QTZ63B Tower Crane-Shandong Hongda Construction Engineering Group

Product Name: QTZ63B Tower Crane
Product Categories: pointed tower crane
Company Name: Shandong Hongda Construction Engineering Group
Contact Number: +86 151-6687-9287/+86 185-6380-8068
Contact Address: No. 26, Longmen East Road, Laiyang City, Shandong Province

Product Details

QTZ63B Tower Crane

The QTZ63B tower crane is a reinforced tower crane designed to meet standards such as GB/T50311 “Tower Cranes” and GB5144 “Safety Regulations for Tower Cranes.” It features a rated lifting moment of 63 t·m and a lifting capacity of 6 tons, with models including TC5610, TC5013, TC4516, and TC4020. with a lifting capacity of 6 tons. Available models include TC5610, TC5013, TC4516, and TC4020. The hoisting mechanism employs variable-pole speed control, while the slewing mechanism utilizes variable-frequency speed regulation. The luffing mechanism incorporates a planetary gear reducer with an integrated drum. The electrical control system utilizes imported components, and safety protection devices are either mechanical or mechatronic products, ensuring comprehensive reliability. This crane supports fixed, traveling, attached, and internal climbing configurations, meeting diverse construction needs for mid-to-high-rise urban buildings, industrial plants, power station dams, bridges, and other structures.

QTZ63B Technical Specifications

Model	QTZ63B（5610）	QTZ63（5013）
Magnitude (M)	56	50
Independent Height (M)	41	41
Maximum Height (M)	161	161
Maximum Lifting Capacity (T)	5	6
Wall-mounted bracket (rail)	6	6
Primary limb material	135×135×10 (Square Steel Pipe) Strengthen the Festival135×135×12 (Square Steel Pipe)	135×135×10 (Square Steel Pipe) Strengthen the Festival135×135×12 (Square Steel Pipe)
Standard Section Dimensions	1.835×1.835 ×2.5	1.835×1.835 ×2.5
Lifting speed (a=2) m/min	80/40/10	80/40/10
Rotational speed r/min	0.62	0.62
Speed of change m/min	40/20	40/20
Base configuration	1. Crossbeam diagonal brace with weight-bearing mechanism 2. Leg-type non-weight-bearing 3. Mobile base 4. Internal Climbing Type	1. Crossbeam diagonal brace with weight-bearing mechanism 2. Leg-type non-weight-bearing 3. Mobile base 4. Internal Climbing Type

Technical Specifications:

Lifting Performance Table Hoisting performance list:

Standard Number Standard number	Model Type	Qty.	Application Site Used in
QW1250.40	Slewing ring Z=144 m=10	1	Slewing mechanism
YWZ3-315/45	Braker	1	Hoisting mechanism
YZTD225L-4/8/32	Motor 24/24/5.4KW	1	Hoisting mechanism
YDEJ132S-4/8	Motor 3.3/2.2 KW	1	Trolley travelling mechanism
YLEF112L-6-55	Torque Motor	2	Slewing mechanism
YZR132M2-6	rounding-line motor	2	Slewing mechanism
XWL-CL-6T	Measuring force ring	1	Jib
BWL-D5	Moment limiter	1	chord of cat head

【Hoisting Mechanism】:

The hoisting mechanism (1560 kg) utilizes a YZTD225L-4/8/32 three-speed motor. The motor drives the reduction gearbox via a splined coupling, which in turn drives the drum. This configuration enables three distinct hoisting speeds, ensuring smooth starts and stops with minimal impact. With a 2-rope configuration, speeds reach 80 m/min, 40 m/min, and 10 m/min. A 4-rope setup achieves 40 m/min, 20 m/min, and 5 m/min.

A hydraulic push-rod brake (YWZ3-315/45) is installed at the input shaft end of the reduction gearbox (see Figure 4-13). A height limiter is mounted on one side of the drum. This height limiter can be adjusted to the required height, offering reliable control, simple operation, and convenient maintenance.

【Rotary Mechanism】:

The slewing mechanism is the transmission device that provides power for the upper slewing of the tower crane. This device consists of a torque motor with a brake at the rear, a planetary gear reducer, a pinion gear, and a slewing limiter. This tower crane employs two such devices, symmetrically distributed on both sides of the slewing bearing and mounted on the upper support. Their pinion gears mesh with the large ring gear of the slewing bearing.

The input end of the reducer is equipped with a normally open disc brake; it can be used for tower crane jacking operations and for braking and positioning the boom during fixed-point operations.

The slewing limiter is used to restrict the tower crane's rotation to 540° in a single direction, preventing cable breakage.

