• Italian prop / telescopic steel prop 2.2-4M System 1
  • Italian prop / telescopic steel prop 2.2-4M System 2
  • Italian prop / telescopic steel prop 2.2-4M System 3
  • Italian prop / telescopic steel prop 2.2-4M System 4
Italian prop / telescopic steel prop 2.2-4M

Italian prop / telescopic steel prop 2.2-4M

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Loading Port:
China Main Port
Payment Terms:
TT or LC
Min Order Qty:
1500 Piece/Pieces pc
Supply Capability:
10000 pc/month

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1.     Length 2200-4000mm 

2.     Outer tube diameter 56mm 

3.     Inner tube diameter 48mm 

4.     Tube material : Q235 

5.     Tube thickness  : 1.8mm , 2.0mm , 2.5mm . 3.0mm

6.     weight :                10kgs,11kgs,12.9kgs,16.6kg

7.     square  plate : 120*120*4mm 

8.     Italian type nut 

9.     G-pin 12 

10.    Painted surface 

11.    Color : as customer 's request . red / blue / green / orange/ brown 

 

Packaging & Delivery

Packaging Details:packaging :50pcs / bale container : 1680pcs / 20ft
Delivery Detail:20-30days after receive deposit

Specifications

Adjustable props / construction prop 
Height 2.2-4M 
Italy type painted props 

Adjustable props

Shoring props

Construction scaffold steel prop

Scaffold props

Telescopic steel props 

Steel Prop is a labour and time saving device to support shuttering and centering.

It is made outer tube of 60mm (O. D.) & inner pipe of 48mm (O. D.)

or outer tube 56mm (O.D.) & inner pipe 48mm (O.D.)  , 

or outer tube 48mm (O.D.) & inner pipe  40 mm (O.D.)  moving in each other telescopically.

The surface has painted , powder , electric galvanized and hot dipped galvanized .

The height use of props by double staging is recommended upto 7000mm only .

Top and bottom plate are provided with nail holes for wooden beam or steel beam .

The top has square shape , flower shape or U-head , U-fork head .

U-head can use fix or adjustable .

