With the continuous advancement of urbanization and the vigorous development of construction industry, construction waste has become an increasingly serious environmental problem. Effective treatment and recycling of construction waste is essential for resource utilization and environmental protection.
How Will the Increasing In Construction Waste Influence Our Lives?
- The increase in the amount of construction waste: With the acceleration of urbanization, the scale and quantity of construction activities have increased rapidly, resulting in a sharp increase in the production of construction waste.
- Resource waste problem: A large amount of construction waste contains valuable reusable materials, but due to improper treatment, these resources are wasted.
- Environmental pollution risk: untreated construction waste will occupy land space, release harmful substances, and pollute soil, water and air.
As construction activities continue to rise, the amount of waste generated also increases, posing a significant threat to our environment and way of life.
In order to avoid the problem, it is necessary to break down construction waste.
When it comes to the equipment for dealing construction waste, it has to mention the c & d crushing equipment.
What Is A Construction Waste Crusher
The construction waste crusher device has many similarities in design with the common stone crusher. This means that the standard equipment we already use on sand and gravel processing lines can also be used to deal with construction waste. Through a series of crushing processes, these devices convert otherwise difficult construction waste into coarse and fine aggregates that can be reused.
On this processing line, various crushers are usually used, such as jaw crushers, impact crushers and cone crushers. Jaw crushers usually start with the initial crushing of the waste, while impact crushers and cone crushers carry out a more detailed treatment to ensure that the final aggregate meets the criteria for reuse.
Model | Feed opening (mm) | Max feeding size(mm) | Output size(mm) | Capacity(t/h) | Power(kw) | Overal dimension(mm) | Weight(t) |
---|---|---|---|---|---|---|---|
APJ-1525E | 150×250 | 130 | 15-45 | 1-4 | 5.5 | 896×745×935 | 0.8 |
APJ-2540E | 250×400 | 210 | 20-80 | 5-20 | 15 | 1450×1315×1296 | 2.8 |
APJ-4060E | 400×600 | 340 | 40-100 | 16-60 | 30 | 1565×1732×1586 | 6.7 |
APJ-5075E | 500×750 | 425 | 50-100 | 40-110 | 55 | 1890×1916×1870 | 11.7 |
APJ-6090E | 600×900 | 500 | 65-180 | 80-180 | 55-75 | 2305×1840×2298 | 16 |
APJ-7510E | 750×1060 | 630 | 80-180 | 110-320 | 90-110 | 2450×2472×2840 | 28 |
APJ-8010E | 800×1060 | 680 | 100-200 | 140-340 | 90-110 | 2610×2556×2800 | 30 |
APJ-8710E | 870×1060 | 720 | 170-270 | 180-360 | 90-110 | 2260×2556×2800 | 31.5 |
APJ-9012E | 900×1200 | 750 | 95-225 | 220-450 | 110-132 | 3335×3182×3025 | 49 |
APJ-1012E | 1000×1200 | 850 | 125-280 | 280-550 | 110-132 | 3435×3182×3025 | 52 |
APJ-1215E | 1200×1500 | 1000 | 150-300 | 400-800 | 160-220 | 4200×3732×3843 | 101 |
*Note: Technical parameters are subject to change without prior notice. |
Model | Rotor diameter × length (mm) | Feed opening size (mm) | Feed particle size (Max,mm) | Production capacity (t) | Power (kW) | Weight (t) | Dimensions L×W×H (mm) |
---|---|---|---|---|---|---|---|
APF1007V | Φ1000×700 | 400×730 | 200 | 20-50 | 45-55 | 9.5 | 2400×1550×2660 |
APF1010V | Φ1000×1050 | 400×1080 | 200 | 35-80 | 55-75 | 12.2 | 2400×2250×2620 |
APF1210V | Φ1250×1050 | 570×1030 | 250 | 70-120 | 90-110 | 15 | 2690×2338×2890 |
APF1214V | Φ1250×1400 | 570×1430 | 250 | 90-180 | 132-160 | 18.5 | 2690×2688×2890 |
APF1315V | Φ1320×1500 | 625×1530 | 350 | 150-250 | 160-200 | 19.5 | 3096×3273×2667 |
APF1320V | Φ1320×2000 | 625×2030 | 350 | 160-350 | 200-280 | 28 | 3096×3560×3185 |
APF1415V | Φ1400×1500 | 800×1530 | 400 | 280-350 | 250-315 | 33 | 3220×3473×2960 |
APF1520V | Φ1500×2000 | 1315×2040 | 500 | 300-500 | 315-400 | 43 | 3890×3564×3220 |
With three counterattack chambers, the rear chamber has the function of leveling, the discharge particle sizeis uniform, the proportion of fine particle size is large, and the particle shape is good. *Note: Technical parameters are subject to change without prior notice. The output is calculated based on medium-hard materials and a bulk density of 1.6t/m3. The power is calculated based on medium-hard materials and an altitude below 1000 meters. The opening adjustment of the crushing chamber is divided into mechanical and hydraulic. |
