Diesel concrete pump is the preferred choice for over 90% of customers in global construction and infrastructure projects, especially under complex operating conditions. The key reason lies in its ability to solve three critical pain points for construction teams: reliance on grid power, harsh environments, and the need for efficient, uninterrupted work. Whether in off-grid remote mountainous areas, disaster zones with unstable power, or remote mining sites, it stands out as a reliable “project power core” with the advantages of grid independence, strong power and all-weather adaptability. To fully understand its value and select the right model for your needs, let’s first delve into the main classifications of diesel concrete pumps.
Aimix offers three core types of diesel concrete pumps: mixer type, trailer type, and boom type. Each is engineered with unique structures and functions to match diverse project needs—from small residential builds to large-scale infrastructure. Below is a detailed breakdown of each type, including key specifications, hot models, and application scenarios. This will help you make an informed choice for your project.
The diesel concrete mixer pump integrates concrete mixing and pumping in one unit. This design eliminates the need for separate mixing equipment, making it ideal for projects with limited space or tight budgets. Aimix provides two mixer structures to cater to different efficiency and quality demands.
The boom type diesel engine concrete pump is equipped with an extendable boom. This eliminates the need for manual pipe installation and disassembly, offering unmatched flexibility for high-rise or long-distance concrete pouring. Aimix offers three chassis options of boom concrete pump to adapt to different terrain and project needs.
Understanding the unique strengths of each diesel concrete pump type is the first step to selection. Next, we’ll dive into the key parameters that directly impact performance and project compatibility.
Below are the specifications, you can check them if you want to learn more details.
| Items | Units | ABJZ30C | ABJZ40C |
|---|---|---|---|
| Max. theo. concrete output(L./H) | M3/h | 30 | 40 |
| Mixer rated feed capacity | m3 | 0.56 | 0.56 |
| Mixer rated discharge capacity | m3 | 0.35 | 0.45 |
| Max.concrete pumping pressure(H./L.) | MPa | 10 | 10 |
| Distribution valve type | S Valve | S Valve | |
| Concrete cylinder diameter×stroke | mm | Φ140×1000 | Φ180×1000 |
| Hopper capacity | L | 400 | 400 |
| Outlet diameter | mm | Φ150 | Φ150 |
| Diesel engine model | Weichai | Weichai | |
| Electrical engineering power | KW | 37 | 82 |
| Rotate speed | r/min | 1480 | 2200 |
| Circuit type | Open circuit | Open circuit | |
| Pumping system pressure | MPa | 26 | 32 |
| Mixing system pressure | MPa | 6-8 | 6 |
| Capacity of oil tank | L | 260 | 350 |
| Max. Theoretical Vertical/Horizontal Conveying Distance | m | 120/300 | 120/500 |
| Max. aggregate diameter | mm | Slick/scree:10/20 | Slick/scree:40/50 |
| Inside diameter of delivering pipe | mm | Φ100 | Φ125 |
| Dimensions:length×width×height | mm | 4500x1750x1600 | 600x2300x3150 |
| Total weight | kg | 3000 | 4500 |
| Items | Units | Parameters | |||
|---|---|---|---|---|---|
| ABT40C | ABT60C | ABT80C | |||
| whole performance of machine | Max. theo. concrete output(L./H) | M3/h | 40/26 | 67/45 | 84/45 |
| Distribution valve type | S Valve | S Valve | S Valve | ||
| Concrete cylinder diameter脳stroke | mm | Φ180×1200 | Φ200x1650 | Φ200x1800 | |
| Hopper capacity x feeding height | L/mm | 400/1100 | 800/1400 | 800/1400 | |
| Outlet diameter | mm | Φ150 | Φ180 | Φ180 | |
| Power system | Diesel engine model | Weichai | Wechai | Wechai | |
| Diesel engineering power | KW | 82.00 | 129.00 | 176.00 | |
| Rotate speed | r/min | 2200.00 | 2200.00 | 2200.00 | |
| Hydraulic system | Circuit type | Open circuit | Open circuit | Open circuit | |
| Pumping system pressure | MPa | 32.00 | 32.00 | 32.00 | |
| Mixing system pressure | MPa | 10.00 | 10.00 | 10.00 | |
| Capacity of oil tank | L | 370.00 | 560.00 | 560.00 | |
| Other parameters | Max. Theoretical Vertical/Horizontal Conveying Distance | m | 120/500 | 180/1000 | 260/1200 |
| Max. aggregate diameter | mm | Slick/scree:40 | Slick/scree:40 | Slick/scree:40 | |
| Inside diameter of delivering pipe | mm | Φ125 | Φ125 | Φ125 | |
| Dimensions: lengthxwidthxheight | mm | 5000x1850x1700 | 5800x2000x1750 | 6300x2100x2350 | |
| Total weight | kg | 4500.00 | 6500.00 | 6900.00 | |
Aimix’s diesel concrete pump for sale support projects in different regions all over the world. Here are some of our recent cases.