Q: What are the load testing procedures for steel props?
Load testing procedures for steel props typically involve the following steps: 1. Prior to conducting any load testing, it is crucial to visually inspect the steel props to ensure their good condition. Check for any signs of damage, such as cracks, bends, or rust. If any defects are found, the props should be repaired or replaced before proceeding with the load testing. 2. Determine the maximum load that the steel props are designed to support. This information can usually be found in the manufacturer's specifications or guidelines. Select a test load within this range, typically around 75-80% of the maximum load capacity, to ensure the props are not overstressed during the test. 3. Prepare the testing area by clearing any obstacles and ensuring a stable and level surface. Place the steel props in the desired position and secure them firmly to prevent any movement during the test. 4. Gradually apply the predetermined test load to the steel props. This can be achieved by using hydraulic jacks, weights, or other suitable equipment. Monitor the props closely during this process, checking for any signs of deformation or failure. 5. Once the test load is applied, it should be maintained for a specific duration, usually around 24 hours, to evaluate the props' long-term stability and durability. Continuously monitor the props during this time to ensure they can adequately support the load without any signs of failure. 6. Throughout the load testing process, record any observations, measurements, and data collected. After the test is complete, analyze the results to determine if the steel props meet the required load-bearing capacity. Assess any structural deformations or failures that may have occurred during the test and evaluate the props' overall performance. 7. If the steel props pass the load test, they can be considered safe and suitable for use. However, it is important to regularly inspect and maintain the props to ensure their continued reliability. Conduct periodic load testing at recommended intervals to verify their ongoing strength and performance. It is worth noting that load testing procedures may vary depending on specific regulations, standards, or industry requirements. Therefore, it is advisable to consult relevant guidelines and seek professional advice when conducting load testing for steel props.
Q: Can steel props be used in construction of underground parking structures?
Underground parking structures can utilize steel props, also referred to as steel shores or acrow props. These adjustable support columns serve the purpose of providing temporary support during the construction process. Steel props are commonly employed in various construction projects, including underground parking structures, to ensure the structure's stability and prevent potential collapse. The use of steel props in underground parking construction offers several advantages. Firstly, they possess a high load-bearing capacity, durability, and adjustability. These props can be easily modified to different heights, allowing for flexibility in supporting the structure at different stages of construction. Additionally, steel props can be securely anchored to the ground, guaranteeing stability and ensuring the safety of both workers and the structure itself. Furthermore, steel props are often employed in conjunction with other construction techniques, such as formwork systems. This combination results in a secure and efficient construction process, allowing for increased speed and accuracy when building underground parking structures. In conclusion, considering their strength, adjustability, and compatibility with other construction techniques, steel props prove to be a suitable choice for the construction of underground parking structures.
Q: How to reinforce the lower part of the steel structure of the construction elevator on the roof of the non - air defense garage
In this way, the free height is the base plane of the tower foundation per square load, there is no calculation of partial coefficients, close to 5 tons, 50KN. Lifting, consider the torque, the edge of the pressure is even greater. Such a large load, placed in the plate can not be placed on the beam is not. Can only be arranged in the stigma. However, even if the column doubled fortunately. How to solve the foundation?
Q: Can steel props be used for temporary support in bridge expansion joint replacement?
Indeed, temporary support in bridge expansion joint replacement may be achieved through the utilization of steel props. In construction endeavors, steel props find frequent application for the purpose of furnishing provisional support to structures during maintenance or repair activities. With their adjustable nature, durability, and capacity to withstand substantial loads, steel props prove themselves as an optimal selection for sustaining bridge segments throughout the replacement of expansion joints. The installation and alteration of steel props to the desired elevation is a straightforward task, thereby imparting stability and security to the bridge structure. Furthermore, the sturdy construction of these props guarantees their ability to endure the forces exerted during the replacement process, thereby upholding the bridge's integrity.
Q: Can steel props be used in supporting temporary playground equipment?
Yes, steel props can be used in supporting temporary playground equipment. Steel props are known for their strength and durability, making them suitable for providing stable support to playground equipment.
Q: Can steel props be used for supporting temporary grandstands?
Temporary grandstands can be supported using steel props. These props, also called adjustable steel props or steel acrow props, are commonly utilized in construction and temporary structures to offer stability and support. Due to their strength and durability, they are suitable for bearing the weight of temporary grandstands. Adjusting the height of steel props is easy, and they can handle heavy loads, making them an ideal choice for supporting temporary structures like grandstands. Moreover, their versatility allows for effortless installation and dismantling, a crucial factor for rapidly setting up and taking down temporary structures. All in all, steel props are a dependable and efficient solution for supporting temporary grandstands.
Q: What are the maintenance requirements for steel props?
The maintenance requirements for steel props include regular cleaning to remove dirt and debris, inspection for any signs of corrosion or damage, and lubrication of moving parts to ensure smooth operation. It is also important to store them in a dry and protected environment when not in use to prevent rusting.
Q: Are steel props suitable for use in the construction of religious buildings?
Yes, steel props are suitable for use in the construction of religious buildings. Steel props provide strong structural support and can be customized according to the specific requirements of the building. They offer durability, stability, and can withstand the weight and pressure of the construction process. Additionally, steel props can be easily adjusted or modified during construction to accommodate changes or additions to the building design.
Q: Can steel props be used for supporting temporary greenhouses or agricultural structures?
Yes, steel props can be used for supporting temporary greenhouses or agricultural structures. Steel props are strong, durable, and have high load-bearing capacity, which makes them suitable for providing structural support to temporary greenhouses or agricultural structures. They can be easily adjusted to the required height and provide stability to the structure. Moreover, steel props can withstand various weather conditions and are resistant to corrosion, ensuring the longevity of the support system. Overall, steel props are a reliable and cost-effective option for supporting temporary greenhouses or agricultural structures.
Q: What are the main advantages of using non-adjustable steel props?
There are several main advantages of using non-adjustable steel props in construction projects. Firstly, non-adjustable steel props offer a high level of stability and load-bearing capacity. These props are designed to support heavy loads and provide a secure and reliable structure. This is particularly beneficial in situations where there is a need for extra strength and stability, such as in the construction of tall buildings or large-scale infrastructure projects. Secondly, non-adjustable steel props are easy to install and operate. They come in pre-determined lengths, which eliminates the need for time-consuming adjustments. This not only saves time and effort during the installation process but also reduces the risk of human error. Additionally, the simplicity of non-adjustable steel props makes them ideal for use in a wide range of construction projects, from small-scale renovations to large-scale developments. Another advantage is the durability and longevity of non-adjustable steel props. These props are typically made from high-quality steel, which is known for its strength and resistance to damage. This means that they can withstand harsh weather conditions, heavy loads, and frequent use without deteriorating or losing their structural integrity. As a result, non-adjustable steel props provide long-term reliability and can be reused in multiple projects, making them a cost-effective solution. Furthermore, non-adjustable steel props offer versatility in application. They can be used in various construction scenarios, including formwork support, temporary scaffolding, and shoring systems. Their ability to adapt to different project requirements makes them highly versatile and practical. This versatility also extends to their compatibility with other construction materials, allowing for seamless integration into existing structures. Lastly, non-adjustable steel props are a safer option compared to alternative support systems. Their robust design ensures a stable and secure working environment for construction workers. Additionally, their load-bearing capacity reduces the risk of accidents or collapses during construction activities. This promotes a safer working environment and minimizes potential injuries or fatalities. In conclusion, the main advantages of using non-adjustable steel props include their high stability and load-bearing capacity, ease of installation and operation, durability and longevity, versatility in application, and enhanced safety features. These factors make non-adjustable steel props a popular choice in construction projects, providing a reliable and efficient support system.

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