Auto-climbing Bracket ACB100 & ACB50 for formwork and scaffolding system
- Ref Price:
-
- Loading Port:
- Tianjin
- Payment Terms:
- TT OR LC
- Min Order Qty:
- 50 m²
- Supply Capability:
- 1000 m²/month
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Auto-climbing Bracket ACB100 & ACB50
The power of the auto-climbing formwork is the hydraulic system, which includes the oil cylinder
and two commutators. The commutators can control the climbing of climbing rail and the bracket.
The steel rail and the bracket can inter-climbing, so the whole system will climb up steadily.
Cranes are not needed during the construction. It’s easy to operate, highly efficient and safe. It’s
the best choice for the construction of high buildings and bridges.
There are mainly two types of standard auto-climbing brackets, ACB-50 and ACB-100, the figure
means the push power of cylinder with unit of KN.
Characteristics:
◆ Perfect load bearing anchor system
Anchor system is the most important supporting part. The system is made of five parts shown
below. Thereinto, tensile bolt, V-climbing cone and washer can be taken out for reusing after the
concrete pouring finished.There are two kinds of anchor systems,A & B. A is matched with single
anchor shoe and B is matched with double anchor shoe.
◆ Crane-independent
Crane-independent forming, striking and climbing speeds up the work procedures on the
construction site and also makes them independent of each other. This means the planned
sequences can be maintained along with guaranteeing high productivity levels. The crane can
therefore be used for other tasks.
Hydraulic system is mainly made of two commutators,
oil cylinder and power distribution system.The
commutators can control the climbing of climbing rail
and bracket.
◆ High bearing capacity and safe
The stable working platforms are able to carry large loads, e.g. the storage of reinforcing steel
for the next climbing section. Generously-sized working platforms, the well thought-out design for
handling very high wind loads and the patented control function of the climbing mechanism are
some of the special details contained within the comprehensive safety concept.
◆ Platforms adjusted to suit the angle of inclination
The horizontal working areas thus created provide safe and comfortable conditions for
reinforcement work, shuttering and striking, concreting and finishing.
◆ The ACB formwork system can climb not only vertically but also slantways, the largest angle is
18 degrees.
◆ The system can climb up wholly or separately. The climbing process is steady, synchronous
and safe.
◆ The bracket will not fall to the ground until the construction is finished, the field will be saved
and the impacting breakage will be reduced (especially the panel).
◆ The system will furnish omnidirectional platform, the construction organizations don’t need to
set up additional operation platform.
◆ The error of structure construction is small and easy to correct.
◆ The climbing speed is fast, the construction course will be quickened.
◆ The formwork can climb itself and cleaning work can be done in the same situs , the used times
of tower crane will be greatly reduced.
- Q:Can steel formwork be customized to specific project requirements?
- Steel formwork has the capability to be tailored according to the specific needs of a project. The versatility of steel as a material allows it to be easily shaped and crafted to meet the precise dimensions, shapes, and designs required for a particular project. As a result, intricate and distinctive formwork structures can be created, enabling the pouring of concrete in diverse sizes and shapes. Moreover, steel formwork can be modified and adjusted throughout the construction phase to accommodate any necessary modifications or alterations. The adaptability and flexibility of steel formwork render it a perfect option for projects that call for precise and personalized requirements.
- Q:What is the process for installing steel formwork?
- The process for installing steel formwork typically involves the following steps: 1. Preparation: The site is cleared and leveled to ensure a smooth surface for the formwork installation. 2. Measurement and marking: The dimensions and layout of the formwork are measured and marked on the ground or existing structure. 3. Assembly: The steel formwork panels, which are designed to interlock, are assembled according to the marked dimensions. The panels are secured together using various connecting methods, such as bolts, clamps, or pins. 4. Alignment and leveling: The formwork is aligned and leveled using leveling devices, such as spirit levels or laser levels. This ensures that the formwork is perfectly straight and even. 5. Reinforcement placement: If required, steel reinforcement bars are placed within the formwork to strengthen the concrete structure. 6. Bracing and support: Additional bracing and support are installed to reinforce the formwork and prevent any movement during the concrete pouring process. 7. Concrete pouring: Once the formwork is in place and properly secured, concrete is poured into the formwork, filling the desired shape or structure. 8. Curing and removal: After the concrete has cured, the formwork is removed carefully to avoid damaging the newly formed structure. The removed formwork can be cleaned and reused for future projects if it is in good condition. It's important to note that the specific process may vary depending on the project requirements, design, and the type of steel formwork being used. Professional expertise and adherence to safety guidelines are essential during the installation process.
