24m Electric Telescopic Boom Lifts

G-J24Li Electric Telescopic Boom Lifts, offering unmatched aerial productivity with a maximum working height of 26.2 meters. Perfect for high-rise construction, telecom tower maintenance, and industrial tasks, the G-J24Li features IP65 waterproofing for all-weather durability. Its electric powertrain ensures eco-friendly operation, while four-wheel drive and balanced axles provide superior traction and stability on any terrain. Enhance your productivity and safety with the versatile G-J24Li Electric Telescopic Boom Lifts.

Capacity: ≤ 1 ton
Distance: > 11 m
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G-J24Li 24m Electric Telescopic Boom Lifts

Models & Specs

Specifications
Max. Working height26.2m
Max. Platform height24.2m
Max. Working radius20m
Platform Dimensions2.4*0.9m
Ⓐ Length(stowed)10.9m
Ⓑ Width(stowed)2.49m
Ⓒ Height(stowed)2.92m
Ⓓ Wheelbase3.2m
Ground clearance – center0.3m
Weight15100kg
Productivity
Max. Lift capacity300kg/450kg
Number of platform occupants3
Platform rotation±80°
Turntable rotation360° Continuous
Jib rotation (up/down)±70°
Drive speed – stowed5.5km/h
Gradeability – stowed45%
Max. Working angle (Tilt sensor activation)
Turning radius (outside)6.5m
Drive and steer mode4*2
Power
Battery80V/500Ah
Control voltage12V
Pump motor30kw
Drive motor5.2kw
Lithium BatteryStandard

Features

The Bosch Rexroth platform control panel is equipped with proportional joystick controls and an emergency stop button.

The Bosch Rexroth ground control panel features an IP65 waterproof design and an emergency stop button.

The boom utilizes self-weight lowering technology and a load-sensitive hydraulic system to ensure smooth and energy-efficient operation.

The platform can automatically level itself within a ±80° rotation range.

The 360° continuous rotation of the turntable allows the platform to reach worksites with enhanced flexibility.

Advanced four-wheel AC drive technology combined with steering differential control significantly reduces tire wear and motor overload rates.

Equipped with solid tires, skid-proof and explosion-proof with longer lifetime, providing a stable and labor-saving operation.

The international brand drag chain of the telescopic boom offers safety protection and guiding capabilities for the cables inside the booms.

Videos

18m Electric Telescopic Boom Lift
How to Operate Telescopic Boom Lifts Step by Step Guide

Diagram

Other Boom Lifts

FAQ

Both telehandlers and telescopic boom lifts are versatile machines used in construction and industrial applications, but they serve different primary functions and have distinct features. Here’s a comparison:

Telehandler

  • Function: Primarily designed for material handling. Telehandlers can lift, move, and place heavy loads at varying heights and distances.
  • Design: Features a boom that extends out and up, often equipped with forks, buckets, or other attachments for different tasks.
  • Maneuverability: Generally has four-wheel drive and can navigate rough terrain, making it suitable for outdoor construction sites.
  • Load Capacity: Typically has a higher load capacity, ranging from 5,000 to 12,000 pounds or more, depending on the model.
  • Versatility: Can be used for lifting, towing, and transporting materials, making it a multi-functional machine.

Telescopic Boom Lift

  • Function: Primarily designed for reaching heights and providing aerial access for personnel and equipment. It is used for tasks such as maintenance, construction, and cleaning at elevated heights.
  • Design: Features a boom that extends vertically, with a platform or bucket at the end for workers to stand in. The platform can often rotate and articulate.
  • Maneuverability: While also capable of navigating uneven terrain, it is generally less rugged than telehandlers and is often used on smoother surfaces.
  • Load Capacity: Typically has a lower load capacity than telehandlers, usually around 500 to 1,000 pounds for the platform and occupants.
  • Focus: Primarily focused on providing elevated access rather than material handling.

