that may hinder the filter's performance. If you notice any issues, it is important to address them promptly. 3. Follow a maintenance schedule: Implement a regular maintenance schedule for your hydraulic filters. This schedule should include regular filter inspections, cleaning, and replacement intervals. Adhering to a schedule will help prevent unexpected breakdowns and keep your concrete pump running smoothly. 4. Cleaning the filters: If your hydraulic filters are designed to be cleaned and reused, make sure to follow the proper cleaning procedure. This typically involves removing the filter, washing it with an appropriate cleaning solution, and allowing it to dry thoroughly before reinstallation. Be cautious not to damage the filter during the cleaning process. 5. Replacement: Over time, hydraulic filters will become less effective at filtering out contaminants. It is important to replace them according to the manufacturer's recommended intervals or sooner if they appear excessively dirty or damaged. Always use genuine spare parts to ensure compatibility and optimal performance. 6. Proper installation: When replacing hydraulic filters, ensure that they are installed correctly and securely. Pay attention to any seals or gaskets that may need to be replaced as well. Improper installation can lead to leaks or reduced filtration efficiency. 7. Monitor performance: After replacing the hydraulic filters, monitor the pump's performance closely. Pay attention to any changes in pressure, flow rate, or unusual noises. If you observe any abnormalities, it may indicate a problem with the filter or other components, and further investigation may be necessary. By following these steps, you can properly maintain and replace hydraulic filters in your concrete pump spare parts, ensuring optimal performance and prolonging the lifespan of your equipment.
- Q: Are there any warranties or guarantees available for concrete pump spare parts?
- Concrete pump spare parts come with warranties and guarantees to ensure their quality and performance. Various manufacturers and suppliers provide these warranties, which typically cover defects in materials or workmanship. The coverage period usually ranges from a few months to a year or more. Furthermore, some suppliers offer guarantees on the performance or durability of their spare parts, providing customers with reassurance. To ensure your protection in case of any issues, it is advisable to inquire about the specific warranty or guarantee terms before purchasing concrete pump spare parts.
- Q: How often should concrete pump filters be inspected and replaced?
- Regular inspections of concrete pump filters are recommended, ideally once a week. The replacement frequency will vary based on factors such as pump type, concrete quality, and working conditions. Typically, clogged or inefficient filters should be replaced. This can happen every few weeks to a few months. It is essential to keep filters clean and functional to avoid blockages, improve pump performance, and prolong equipment lifespan.
- Q: What is the role of a concrete pump hopper agitator shaft?
- The role of a concrete pump hopper agitator shaft is to ensure the consistent and uniform mixing of concrete within the hopper. The agitator shaft is typically fitted with a series of paddles or blades that rotate within the hopper, effectively stirring the concrete and preventing it from settling or separating. This helps to maintain the desired fluidity and consistency of the concrete, allowing for smooth and efficient pumping without any blockages or clogs. The agitator shaft also helps to dislodge any hardened or stuck concrete, ensuring that the hopper remains clean and free from any obstructions. Overall, the agitator shaft plays a crucial role in keeping the concrete well-mixed and ready for pumping, thereby enhancing the performance and productivity of the concrete pump.
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Rubber End Hose With Two Side Couplings Working Pressure 85 Bar 3M*DN125
- Ref Price:
-
- Loading Port:
- Shanghai
- Payment Terms:
- TT OR LC
- Min Order Qty:
- 10 pc
- Supply Capability:
- 5000 pc/month
OKorder Service Pledge
Quality Product, Order Online Tracking, Timely Delivery
OKorder Financial Service
Credit Rating, Credit Services, Credit Purchasing
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