Φ30-φ140 Lug Anchor (High Vanadium Cable), Hot Cast Anchor Lug Screw Adjustment Type

Product Description

Φ30-φ140 Lug Anchor (High Vanadium Cable), Hot Cast Anchor Lug Screw Adjustment Type

- Dawson Group Ltd. - China Manufacturer, Supplier, Factory

Zinc-5% aluminum-mixed rare earth alloy

Introduction to coated cable

The cable body is composed of a round steel wire as the center, and the outside is composed of one or more layers of spirally twisted round steel wires. The surface of the steel wires is coated with zinc-5% aluminum-mixed rare earth alloy. Both ends of the cable body are connected to anchors by casting, and are mainly used in prestressed structures such as railway stations, stadiums, convention and exhibition centers, cable formwork structures, glass curtain walls and bridge construction; production specifications φ20mm-φ160mm.

The product execution standard is "Zinc 5% Aluminum-Mixed Rare Earth Alloy Coated Cable for Construction Engineering" YB/T 4543-2016.

●Execute YB/T4542-2016 "Zinc-5% Aluminum-Mixed Rare Earth Alloy Coated Steel Strand for Construction Engineering".

●The structure consists of a steel wire core with one or more layers of spirally wrapped round steel wires.

●The surface of the steel wire is coated with Galfan coating (zinc 5% aluminum-mixed rare earth alloy coating).

It has strong corrosion resistance, metallic texture and beautiful appearance.

●φ30~φ140mm σb≥ 1670MPa, σb≥1770MPa

Hot cast anchor lug screw adjustment type

●Execute YB/T4543-2016 "Zinc-5% Aluminum-Mixed Rare Earth Alloy Coated Cables for Construction Engineering".

●The structure consists of a cable body and anchors at both ends. The anchor consists of a fixed end and an adjusting end.

●Scope of application: sports venues, convention and exhibition centers, etc.

●φ30~φ140mm σb≥1670MPa

Parameter table of lug anchor (High vanadium cable)

Cable body diameter d (mm)	Inner opening A (mm)	Outer opening B (mm)	End distance C (mm)	Pin diameter F (mm)	Fork lug depth E (mm)	Lug plate width G (mm)	Adjustment amount T (mm)	Breaking force (KN)
φ30	50	100	90	55	110	140	60	789
φ32	50	105	90	57	115	140	60	903
φ36	55	115	104	65	130	162	60	1140
φ40	65	135	115	73	145	182	60	1450
φ44	70	145	124	79	160	195	60	1710
φ48	75	155	140	88	170	215	60	2070
φ50	80	165	150	93	180	225	80	2180
φ55	90	180	165	102	195	250	80	2630
φ60	95	190	175	107	210	270	80	3190
φ65	105	210	185	117	230	290	80	3680
φ70	110	220	205	126	245	315	100	4310
φ75	115	235	220	136	260	340	100	4960
φ80	125	250	235	145	280	365	100	5640
φ85	130	265	250	155	295	385	100	6260
φ90	140	285	265	166	315	410	100	7230
φ95	145	295	275	174	330	430	100	7910
φ100	155	310	295	182	350	455	100	8800
φ105	160	320	300	186	360	：75	120	9770
φ110	170	340	315	196	380	500	120	10700
φ115	175	350	330	206	395	520	120	11460
φ120	190	370	345	215	415	540	120	12190
φ125	195	385	355	222	425	560	150	13800
φ130	200	395	370	228	440	575	150	14310
φ135	205	405	385	236	455	600	150	15430
φ140	210	420	395	245	475	620	150	17200

Products Show:

Other Related Products:

Instructions for use of cable

Instructions for using the cable:

After the cable product arrives at the designated location, it must be hoisted with fiber tape to protect the surface of the cable and the packaging from damage. The hoisting method adopts three-point hoisting, and the hoisting process needs to be carried out with care. (See Figure 1) During the lifting process, the cable should be prevented from colliding with other objects, causing damage to the cable. (See Figure 2)

The storage location for cable products should be dry, with the bottom padded with sleepers and completely covered with rain-proof cloth.