A telescopic boom lift is a type of aerial work platform that is designed to provide elevated access for personnel and equipment to hard-to-reach areas. Here are the key features and aspects of telescopic boom lifts:

Key Features

  • Extendable Boom: The primary feature of a telescopic boom lift is its extendable boom that can be raised and extended horizontally. This allows operators to reach high or distant work areas safely.
  • Platform: At the end of the boom, there is typically a platform or basket where workers can stand while performing tasks such as maintenance, construction, or cleaning.
  • Height and Reach: Telescopic boom lifts come in various sizes, with maximum working heights typically ranging from around 30 feet to over 100 feet, depending on the model.
  • Stability: These lifts are designed with stability in mind, often equipped with outriggers or stabilizers to ensure safe operation on uneven surfaces.
  • Control Systems: Operators usually control the lift from within the platform, allowing for precise maneuvering and positioning at height.

Applications

  • Construction: Used for tasks such as installing windows, roofing, and other high-altitude work.
  • Maintenance: Ideal for maintaining and repairing buildings, bridges, and other structures.
  • Cleaning: Commonly used for high-rise window cleaning and facade maintenance.

Advantages

  • Access to Heights: Provides safe access to elevated work areas that may be difficult to reach with ladders or scaffolding.
  • Versatility: Can be used in various environments, including construction sites, warehouses, and industrial facilities.
  • Safety Features: Equipped with safety features like guardrails and emergency lowering systems to protect operators.

An electric boom lift is a type of aerial work platform powered by electric motors, designed to provide elevated access for personnel and equipment. Here are the key features and aspects of electric boom lifts:

Key Features

  • Power Source: Electric boom lifts operate on electric batteries, making them more environmentally friendly compared to their diesel or gas counterparts. They are quieter and produce no emissions during operation.
  • Boom Design: Similar to other boom lifts, electric boom lifts have an extendable boom that can be raised and articulated to reach high or distant work areas.
  • Platform: They feature a platform or basket at the end of the boom, allowing workers to perform various tasks safely at height.
  • Height and Reach: Electric boom lifts come in various sizes, with working heights typically ranging from around 30 feet to over 60 feet, depending on the model.
  • Maneuverability: Many electric boom lifts are designed for indoor use, featuring compact designs that allow them to navigate tight spaces and doorways easily.

Applications

  • Indoor Work: Ideal for use in warehouses, factories, and indoor construction sites where emissions and noise need to be minimized.
  • Maintenance: Commonly used for maintaining lighting, HVAC systems, and other infrastructure in high places.
  • Installation: Suitable for installing fixtures, signs, and other equipment at elevated heights.

Advantages

  • Environmentally Friendly: Electric boom lifts produce zero emissions during operation, making them suitable for indoor environments and reducing environmental impact.
  • Lower Operating Costs: Typically have lower fuel and maintenance costs compared to diesel-powered lifts.
  • Quieter Operation: The electric motors operate more quietly, which is beneficial in noise-sensitive environments.

Electric Boom Lifts

  1. Power Source:
    • Powered by electric batteries.
    • Emission-free during operation, producing no exhaust fumes.
  2. Applications:
    • Ideal for indoor use, such as in warehouses, manufacturing facilities, and shopping malls.
    • Suitable for noise-sensitive environments.
  3. Performance:
    • Run Time: Limited by battery life; may require recharging after extended use.
    • Speed: Generally operates at slower lifting and maneuvering speeds compared to diesel models.
    • Stability: Often designed for a lower center of gravity, enhancing stability in lighter loads.
  4. Maintenance:
    • Generally requires less maintenance due to fewer moving parts compared to diesel engines.
  5. Cost:
    • Typically lower initial costs and operational costs due to reduced fuel needs and maintenance.