【Variable-Angle Mechanism】:

The boom hoist mechanism (320 kg) is driven by a dual-speed motor YDEJ132-4/8-3.3/2.2. This motor drives the drum via a planetary gear reducer, enabling the load trolley to traverse the boom at two speeds—20 m/min and 40 m/min—through the wire rope system.

The motor tail features a disc brake that provides delayed braking when the trolley motor is de-energized.

The amplitude limiter prevents misoperation by stopping the trolley before it contacts the buffer at the base of the boom.

【Standard Tower Section】:

Close-up of the main limb:

Tower sections are available in two specifications based on design strength: reinforced sections and standard sections. Reinforced sections feature walls 2mm thicker than standard sections. These sections are connected using 8-M36 special high-strength bolts. A resting platform is provided every three sections. Standard sections of the same specification are interchangeable.

【Boom】:

The boom adopts a double-point lifting spatial truss structure, divided into nine sections. Each upper chord of the second and sixth sections features a tie rod lifting point, with sections connected via pins. A trolley traction mechanism is mounted on the first section, while a wire rope anti-twist device is installed at the boom tip. With a standard length of 56 meters, the boom can be reconfigured into four alternative lengths—51m, 46m, and 41m—to accommodate varying rotation space requirements. A trolley luffing mechanism is integrated into the base section of the boom, complete with a walkway frame for convenient installation and maintenance.

【Upper and Lower Supports】:

The upper support is mounted on the slewing bearing and connected to its inner ring. The lower support is a box-shaped support for the non-rotating section of the crane. Its upper surface is fitted with the outer gear ring of the slewing bearing. The lower support is bolted to the outer ring of the slewing bearing, enabling relative rotational movement between the upper and lower supports via the slewing mechanism. The upper support connects to the rotating tower body above, while the lower support connects to the standard tower sections below.

【Rotating Tower Body】:

The lower end of the rotating tower body is connected to the upper support via four high-strength pins. The upper section is pinned to the tower top, while the front and rear lug plates connect to the counterweight arm and the lifting arm respectively.

【Rotary Limit Switch】:

【Tower Top】:

The top of the tower is a sloping cone, its upper end connected to the lifting arm and counterweight arm via tie rods to maintain the horizontal alignment of both arms, while its lower end is secured with four pins to

The rotating tower body connection features a work platform and pulley system at the top of the tower to facilitate the installation of the boom tie rods and counterweight boom tie rods.

【Driver's Cab】:

The cab serves as the operator's workstation for controlling the tower crane, fixed to the right side of the rotating tower body. The indicator lights and control handles of the integrated control console are positioned on both sides of the operator's seat, offering convenient operation and a wide field of view.

The cab electrical control box is located at the rear of the cab, housing the main circuit breaker, lighting circuit breakers, auxiliary circuit breakers, and other devices.

【Attachment Device】:

The system consists of a ring beam and four brace rods. During installation, the ring beam is tightly secured to the tower body. Both ends of each brace rod are hinged to the ring beam and to the pre-embedded supports in the building structure. By adjusting the tensioning screws, the four brace rods are tightened to securely connect the tower crane to the building structure perpendicular to the horizontal plane, ensuring the crane's axis remains vertical to the ground.

【Load Limiters】:

【Walking Device】:

The traveling mechanism features two powered trolleys, each comprising an electric motor, hydraulic coupling, worm gear reducer, disc brake, open gear rim, and travel wheels. The hydraulic coupling ensures smooth starting and braking of the tower crane, with a travel speed of 20 meters per minute.

The YZ160M2-6-7.5KW AC motor controls the operation of the control mechanism via the master controller. The normally closed disc brake at the tail end of the worm shaft releases during operation and applies delayed braking after shutdown and power disconnection. The delay time is adjustable to ensure a short stopping distance and prevent tower crane sway caused by abrupt braking.

Two limit switches are installed on the outer side of the active trolley to control the tower crane's travel within predetermined positions, ensuring operational safety.

【Electrical Control System and Safety Devices】:

This system employs a programmable logic controller for centralized control. The electrical control system utilizes internationally standardized configurations, with low-voltage electrical components sourced from imported equipment. It features a modular assembly design with rail-mounted installation. with rail-mounted installation. Operation is managed through two cross-type master controllers and push-button switches centralized in the driver's cabin, eliminating numerous intermediate relays and time relays required for logic control. Global sourcing employs international products such as OMRON PLCs and Schneider contactors, significantly enhancing overall system reliability while facilitating fault diagnosis, localization, and resolution. Additionally, electrical safety devices like anemometers and obstruction lights are included, along with mechanical safety features such as trolley axle break protection and traction rope break anti-runaway mechanisms.