The storage location for cable products should be dry, with the bottom padded with sleepers and completely covered with rain-proof cloth. When stacking stay cables, sleepers should be used to cushion each layer of stay cables, and they should be stacked neatly, with no more than two bundles at most (see Figure 3).

The diameter of the cable is less than 50mm. The cable with a short length (less than 10m) can be directly hoisted and released by a crane (the cable should be left for a period of time to release the internal stress after the cable is released). The diameter is greater than 50mm and the length is longer. It is advisable to use a special cable tray to place the cable (see Figure 4). The main cable should be placed using a special cable tray (Figure 5).

Before placing the cables, steel bars and other hard sharp objects at the construction site should be cleaned up; avoid contact between the cable body and the ground. Smooth rubber rollers should be laid on the ground, and vertical protective rollers should be set up to ensure that the cable body is not scratched by hard objects on the ground during construction. .

During the pulling process of the cable, necessary special lifting clamps and traction tools must be used. The clamps are lined with rubber washers and then fixed on the surface of the cable body. It is strictly prohibited to directly bundle the steel wire rope on the surface of the steel cable sheath to avoid collision between the steel rope and other steel components (see Figure 6).

The packaging material wrapped around the cable is a protective layer that prevents the cable from direct contact with the outside world. It can also prevent contact scratches on the cable during transportation and release. At the same time, it also prevents external debris from contaminating the surface of the colored cable body after the cable is hung. Therefore, it is recommended not to open the packaging before the completion of the project. It is best to remove it after the completion of the project to ensure that the colored PE cable is intact and the color is intact. consistent.

When adjusting the cable tension, a special wrench or tool should be used to adjust the anchor, and a pad should be added between the two. It is strictly forbidden to use chain pliers, vise and other tools for direct loading to prevent damage to the surface protective layer.

The surface of the cable anchors is electro-galvanized before leaving the factory. Each batch of cables should be installed as soon as possible after arriving at the site. After installation, all exposed anchors of the cables should be repainted (painted). The painting method can be the same as that of the steel structure. Anti-corrosion grease should be applied to the exposed threaded parts, and the joints should be protected with sealing silicone to prevent corrosion. Ensure the protective performance and service life of the cable.

For high vanadium coated cables, the cable body will be tightened with iron wires before leaving the factory. The iron wires should not be removed before installation and tensioning to prevent skipping or drumming of the cable body.

Cable Fittings:

Health Monitoring

System Structure

Description of main features of the system

01 System measurement accuracy: 1.5%F.S;

02 Sensor installation method: installed inline at each anchor plate, meeting the IP67 protection level, and realizing the function of the rigging's own measuring device;

03 Sensor calibration method: The rigging is calibrated before leaving the factory, and no calibration is required on site;

04 The collection equipment is installed on the sensor side and connected through wired cables. The collection equipment is wirelessly transmitted to the network management gateway, and the gateway transmits it to the cloud platform through the GPRS network for display, storage and query, and the data collection granularity can be set;

05 The system can automatically complete remote data transmission. The cloud platform center processes and analyzes the measured data, and can realize the function of sending detection data reports and over-value warning information to the client. It has strong compatibility, and the measurement end, collection end, and platform can all implement standardized data interfaces to facilitate customer data application or development.

The entire system is divided into perception layer, collection and transmission layer, cloud processing layer and application layer. The sensing layer installs sensors through welding to realize real-time monitoring of the load stress of the rigging. The acquisition device collects signals and transmits them to the cloud platform through the ZIGBEE/GPRS wireless network. The cloud platform center processes and analyzes the uploaded data. Finally, Test results, data reports, and early warning confidence are sent to the client.