Diesel Boom Lifts

  1. Power Source:
    • Powered by diesel fuel engines, providing robust power for heavy lifting.
    • Produces emissions and exhaust fumes during operation.
  2. Applications:
    • Best suited for outdoor use, particularly on construction sites, rugged terrains, or areas requiring high mobility.
    • Capable of handling rough and uneven ground conditions.
  3. Performance:
    • Run Time: Can operate for longer periods without the need to recharge; can refuel quickly.
    • Speed: Often faster in lifting and maneuvering, making them suitable for high-demand jobs.
    • Terrain Handling: Typically has larger tires and better traction, allowing them to navigate rough surfaces more effectively.
  4. Maintenance:
    • May require more frequent maintenance due to the complexity of diesel engines and the need for fuel system upkeep.
  5. Cost:
    • Generally higher fuel and maintenance costs compared to electric models.

Both scissor lifts and telescoping boom lifts are types of aerial work platforms, but they have distinct designs and functions. Here’s a comparison of the two:

Scissor Lift

  • Design: Scissor lifts consist of a platform that moves vertically via a crisscrossing (scissor-like) mechanism. They typically have a rectangular base and extend straight up.
  • Height and Reach: Scissor lifts generally have a limited vertical reach compared to telescoping booms, with maximum heights typically ranging from 20 to 60 feet.
  • Stability: They provide a stable platform for workers and have a larger work area compared to boom lifts, making them suitable for tasks that require multiple workers or equipment.
  • Use Cases: Ideal for indoor applications, such as maintenance, installation, and warehousing tasks, where a stable platform is needed.
  • Maneuverability: Scissor lifts may have limited horizontal reach; they primarily move up and down, making them less versatile for reaching out over obstacles.

Telescoping Boom Lift

  • Design: Telescoping boom lifts have a long, extendable boom that can reach up and out, allowing for greater flexibility in accessing hard-to-reach areas.
  • Height and Reach: They can achieve greater heights, often exceeding 100 feet, and can extend horizontally, giving them the ability to reach over obstacles.
  • Stability: While they provide a stable platform, telescoping boom lifts can be less stable than scissor lifts when fully extended, especially on uneven terrain.
  • Use Cases: Suitable for outdoor applications, construction, and maintenance tasks where workers need to access areas at various heights and distances.
  • Maneuverability: They offer better maneuverability and can navigate around obstacles due to their ability to extend both vertically and horizontally.

Summary

In summary, the main difference lies in their design and functionality:

  • Scissor Lifts: Provide vertical access with a stable platform, best for tasks requiring height without horizontal reach.
  • Telescoping Boom Lifts: Offer both vertical and horizontal reach, ideal for accessing hard-to-reach areas in various applications.

Electric Boom Lift

  • Power Source: Powered by electric batteries, making them environmentally friendly with zero emissions during operation.
  • Noise Level: Operates quietly, which is advantageous for indoor use and in noise-sensitive environments.
  • Use Cases: Ideal for indoor applications, such as warehouses, factories, and maintenance tasks where emissions and noise need to be minimized.
  • Maneuverability: Generally more compact and designed for tight spaces, allowing easy navigation through doorways and narrow aisles.
  • Operating Costs: Typically have lower fuel and maintenance costs, but may require charging infrastructure.
  • Limitations: May have limited outdoor use capabilities, especially in rough terrain, and can be less powerful in extreme conditions compared to diesel lifts.

Diesel Boom Lift

  • Power Source: Powered by diesel engines, providing greater power and torque for heavy-duty applications.
  • Noise Level: Generally louder than electric lifts, which can be a consideration in urban or noise-sensitive areas.
  • Use Cases: Suitable for outdoor applications, especially on construction sites or rugged terrains where higher lifting capacities and durability are needed.
  • Maneuverability: Often larger and heavier, which may limit their ability to navigate tight spaces but allows for greater stability on uneven ground.
  • Operating Costs: Typically higher fuel and maintenance costs due to the nature of diesel engines, but they are well-suited for demanding tasks.
  • Limitations: Produces emissions, which can restrict indoor use and requires adequate ventilation.

Summary

In summary, the key differences between electric and diesel boom lifts include:

  • Electric Boom Lifts: Environmentally friendly, quieter, and ideal for indoor use with lower operating costs.
  • Diesel Boom Lifts: More powerful and suitable for outdoor use, capable of handling rough terrain but with higher noise levels and operating costs.

Choosing between the two depends on the specific requirements of the job, including location, noise considerations, and the need for power and reach.

Articulating and telescopic boom lifts are both types of aerial work platforms, but they have distinct designs and functionalities. Here’s a comparison of the two:

Articulating Boom Lift

  • Design: Features a jointed or “articulated” boom that can bend at various points, allowing for greater maneuverability around obstacles.
  • Reach: Can extend vertically and horizontally, providing access to hard-to-reach areas, especially in tight spaces or over obstacles.
  • Stability: Typically offers a stable platform, but the articulating design can sometimes limit the maximum height compared to telescopic booms.
  • Use Cases: Ideal for applications where precise positioning is required, such as maintenance, construction, and tree trimming in crowded or complex environments.
  • Maneuverability: Excellent maneuverability due to the ability to navigate around obstacles, making them suitable for urban environments and complex job sites.

Telescopic Boom Lift

  • Design: Features a straight, extendable boom that can be raised and lowered vertically, often with multiple sections that telescope out.
  • Reach: Provides significant vertical reach and can extend horizontally, but may not navigate around obstacles as effectively as articulating lifts.
  • Stability: Generally offers greater height capabilities compared to articulating booms, making them suitable for tasks that require reaching high elevations.
  • Use Cases: Best for applications requiring high reach without the need to maneuver around many obstacles, such as construction, building maintenance, and outdoor work.
  • Maneuverability: While they can reach over obstacles, they may require more space to operate effectively than articulating boom lifts.

Summary

In summary, the main differences between articulating and telescopic boom lifts include:

  • Articulating Boom Lifts: Jointed design allows for excellent maneuverability around obstacles, ideal for tight or complex workspaces.
  • Telescopic Boom Lifts: Straight extendable design provides significant vertical reach, best suited for high-access tasks without the need for navigating around obstacles.

The choice between the two depends on the specific requirements of the job, including the environment, height needed, and the presence of obstacles.

Yes, a telescopic boom lift is classified as a Mobile Elevating Work Platform (MEWP).

What is a MEWP?

A MEWP is a type of equipment designed to provide temporary access for people or equipment to elevated work areas. Here are some key characteristics of MEWPs:

  • Mobility: MEWPs are mobile and can be easily moved from one location to another, making them suitable for various job sites.
  • Elevated Work: They are specifically designed to lift personnel and equipment to heights that are otherwise difficult to reach safely.
  • Types: MEWPs come in several forms, including scissor lifts, articulating boom lifts, and telescopic boom lifts, among others.

Why Telescopic Booms are MEWPs

  • Elevating Capability: Telescopic boom lifts provide vertical and horizontal reach, allowing workers to access high and hard-to-reach areas safely.
  • Platform Design: They have a platform or basket at the end of the boom for personnel to stand while performing tasks.
  • Safety Features: Telescopic boom lifts are equipped with various safety features, such as guardrails and emergency lowering systems, ensuring safe operation.

In summary, telescopic boom lifts are indeed considered MEWPs due to their design and functionality aimed at providing safe access to elevated work areas.

G-J24Li 24m Electric Telescopic Boom Lifts

Custom Options

Customize Your Lifts

Specifically sized, configured, mobile, high-cycle, or automated – when you need a lift to perform a specific function, we have the materials, components, and design techniques to produce a one-of-a-kind lifting solution for your application.

controls
Safety
Mobility
Platform Configurations
Platform Shuttle
Tilt
Turn & Rotate
Conveyors
High Travel
High Capacity
Automation
Actuation
Lift Deflection
Speed
Indexing
Locking Pins & Devices
Power Units
Measuring
Materials & Surfaces
Gates & Enclosures

Lift Product Videos

Customized Cases

AGV Ready Guide Rail Hydraulic Lift

Custom AGV‑interfacing lift for smart factories: 2‑ton capacity, 3.5m travel, only 400mm pit depth (2:1 speed hydraulics), 1800×2000mm platform, PLC control, reserved AGV interface, interlocked roller doors. Enables automatic cross‑floor AGV transfer – no manual intervention.

5‑Ton Servo Rotating Platform for Autonomous Vehicle Testing

Custom 5‑ton heavy‑duty servo turntable for a leading autonomous driving equipment manufacturer. 5m diameter, flatness ≤±4mm, speed 1‑5°/s, 10° step positioning with ≤±0.5° error. Siemens servo closed‑loop control, MODBUS RTU communication. Ideal for power system, steering durability and vehicle calibration tests of unmanned forklifts and driverless vehicles.

Mecanum Omnidirectional Lifting & Extending Platform for Railway Coupler Alignment

Custom Mecanum‑wheel platform for CRRC railway workshop: omnidirectional movement (forward/back/sideways/diagonal), lifting 800-1900mm, extending 0-1000mm, wireless remote, LiFePO₄ battery (8h+), smooth rail crossing. Replaces forklift for precise coupler mounting – improves efficiency and safety. Read the railway automation case study.

Pit less Reciprocating Lift for Hygiene Products

Custom pit‑less reciprocating lift for Guangxi Haoyuan Hygiene Products: mounted on 100mm concrete slab with steel plate, 14.5m travel, 4 stops, 40 m/min lifting speed, 96 pallets/hour throughput, 16 roller conveyor sections, triple fall protection (speed limiter + safety gear + lifting mechanism). Read the high‑speed vertical conveying case study.

Automotive Metrology Lift & Rotate Platform

This lift and rotate platform is engineered for high-precision automotive measurement and inspection. Designed to integrate into a measurement pit, it provides stable lifting and precise angular positioning for vehicle alignment, underbody scanning, or component inspection.

Z Shape Reciprocating Lift for Automotive Brake Parts

Custom Z‑shaped reciprocating lift with 5‑strand chain conveyor for Zhejiang Libang Hexi. Pit‑less installation, 7m travel, 1‑ton capacity, 0‑60 m/min VFD, 11kW SEW motor, dual safety gears, Siemens PLC, light curtain + cargo detection, compatible with two pallet types. 32‑day urgent delivery. Read the automotive smart vertical conveying case study.

9m 4 ton Guide Rail Lift for Chemical Fiber Plant

Two custom 4‑ton guide rail hydraulic lifts for Jiaxing Fuda Chemical Fiber: 400mm shallow pit with 2:1 speed hydraulics achieving 9.3m travel. 3.2m wide platform, 2m steel mesh guardrails, PVC high‑speed roller doors with interlock, mechanical anti‑fall pushers. Ideal for heavy‑load vertical handling in chemical fiber, plastic, paper industries.

Reciprocating Lift for Factory Renovation|Pit‑less Through‑Floor + C‑Shaped Access

Two custom reciprocating lifts for a factory renovation project. On‑site change required floor slab opening and basement anchoring – columns extended 4.65m downward for pit‑less through‑floor installation. Only 2.65m beam spacing. C‑shaped access, 3 stops, 16.4m travel, 9.2kW SEW motor + dual safety gears. 30‑day urgent delivery. Read the case study.

3‑Axis Explosion‑Proof Scissor Lift for Paint Booth (USA)

Project type: 3‑axis explosion‑proof scissor lift (X‑axis travel + Y‑axis lift + Z‑axis extension) Client: LPG John (USA) End use: Personnel spraying operations inside a large paint booth Industry: Aerospace, heavy machinery, automotive – large workpiece coating
LIFT CAPACITY

PLATFORM LENGTH

1 – 3 m
PLATFORM WIDTH

≤ 1 m
TRAVEL DISTANCE

> 11 m