From the real-world cases of diesel concrete pumps you will elaborate on, we can clearly see their outstanding performance in specific harsh working conditions. To make an informed decision on diesel concrete pumps, it’s critical to align the equipment with your on-site conditions. Below, we detail specific scenarios where diesel concrete pumps are the optimal choice, helping you directly compare with your project location and needs.
Diesel concrete pumps excel in remote mountainous areas such as mountainous road construction sections in southern Southeast Asian regions and rural areas like small-town infrastructure renovation projects in Eastern European countryside. These areas often lack convenient transportation and basic supporting facilities. Diesel concrete pumps require no external power supply and can be freely transferred, avoiding delays caused by difficult power access. For example, in rural water conservancy construction in central African rural areas, diesel concrete pumps can start working within 5 minutes of arriving at the site, ensuring the progress of irrigation channel pouring projects.
Sites completely without power grid coverage rely heavily on diesel concrete pumps, such as remote mining area construction in northern Australian outback and new residential area development in remote coastal regions of South America. In these locations, laying temporary power lines is not only impractical but also poses safety risks. Diesel concrete pumps with self-contained diesel engines can provide continuous and stable power output, supporting tasks like foundation pouring and wall construction. A typical case is the road expansion project in remote plateau areas of Central Asia, where diesel concrete pumps ensured uninterrupted construction despite the absence of grid access.
Areas with frequent power outages or voltage fluctuations are ideal for diesel concrete pumps, such as suburban construction sites in some South Asian regions and rural infrastructure projects in parts of Southern Europe. Unstable power can cause electric concrete pumps to shut down unexpectedly, leading to concrete solidification in the pipeline and costly maintenance. Diesel concrete pumps are not affected by such power issues. For instance, in the renovation of old urban roads in certain coastal areas of Southeast Asia where power cuts occur regularly during peak construction periods, diesel concrete pumps maintained consistent work efficiency and guaranteed project schedules.
In regions where accessing the power grid requires extremely high costs, diesel concrete pumps are more cost-effective, such as remote island construction projects in the Pacific Ocean and mountainous tunnel construction sections in Western Asian regions. Laying long-distance power cables or building temporary power stations for electric concrete pumps would significantly increase project investment. For example, in the construction of a small harbor in a remote island area of the Indian Ocean, using diesel concrete pumps avoided the high cost of laying undersea power cables, reducing the overall project cost by nearly 30% compared to the planned electric pump solution.
As mentioned earlier, regions suitable for diesel concrete pumps often have unstable power supply or remote construction sites. In such conditions, besides reliability, diesel concrete pump energy consumption and cost control directly affect project profitability. Understanding concrete pump diesel consumption and formulating scientific cost-control plans are key for project managers. Below is a concise overview of energy consumption references and practical cost-saving methods.
Concrete pump diesel consumption is influenced by pump type, working pressure, conveying distance, and operation intensity. Based on practical project data, here are the core concrete pump diesel consumption per hour references for different models:
The above are reference values. Actual concrete pump diesel consumption varies by working conditions, equipment maintenance, and operation level. On-site test runs are recommended for accurate data.
Controlling diesel concrete pump energy consumption and operating costs requires integrated management of equipment selection, maintenance, and operation.
Key strategies are as follows:
In addition to controlling daily energy consumption and operating costs, the resale value of diesel concrete pumps is also a key factor affecting the overall investment return. For most purchasers, the diesel concrete pump price at the time of purchase is an important investment cost, and a higher resale value can effectively reduce the actual depreciation loss. Next, we will focus on the resale value of diesel concrete pumps, helping you understand how to maximize the residual value while clarifying the relationship between resale value and concrete diesel pump price.
Diesel concrete pump resale value is closely tied to the initial diesel concrete pump price. Reasonable pricing plus reliable quality ensures stable residual value. When evaluating concrete diesel pump price, factoring in resale value optimizes total cost of ownership for better long-term returns.
Maximize residual value with long-term management from purchase:
Resale price (relative to initial diesel concrete pump price) based on market data:
Note: Actual resale price varies by market supply-demand and equipment condition. Consult professional dealers for accurate pricing.
When investing in concrete pumps, choosing between diesel and electric models is a core decision. Below is a concise comparative table highlighting their key differences, along with scenario-based selection guidelines to help you decide quickly.
| Comparison Dimensions | Diesel Concrete Pump | Electric Concrete Pump |
|---|---|---|
| Power Source | Diesel engine (self-generating) | External power grid (requires stable power supply) |
| Applicable Scenarios | Areas with no/weak power supply, remote construction sites, disaster relief sites | Urban areas with complete power grid coverage, factories |
| Mobility | Freely transferable (no cable restrictions) | Dependent on fixed power supply; re-wiring required for movement |
| Start-up Efficiency | Ready to use upon arrival (starts within 5 minutes) | Requires advance power connection (may take several hours) |
| Cost Structure | Diesel consumption cost (controllable) + low maintenance fee | Electricity fee (depends on local electricity price) + cable rental fee |
| Extreme Environment Adaptability | High temperature/low temperature/dust resistant (stable at -20℃~50℃) | Battery attenuation in low temperature; circuit overload risk in high temperature |
| Typical Users | Contractors/developers (complex working conditions) | Municipal engineering/fixed construction sites (stable power supply) |
Tip: For mixed-scenario projects, match diesel and electric concrete pumps by section to balance environmental requirements and efficiency.
Choosing a reliable diesel concrete pump is only the first step; professional one-stop service guarantee is crucial to ensure smooth project operation. As a professional construction equipment manufacturer, AIMIX provides comprehensive and customized services tailored to diesel concrete pump users, covering the entire process from pre-sales consultation to after-sales support.
One-on-one consultation by senior project consultants, who will contact you within 2 hours to understand your diesel concrete pump project requirements (e.g., working conditions, conveying needs).
Customized solutions: Professional technical managers provide 2-3 sets of diesel concrete pump solutions, including parameters, configurations, 3D drawings, and related materials, with flexible configuration adjustments based on your needs.
Real-time communication: Continuously optimize the diesel concrete pump solution according to your dynamic needs during the process.
Full-process production supervision to ensure all parts of the diesel concrete pump comply with standards and guarantee product quality.
Global service network: Dedicated service personnel in Indonesia, Malaysia, Pakistan, Saudi Arabia, etc., providing convenient local support for diesel concrete pump users.
AIMIX has exported diesel concrete pumps and other equipment to over 100 countries. Contact us now for sincere and professional service tailored to your needs!
You can not only purchase products from Aimix, but also be our dealers in all over the world. Here shows you the steps.
We warmly invite you to join our distributor network and explore the diesel concrete pump market together. Here are the simple steps to become our distributor:
You can submit the application form through our official website or contact our marketing department directly by phone.
We will assess the applicant’s qualifications to ensure a solid foundation for mutual cooperation.
Once we reach a cooperation agreement, we will sign a formal distribution contract.
After completing sales and product training, you can officially start your journey as our distributor.
AIMIX will provide ongoing support in operations management, product updates, and marketing activities.
Join us and grow together! We look forward to partnering with you!