- Q:What are the considerations when designing steel formwork for underground parking structures?
- When designing steel formwork for underground parking structures, there are various crucial factors that must be taken into consideration. These factors include: 1. Structural Stability: It is essential to ensure the steel formwork is designed in a way that guarantees structural stability and can withstand the significant loads imposed by the surrounding soil and the weight of the vehicles it will accommodate. 2. Water Resistance: Underground parking structures are prone to water infiltration, particularly in areas with high groundwater levels. The steel formwork should be designed to be watertight, implementing appropriate sealing and waterproofing measures to prevent water damage and maintain the structure's integrity. 3. Fire Resistance: Fire safety is of utmost importance in underground parking structures. The steel formwork should meet the required fire resistance standards and provide adequate protection against fire hazards. 4. Durability: Considering the constant traffic and wear and tear, the steel formwork should be designed to be durable and capable of withstanding the load and stress imposed by vehicles, as well as potential impacts from collisions or accidents. 5. Accessibility and Efficiency: The design should consider the accessibility of the parking structure, including the layout of ramps, entrances, and exits. It should also aim to maximize space utilization and efficiency, providing sufficient parking slots while ensuring safety and ease of use. 6. Maintenance and Repairs: The design should also address the ease of maintenance and repairs. It should incorporate accessible areas for inspection, maintenance, and repairs to facilitate efficient execution of necessary tasks. 7. Cost-effectiveness: Finally, the design should strike a balance between meeting all necessary requirements and being cost-effective. It is crucial to consider the overall cost of materials, construction, and maintenance when designing the steel formwork for underground parking structures. By carefully considering these factors, engineers and designers can create efficient and effective steel formwork for underground parking structures that meet all necessary requirements for safety, durability, and functionality.
- Q:What are the characteristics of steel formwork
- 3, the template adsorption force is small, easy demoulding.4, the number of turnover, generally can be used 50 times.
- Q:How does steel formwork compare to other formwork materials in terms of cost?
- Steel formwork is generally more expensive compared to other formwork materials such as wood or plastic. However, it offers numerous advantages including durability, reusability, and better structural stability, which can offset the initial higher cost in the long run.
- Q:Can steel formwork be used for pre-stressed concrete elements?
- Yes, steel formwork can be used for pre-stressed concrete elements. Steel formwork provides high strength and durability, making it suitable for handling the high stresses and pressures involved in the pre-stressing process. Additionally, steel formwork allows for precise shaping and alignment of pre-stressed concrete elements, ensuring accurate results.
- Q:How is steel formwork assembled?
- Steel formwork is assembled by first erecting vertical steel supports which are secured in place. Horizontal steel beams are then connected to the vertical supports to create a sturdy framework. Steel panels are then attached to the framework to form the desired shape of the concrete structure. Finally, the gaps and joints between the steel panels are sealed to ensure proper containment and support during the pouring of concrete.
- Q:What are the different types of formwork spacers used in steel formwork?
- There are several different types of formwork spacers used in steel formwork, including plastic spacers, metal spacers, and adjustable spacers. Plastic spacers are commonly used due to their lightweight nature, ease of installation, and durability. Metal spacers are often used in heavy-duty applications or where extra strength is required. Adjustable spacers are versatile and allow for flexibility in creating different formwork thicknesses.
- Q:What are the different safety features incorporated in steel formwork systems?