Model | Crushing cone diameter (mm) | Cavity type | Maximum feed size (mm) | Adjustment range of discharge port (mm) | Processing capacity (t/h) | Mixing power (km) | Dimension (L×W×H) (mm) | Weight (t) |
---|---|---|---|---|---|---|---|---|
APC-600Y | 600 (2’ft) | B | 65 | 12-25 | 12-25 | 30 | 1740×1225×1940 | 5.5 |
D | 35 | 3-13 | 5-23 | |||||
APC-900Y | 900 (2’ft) | B | 115 | 15-50 | 50-90 | 55 | 1990×1640×2380 | 10.2 |
Z | 60 | 5-20 | 20-65 | |||||
D | 40 | 3-13 | 15-50 | |||||
APC-1200Y | 1200 (2’ft) | B | 145 | 20-50 | 110-200 | 110 | 2805×2300×2980 | 25.5 |
Z | 100 | 8-26 | 50-150 | |||||
D | 50 | 3-15 | 18-105 | |||||
APC-1750Y | 1750 (2’ft) | B | 215 | 25-60 | 280-480 | 160 | 3610×2950×4185 | 50.5 |
Z | 185 | 10-30 | 115-320 | 51 | ||||
D | 85 | 5-15 | 75-230 | 52 | ||||
APC-2200Y | 2200 (2’ft) | B | 300 | 30-60 | 590-1000 | 260-280 | 4790×3430×5080 | 84 |
Z | 235 | 10-30 | 200-580 | 85 | ||||
D | 110 | 5-16 | 120-340 | 85 | ||||
*Note: Technical parameters are subject to change without prior notice. 1.Standard B type is generally used in medium crushing. 2.Medium Z type is generally used for medium and fine crushing. 3.Short head D type is generally used for fine crushing. |
However, it is not enough to be comparable to conventional stone crushers, this construction waste crusher device has also undergone a series of optimizations and enhancements.
It has higher strength, which means it can have better durability when dealing with hard construction waste. Its performance has also been significantly improved, both crushing efficiency and aggregate output quality, have been significantly improved. The more streamlined structure design not only makes the equipment more smooth during operation, but also reduces the difficulty and cost of maintenance.
The reliability, stability and flexibility of this product have been praised by the majority of users.
More importantly, its emergence provides a new solution to a long-standing problem in urban construction.
In the past, large amounts of construction waste were often difficult to dispose of, but now these wastes can not only be effectively disposed of, but also converted into valuable aggregates.
This creates a real virtuous circle for the city, both solving the problem of waste disposal and providing a new source of materials for urban construction.
How Does the Construction Waste Crusher Work?
First let’s look at the equipment inside the crusher.
Before delving into the specifics of how the crusher operates, it is important to familiarize ourselves with the equipment inside, as it is the key to understanding its functionality.
- Pretreatment stage: The construction waste crusher is usually used with other equipment (such as conveyor belts, vibration feeders) to introduce the original construction waste into the crusher at the feeding port.
- Crushing chamber: The core components of the crushers for c & d waste, including the crushing plate, hammer head or teeth and other elements, according to the specific needs of the material to be broken.
- Discharge device: used to let the crushed construction waste off the crusher. Common devices include discharge ports and pipes to control the size and flow of discharged material.
- Transmission device: Power is usually transmitted to the crushing parts through the motor, belt drive or gear drive to ensure the speed and torque required for efficient crushing.
- Control system: used to monitor and control the operation of the crusher. The control system includes electrical cabinets, sensors and meters to monitor the status of the crusher and adjust parameters during the crushing process.
- Auxiliary equipment: may include dust removal systems and cooling devices to improve the cleanliness and heat dissipation of the working environment.
The following is the specific treatment process of construction waste crusher:
After gaining an understanding of the crusher’s internal equipment, we can now delve into the detailed treatment process involved in reducing construction waste.
- Material delivery: First of all, the abandoned construction waste is transported to the crusher working area. The material can be delivered to the feed port of the crusher by conveyor belt or other means.
- Crushing process: The construction waste crushing plant crushes the material through the internal blade, hammer head or impact plate and other devices. These devices rotate or vibrate at high speeds to strike and crush material into smaller particles or fragments.
- Grading screening: In the crushing process, the crusher is usually equipped with a screen or screen plate device. These devices can classify and screen the crushed material according to the need to separate particles of different sizes.
- Reuse: After grinding and grading screening, the construction waste disposal crusher converts the waste building materials into reusable aggregates, sand and concrete powder. These recycled materials can be used in new construction projects, such as road rehabilitation, land filling and concrete product production.
The Types And Uses of the Products After Crushing Process
Recycled sand and stone aggregate: the concrete, brick, etc. doped in construction waste will become different specifications of sand and stone aggregate after screening and crushing. And these aggregates can completely replace the mechanical sand, stone and concrete. These recycled aggregates are low in radioactivity and have good water permeability, and the price is lower than that of natural aggregates.
Recycled environmentally friendly hollow bricks: After the construction waste is broken, it can also be made into environmentally friendly hollow bricks, which can be used for building construction and infrastructure construction such as sidewalks and square floors.
Recycled metal: Steel bars, iron blocks and other metals in construction waste can be directly reused or recycled.
In general, the products after the crushing of construction waste have multiple uses, which can realize the reuse of resources and reduce the impact on the environment.
How Can A Construction Waste Crusher Benefit You?
1. Reduce waste disposal costs:
By crushing construction waste, you can reduce the amount of waste that needs to be landfill or disposed of. This reduces the cost of garbage disposal.
2. Resource reuse:
Construction waste crusher can convert waste construction waste into reusable aggregate. This means that you are able to reuse these materials, reducing the need for new raw materials and thus saving costs.
3. Environmental image enhancement:
The use of construction waste crusher for waste treatment reflects the concern and responsibility for the environment, which helps to enhance your environmental image. This helps to enhance market competitiveness.
4. Reduce transportation costs:
The volume of crushed construction waste is reduced, which is more convenient for transportation and storage, which can reduce the related transportation costs and reduce the footprint.
5. Adapt to regulations and policies:
With the increasingly strict environmental regulations, the treatment and reuse of construction waste will become more and more important. Buying a construction waste crusher helps you to meet the requirements of these regulations and policies and avoid potential legal risks.
What Are the Costs Of Purchasing A Construction Waste Crusher?
When you consider buying a construction waste crusher, you are actually making a long-term and high-return investment.
At first, the price of crusher plant for c & d waste seems to be a huge expense. However, it turns out that this is actually a very good investment later. It can not only turn the waste of construction waste into treasure, realize the reuse of resources, but also significantly reduce the cost of garbage disposal, and save you a lot of money in the long run.
So what are the up-front costs of purchasing construction waste crushers?
Equipment acquisition cost: directly used to purchase crusher costs. Prices vary by brand, model and features. High-end equipment is usually more efficient, has lower maintenance requirements, and has a long service life.
Accessories and installation costs: The crusher requires auxiliary equipment and accessories (such as motors, conveyor belts, lubrication systems) to ensure normal operation. In addition, professional services are needed to ensure the safe and accurate installation and operation of the machines.
Operation and maintenance costs: Electricity, water and regular maintenance costs will be incurred during the operation of the crusher. To keep your equipment running efficiently and extending its life, regular maintenance and repairs are essential.
Training and Technical services: Operators need training to operate the crusher skillfully and safely. The manufacturer may provide ongoing technical support to ensure optimal performance.
Licensing and Compliance fees: The use of crushers in certain regions or industries may require specific licensing or certification. To ensure equipment meets environmental and safety standards, there may be compliance inspection and certification costs.
Transportation and Insurance: Depending on the location of purchase and the size of the equipment, there may be transportation costs associated with transporting the crusher from the manufacturer or supplier to the site of use. In order to ensure the safety of equipment during transportation and storage, it is advisable to purchase appropriate insurance.
If you are looking for construction waste crusher for sale, you could consider ours.
What Can We Provide You?
To support your efforts in construction waste management, we-Aimix Group, as a professional crusher supplier, could offer a range of solutions according to your specific needs,
- Market Research: Our team has deep industry knowledge and experience to provide you with comprehensive market research. We will gain insight into market trends, performance comparisons and price analysis for different crushers to help you make informed purchasing decisions.
- Professional equipment: Our company has a rich product line, including various types, specifications and configurations of crushers. Whether you are dealing with large construction waste or small waste, we can provide the right crusher equipment. Our products are manufactured using advanced technology and materials to ensure efficient and reliable operation.
- Customized services: We understand that each customer’s needs are unique, so we offer customized services. Whether you need a stationary crusher or mobile crusher, we can provide you with a tailored solution to meet your specific application scenario.
Choose AIMIX crusher, choose support and guarantee.