Software Application

The software application is mainly based on the rigging requirements, briefly sorting out the framework and function points of existing localized products, cloud platforms, and considering the support for the rigging detection system. The system can provide a good human-computer interaction interface to facilitate user operation and has the following functions:

Perception System

Smart Cable

Cables are widely used in large structures such as large bridges and have very important social significance and economic value to the bridge operation department. Intelligent cables will generally adopt institutional health detection technology that installs the detection system on the bridge after the bridge is completed, leaping to the point where the detection system and the structural system are truly organically integrated.

Working Principle

The intelligent cable system consists of intelligent induction nuts, cable bodies and other cable components, collection and transmission equipment, cloud and application terminals. When the cable is stressed, strain can be induced on the cable nut and cable body, and the acquisition equipment can collect the data at the sensing end and transmit it to the cloud through wired or wireless transmission, so that the detection data can be directly viewed or processed.

Intelligent Cable Force Measurement Process

① Intelligent cable production → ② Intelligent cable calibration → ③ On-site installation and layout of cable and equipment → ④ Load monitoring, of which ① and ② are completed in the factory, and ③ and ④ are implemented at the construction site. The development of smart cables can realize the load detection of the cable during tensioning and long-term load monitoring after anchoring, and at the same time realize portable installation, which can meet the construction requirements of current structures.

Smart Steel Tie Rod

Steel tie rods have the advantages of high strength, good toughness, economy and applicability, and have been widely used as direct units in prestressed steel structures. Whether the prestressed steel tie rods meet the design requirements during construction will be directly related to the load-bearing capacity and safety performance of the prestressed structure. Therefore, the detection and monitoring of its internal forces have become an important part of the construction stage. At present, the force measurement methods of steel tie rods mostly use the torque coefficient method or the hydraulic conversion method. The measurement results are affected by many factors, and the comprehensive factors are relatively large. It is difficult to meet the current construction requirements of prestressed steel structures. Smart steel tie rods are designed to realize the sensing and monitoring of structures through a set of smart steel tie rod systems. Provide effective evaluation data for construction personnel, construction and operation units, and colleagues on site Achieve convenient, fast, safe and effective installation.

Working Principle

The smart steel tie rod system consists of steel tie rod components such as induction fork lug pins or smart connections, collection and transmission equipment, cloud, and application terminals. The sensing principle adopts principles such as vibrating wire and resistance. When the steel tie rod is stressed, it can be sensed on the fork lug pin or connecting sleeve. The data of the sensing section is collected through the acquisition and transmission equipment and transmitted to the cloud through wired or wireless transmission. On the application side, you can directly check the stress status of the steel tie rod or process the detection data.

Smart Steel Tie Rod Force Measurement Process

① Production and production of smart steel tie rods → ② Calibration of smart steel tie rods → ③ On-site installation and layout of steel tie rods and equipment → ④ Load monitoring, of which ① and ② are processed in the factory, and ③ and ④ are implemented at the construction site.

The development of smart steel tie rods can realize load detection of steel tie rods during tensioning and long-term load monitoring after installation, while also achieving portable installation, which can meet the construction requirements of current structures.

Fork lugs, tie rods, smart connection sleeves

Portable display signal cable cloud terminal display equipment

Collection and transmission equipment

Advantage comparison

1High compatibility

Intelligent rigging itself is a system that can be connected to other subsystems as a main system or integrated into other systems as a subsystem. It has high compatibility; traditional sensors have poor compatibility and are incompatible with many systems and have great limitations.

2 System implementation efficiency

The system can be quickly brought online without complicated wiring.

3 On-site installation efficiency

Intelligent sensors, cables and rigging adopt integrated equipment or installation, which does not affect the normal installation and use of rigging, and the system adopts a wireless distributed design. Traditional sensors require on-site technical guidance from professionals for installation, and no wiring is required on-site, reducing on-site implementation and maintenance costs.

Engineering Project Cases Catalogue Download:

Package and Factory Show: