Backhoe Loader
As an “all-round warrior” for earthwork, the backhoe loader integrates loading, excavation, crushing and leveling functions. Equipped with a large-capacity bucket (1.0-2.5m³) at the front and a hydraulic backhoe (excavation depth 4-8m) at the rear, it is suitable for municipal construction, pipeline laying, agricultural operations and other scenarios, and a single machine can complete multiple types of tasks.
Wheel Loader
Designed for efficient material handling, it is equipped with a high-torque engine and a heavy-duty bucket (1.5-10m³), with excellent climbing ability (≥30°) and lifting height (3-6m). It is widely used in high-intensity working environments such as mines, ports, and construction aggregate loading and unloading.
| Model | WZ25-30 | WZ30-40 |
| Dimensions | 6,800*2,040*2,850 mm | 7,000*2,100*2,950 mm |
| Operating Weight | 6,000 kg | 7,500 kg |
| Wheel Drive | 4X4 | 4X4 |
| Transmission Type | Hydraulic,Automatic | Hydraulic,Automatic |
| Engine | ||
| Engine Power | 75 kw(125hp) | 75 kw(125 hp) |
| Engine Type | Diesel, 4-cylinder,4-stroke | Diesel, 6-cylinder, 4-stroke |
| Loader Performance | ||
| Rated Load | 3000 kg | 3,500 to 4,000 kg |
| Capacity | 1.5 m3 | 1.75 m3 |
| Bucket Width | 2,200 mm | 2,200 mm |
| Max.Dump Height | 3,500 mm | 3,500 mm |
| Backhoe Performance | ||
| Capacity | 0.3m3 | 0.3m3 |
| Bucket Width | 600mm | 600 mm |
| Max. Dig Depth | 2,600 mm | 3,500 mm |
| (option 2,600 to 4,200 mm) | (option 3,500 to 4,200 mm) |
Backhoe Loader (also known as “Backhoe Loader”)
A backhoe loader is a two-in-one machine combining a loader and a backhoe. It retains the loader’s bucket at the front and features a rotating backhoe excavator at the rear. This dual-purpose machine combines both loading and excavation, making it a versatile tool for small and medium-sized projects.
1. Core Structural Features
Front: A small bucket (capacity 0.3-1.5 m³) with the same functions as a wheel loader, capable of both loading and bulldozing.
Rear: A backhoe excavator arm (usually capable of digging to a depth of 3-6 meters). The bucket rotates backward to dig (as opposed to the forward-digging mechanism of a face shovel). It can be equipped with attachments such as a breaker and ripper.
2. Core Functions
Combined Functions: Simultaneously performs “loading” (front end) and “excavating” (rear end), eliminating the need for frequent equipment changes.
Excavation Applications: Excavating foundation pits, ditches, and wells, clearing stagnant water pits, and crushing small rocks (with a breaker).
Loading Applications: Loading and unloading sand and gravel, backfilling, and leveling the site (the front end bucket and rear end excavator arm work in tandem).
3. Applicable Applications
Loaders are large earth-moving machines whose core function is loading. With their efficient material handling capabilities, they have become a workhorse in mining, infrastructure, logistics, and other applications. Wheel loaders, due to their high maneuverability, account for over 90% of these machines. (Crawler loaders are also available, suitable for softer terrain but with limited maneuverability.)
1. Core Structural Features
2. Core Functions
Core: Loading loose materials (soil, sand, gravel, coal, ore, etc.) and transporting them over short distances (typically within 100 meters for maximum efficiency).
Extensions: Utilizing attachments, it can perform tasks such as leveling the ground (reversed bucket), grabbing wood/steel (wood grabber), and clearing debris (fork bucket).
3. Applications
Skid-steer loaders are small machines designed for “flexibility, compactness, and 360° operation.” They’re named for the “differential slip” of their wheels while traveling (no steering wheels required, similar to a tank). They’re ideal for narrow space operations and are a powerful tool for specialized operations in indoor, alleyway, and low-lying environments.
1. Core Structural Features
2. Core Functionality
Core: Performing multi-functional tasks in confined spaces. Attachments determine functionality, covering nearly all light-duty tasks, including shoveling, grabbing, digging, breaking, sweeping, and forking.
Typical Applications: Indoor waste shoveling, tunnel cleaning, low-rise factory maintenance (e.g., replacing roofing materials, using a forklift arm for lifting), garden pruning (with a hedge trimmer), and floor milling (with a milling machine).
3. Applicable Applications
The true versatility of a backhoe loader comes from its attachments. By swapping out the front or rear tools, you can adapt it to nearly any job. Below are the most common attachments, organized by function:
| Attachment Type | Location | Key Uses |
| General Loading Bucket | Front | Shoveling/transporting sand, soil, gravel. |
| Six-in-One Bucket | Front | Bulldozing, leveling, backfilling, and grabbing—perfect for refined earthwork. |
| Road Sweeper | Front | Cleaning debris from roads, construction sites, or warehouses. |
| Fork System | Front | Lifting and stacking pallets, crates, or heavy materials. |
| Bucket Clamp | Front | Gripping irregular objects (pipes, lumber, concrete blocks). |
| Standard Excavation Bucket | Rear | Digging trenches, foundation pits, or drainage ditches. |
| Breaker | Rear | Crushing concrete, rock, or asphalt for demolition projects. |
| Vibration Tamper | Rear | Compacting soil, gravel, or asphalt for road repairs. |
| Rotary Drill/Auger | Rear | Drilling holes for fence posts, tree planting, or pile foundations. |
| Hydraulic Clamp | Rear | Grabbing and sorting bulk materials (wood, waste, scrap metal). |
For even more flexibility, add-ons like retractable backhoe arms (for tight corners) or quick-attach systems (to swap tools in seconds) further expand the machine’s capabilities.
The wheeled (or occasionally tracked) tractor chassis is the machine’s backbone. It provides:
The front loader is a large, bucket-shaped attachment mounted on hydraulic booms. Its primary uses include:
The backhoe is a hydraulically powered arm with a bucket at the end. It excels at:
Its hydraulic controls allow precise movement, making it ideal for detailed excavation work.
Without hydraulics, a backhoe loader can’t function. This system uses pressurized fluid to power both the front loader and rear backhoe, enabling smooth, responsive movement for lifting, digging, and attachment changes. Regular maintenance of hydraulic fluid and filters is critical to avoid breakdowns.
Xinyu Concrete Batching Plant use internationally renowned brands for the core components of the concrete mixing station:
1. The electrical components of the control cabinet are from Schneider of Germany, the PLC is from Siemens of Germany, and the computer is from Dell
2. The motor is from Siemens of Germany/JAC
3. The batching machine uses the vibration motor of OLI of Italy
4. The weighing system uses METTLER TOLEDO sensor, which is accurate in measurement, and the pneumatic components are from AirTac of Taiwan
5. The mixing host uses the Italian Sicoma host
XINYU understands that purchasing equipment is just the beginning. To ensure smooth operation, XINYU provides:
①Solution design: After clarifying customer needs, our engineers will design a unique solution diagram for customers
②Local installation team: Experienced technicians are responsible for on-site equipment installation to ensure correct settings and normal functions.
③After-sales support: Our local support team can promptly resolve any maintenance or operation issues, minimize downtime and improve efficiency.
This kind of service guarantees the smooth progress of construction projects and reduces the potential losses caused by equipment failures.
Customer Comments
Many construction companies have benefited from the use of Xinyu concrete batching plants.
A well-known local construction company in Romania bought our HZS60 Concrete Batch Plant, Construction Project Manager said: “Since using the Xinyu batching plant, our project efficiency has increased by 30% and the quality of concrete has also been significantly improved.The fully automated control system allows for almost zero operator error, and the energy consumption is 18% lower than similar products. It has become an indispensable part of our construction process.Even in the cold winter in Romania, the equipment still runs stably – this is definitely the industry benchmark.”
Warehouse with stocked equipment can meet customers’ immediate needs and ensure that customers can receive the required equipment quickly, thus reducing waiting time and transportation costs.
As the core link of modern building industrialization, the xinyu factory workshop is highly efficient, environmentally friendly and quality-controlled.
Industrialized production efficiency, full-process automated control, intensive resource management: dynamic monitoring of raw material inventory is achieved through the ERP system, and the comprehensive utilization rate of equipment is over 85%.
Green production technology innovation, intelligent upgrade potential, digital twin application: preventive maintenance of equipment is achieved through BIM modeling, and downtime is reduced by 60%.
Precise delivery builds extraordinary
24-hour intelligent production scheduling system, production starts as soon as the order is confirmed
Quality assurance, 12 indicators must be inspected before leaving the factory, and the compliance rate is 100%
Smart logistics center, ERP cloud platform: real-time viewing of production progress and transportation track
Environmental protection pioneer commitment, green passage guarantee
On-time delivery, safe delivery, clean delivery
Choosing us means choosing: worry-free × time-saving × cost-saving
We have offices in various countries and participate in exhibitions to provide you with the best service. Our engineers provide you with the most professional technical support, and our local agents provide you with the most suitable solutions for the construction conditions in your country.
Xinyu participated in the global high-end comprehensive exhibition, covering multiple fields such as construction machinery, mining equipment, industrial tools and accessories, such as concrete mixing plants, self-loading concrete mixer trucks, concrete pumps etc. After sufficient preparation, Xinyu’s high-performance concrete production equipment became a highlight of the exhibition. Face-to-face consultation with engineers. Bring drawings to site for customized solutions, which received widespread attention and praise from global customers.
Concrete mixing plants are commonly used in the following scenarios:
Large-scale projects: such as bridges, water conservancy projects, power projects, etc.
Centralized construction: suitable for projects with concentrated construction sites, long construction period and large engineering volumes.
Commodity concrete supply: provide pre-mixed concrete for construction sites to reduce pollution and resource waste from on-site mixing
With the development of municipal construction, Concrete mixing station due to its high degree of mechanization and automation, the productivity is high, the mixing station that adopts centralized mixing and provides commercial concrete has great advantages, so it has been rapidly developed, and has created conditions for promoting concrete pumping construction and realizing the joint operation of mixing, conveying and pouring machinery.
Briefly, measure materials such as aggregates, cement, water and additives, mix them in an accurate proportion to produce high-quality concrete, and then transport the final mixture to the construction site by means of the conveying system.
Step1: Feed Aggregates
Transport aggregates such as sand, crushed stone via a conveyor belt or hopper to a precision metering device, where they are accurately measured based on a preset proportion before being directed to the mixer.
Step 2: Add Filler
Deliver filler such as cement or fly ash to the filler metering unit by screw conveyor or pneumatic conveying system, and then add it to the mixer after accurate metering.
Step 3: Feed Water and Additives
The water/additive feed system delivers water and additives (such as water reducers and retarders) as appropriate to the mixer, in accordance with the performance requirements of the concrete.
Step 4: Mix
Upon activation of the mixing system, the rotation of the mixing blades thoroughly mixes aggregates, cement, water, and additives to form homogeneous concrete.
Step 5: Transport and Pour
After mixing is completed, finished concrete will be sent to the pouring site for construction by a delivery pump or mixer trucks.
Step 6: Clean and Maintain
After each production, clean and maintain the portable batching plant to ensure it remains clean and in optimal condition, thereby priming it for subsequent production.
1.1 Site selection principles
Close to the use of sales: commercial concrete mixing plant should be close to the use of commodity sales, and give full consideration to the proximity of the origin of key raw materials. General service radius of 50-100 kilometers to reduce transportation costs.
Convenient transportation: the site should have better road transportation conditions, the road surface has sufficient width, height and carrying capacity, reduce the frequency of congestion and route drainage engineering obstacles and other impact on the transport vehicle.
Power and water security: the site should be close to high-voltage power supply, convenient power distribution standards, and close to the water source, to ensure that there is sufficient production of tap water.
Sufficient site: the site should have sufficient office space to adapt to the current stage and future development needs.
Topographic leveling: the topography of the factory site should be leveled to reduce the cost of site leveling, and if there is a difference in height between the premises, it can also be effectively utilized, and consider the drainage problem in case of inclement weather.
2.1 Budget overview
According to the budget program of the mixing plant construction project, the total investment amount generally needs to consider the following aspects:
Land acquisition costs, construction costs, equipment procurement costs, raw material procurement costs, labor costs, other miscellaneous costs etc.
2.2 Project Size
Land area: about 2,000 square meters to more than 20,000 square meters ranging, according to the actual demand to determine.
Construction content: including storage silo, office building, living room, etc.
Production capacity: annual output of more than 300,000 cubic meters, according to the equipment configuration and market demand.
3.1 Mixing system configuration
Configure the mixing system and feeding and batching system according to the duration of the project, the total amount of concrete, the daily concrete consumption and other indicators, in order to meet the maximum daily concrete production.
One production line can be set up for general projects, and two production lines should be set up for larger and important projects, arranged side by side and symmetrically, so as to ensure uninterrupted supply of concrete.
3.2 Equipment selection
Mixer: according to the characteristics of soil mixing and mortar consistency to choose the right type of mixer, such as self-falling mixer or mandatory mixer.
Batching system: make sure the batching system is accurate and efficient to meet the production demand.
Conveying equipment: choose suitable conveying pump or transportation tanker to meet the conveying distance and height and the supply of concrete.
4.1 Installation process
Installation of the main body of the mixing plant: including the lifting and connection of the beam of the mixing layer, mixing main machine and weighing layer.
Installation of conveying equipment: such as belt conveyor, screw conveyor, etc., to ensure smooth and accurate conveying.
Installation of electric and control system: ensure the circuit connection is correct, safe and reliable.
Installation of auxiliary facilities: such as pool, cement silo, dust collector, etc., to ensure smooth production.
4.2 Precautions for use
Inspection before starting: carefully check the circuit and various meters, as well as the working status of key components.
Licensed to work: the operator must be licensed to work and strictly abide by the post regulations.
Safe operation: safety measures must be taken when the hopper is lifted, the hopper pit is cleaned, the mixing pot is repaired and other operations are carried out.
Wastewater disposal: After the task is finished, pour the wastewater into the designated sedimentation pool, and strictly prohibit arbitrary discharge.
5.1 Time schedule
Preparation stage: including site selection, budget, design, etc., takes about 1-2 months.
Construction phase: including civil construction, equipment installation, etc., takes about 3-6 months.
Commissioning stage: equipment commissioning and trial production, takes about 1 month.
5.2 Manpower Requirements
Manpower requirement: including project management team, construction team, equipment installers, operators, etc. The specific number of people will be determined according to the project scale.
Environmental protection requirements: Strictly comply with environmental protection regulations and equip with necessary environmental protection facilities, such as dust collector and waste water treatment pool.
Safe production: Strengthen safe production management to ensure the safety of personnel and equipment.
Quality control: establish a perfect quality management system to ensure that the quality of concrete meets the standard requirements.
7.1 Daily maintenance
Regularly clean, lubricate and inspect the equipment to ensure normal operation.
Replace worn parts in time to prevent equipment failure.
7.2 Regular Inspection
Carry out a comprehensive inspection and maintenance of the mixing plant, including the electrical system, mechanical system and conveying system.
Formulate a maintenance plan based on the inspection results and repair any problems found in a timely manner.
7.3 Personnel training
Regularly train operators to improve their operation skills and safety awareness.
Strengthen communication and cooperation with equipment suppliers to keep abreast of equipment updates and technological progress.
Effective maintenance of stationary batching plants includes:
Regular Inspection: Conduct periodic checks on various systems, including electrical, mixing, and feeding systems, to detect and address issues early.
Cleanliness: Ensure that both the equipment and surrounding areas are kept clean, with particular attention to the mixer interior and discharge ports.
Lubrication: Regularly lubricate rotating parts, bearings, and other components to maintain smooth operation.
Anti-freezing Measures: In colder regions, take precautions to prevent freezing of water pipes, tanks, and other sensitive parts.
Spare Parts Management: Keep essential spare parts in stock to enable quick replacements, reducing downtime and ensuring efficient plant operation.
Xinyu offers customized eco-friendly concrete batching plant services tailored to meet the specific environmental goals of customers in their construction projects.
Consultation: We begin with a consultation to understand your environmental objectives and project requirements.
Custom Design: The batching plant is designed to be as eco-friendly as possible, incorporating energy-efficient practices, water recycling, dust control, and environmentally friendly materials.
Emission Control: Xinyu integrates systems to reduce dust, noise, and pollution, ensuring the plant complies with stringent environmental regulations.
Water Management: The plant design includes options for water reuse and rainwater harvesting to minimize water consumption.
Energy Efficiency: We aim to reduce energy use through automation and intelligent management systems, making the plant as energy-efficient as possible.
Training: Xinyu provides training for your staff on eco-friendly plant operation and offers continuous support to maintain environmental standards.
Certification Assistance: Our team helps secure environmental certifications, enhancing your project’s appeal and regulatory compliance.