- Workers' protection and the overall success of construction projects are ensured by steel formwork systems, which are equipped with numerous safety features. These features include: 1. Robust Construction: Steel formwork systems are constructed using high-quality steel materials, providing strength and stability. This strong construction reduces the risk of collapse or structural failure, ensuring the safety of workers. 2. Adjustable Support Systems: Props and jacks are incorporated into steel formwork systems to allow for precise adjustment and leveling. This ensures stability and prevents the formwork from shifting or collapsing. 3. Guardrails and Toe Boards: Standard safety features of steel formwork systems include guardrails and toe boards. These prevent workers from falling off the edges of the formwork, reducing the risk of accidents and injuries at height. 4. Non-Slip Surfaces: To enhance safety, steel formwork systems often have non-slip surfaces. These surfaces provide better traction and reduce the likelihood of workers slipping or falling, especially in wet or slippery conditions. 5. Safety Accessories: Many steel formwork systems come with additional safety accessories, such as safety nets, harnesses, and personal protective equipment (PPE). These accessories provide further protection for workers, preventing falls and ensuring compliance with safety regulations. 6. Easy Assembly and Dismantling: Steel formwork systems are designed for easy assembly and dismantling, minimizing the time workers spend at height. This reduces the risk of accidents during construction and promotes efficient workflow. 7. Fire Resistance: Steel formwork systems are often fire-resistant or fire-retardant, increasing safety in case of fire emergencies. This feature helps to prevent the rapid spread of fire and provides additional time for evacuation or firefighting. 8. High Load-Bearing Capacity: Steel formwork systems are engineered to have a high load-bearing capacity, allowing them to support heavy concrete loads. This ensures that the formwork can withstand the weight without deformation or failure, enhancing safety during construction. In conclusion, steel formwork systems prioritize worker safety and contribute to a safer working environment through their sturdy construction, adjustable support systems, guardrails, non-slip surfaces, safety accessories, easy assembly and dismantling, fire resistance, and high load-bearing capacity.
- Q:How does steel formwork affect the cost of construction?
- The overall cost of construction can be significantly influenced by steel formwork. Despite the need for a greater initial investment compared to traditional formwork materials like wood or plywood, steel formwork offers several advantages that can help counterbalance the increased cost. To begin with, steel formwork is highly durable and long-lasting, enabling it to be reused multiple times. Unlike wood or plywood formwork, steel formwork does not warp, rot, or deteriorate over time. This ability to be reused reduces the necessity for frequent formwork replacements, resulting in material cost savings in the long term. Moreover, steel formwork provides exceptional strength and stability, allowing for the construction of intricate and high-quality concrete structures. This strength permits the usage of thinner formwork elements, reducing the overall weight of the formwork system. Consequently, less labor and equipment are required for handling and installation, resulting in cost savings in terms of manpower and machinery. Furthermore, steel formwork facilitates faster construction cycles. The smooth and precise surface finish provided by steel formwork diminishes the need for extensive finishing work. This streamlined construction process saves time, ultimately reducing labor costs and project timelines. Additionally, steel formwork enhances safety on construction sites. Its robust nature and secure connections guarantee stability during concrete pouring and curing, minimizing the risk of accidents or structural failures. This improved safety aspect can help decrease insurance costs and potential legal liabilities. Lastly, steel formwork is highly adaptable and customizable. It can be easily modified and adjusted to accommodate various design requirements, making it suitable for a wide range of construction projects. This flexibility optimizes material usage and ensures minimal wastage, thereby reducing overall construction costs. In conclusion, although steel formwork may initially incur a higher cost, its long-term benefits such as reusability, strength, speed, safety, and adaptability contribute to overall cost savings in construction projects. Its durability and efficiency make it a cost-effective choice that can positively impact the quality, timeline, and budget of any construction undertaking.
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Auto-climbing Bracket ACB100 & ACB50 for formwork and scaffolding system
- Ref Price:
-
- Loading Port:
- Tianjin
- Payment Terms:
- TT OR LC
- Min Order Qty:
- 50 m²
- Supply Capability:
- 1000 m²/month
OKorder Service Pledge
Quality Product, Order Online Tracking, Timely Delivery
OKorder Financial Service
Credit Rating, Credit Services, Credit Purchasing
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