Concrete pumps are the most professional equipment for conveying concrete, different types of concrete pumps can play different roles and have their own advantages so as to meet the needs of diversified building construction projects. For example, boom pumps are suitable for skyscraper construction, mixer pumps are suitable for tunneling, trailer pumps are suitable for foundation pouring, etc.
AIMIX is committed to recommending the most suitable concrete pumps according to your project needs, to ensure the smooth running and successful delivery of your project. Let’s start by taking a look at what type of pumps our customers have chosen for their projects!
This guide clearly explains the main types of concrete pump sales, their standout features, and the specific projects they excel in.
The concrete pump with mixer type ntegrates mixing and pumping into a single unit. Ideal for simplifying logistics on constrained sites.
Key Strengths: Significant space savings, Reduced equipment costs, Streamlined operation.
The concrete pump trailer type provides dedicated pumping capability at excellent value. Towed to site, offering flexibility with diesel or electric power options to match location constraints.
Key Strengths: Lower initial investment, Capable of high-pressure/long-distance pumping, Adaptable power source.
| Feature | Boom Pump | Mixer Pump | Trailer Pump |
|---|---|---|---|
| Core Function | Mixing + Pumping + Placing | Mixing + Pumping | Pumping |
| Mobility | High (Truck/Wheel) / Extreme Terrain (Crawler) | Medium-High (Truck) | Medium (Towed) |
| Typical Output | 50–120+ m³/h | 30–40 m³/h | 30–90 m³/h |
| Placing Reach | Excellent (Integrated Boom) | Limited (Requires Piping) | Limited (Requires Piping) |
| Best Project Fit | Medium-large, hard-to-reach, high labor costs sites | Small-medium, limited space, equipment budget constraints sites | Small-medium, remote, urban power restricted sites |
| Key Strength | Speed, Reach, Labor Saving | All-in-One, Space Saving | Cost-Effective, Power Flexibility |
| Items | Key Parameters | Units | ABJZ30C | ABJZ30D | ABJZ40C | ABJZ40D |
|---|---|---|---|---|---|---|
| whole performance of machine | Max. theo. concrete output(L./H) | M3/h | 30 | 30 | 40 | 40 |
| Mixer rated feed capacity | m3 | 0.56 | 0.56 | 0.56 | 0.56 | |
| Mixer rated discharge capacity | m3 | 0.35 | 0.35 | 0.45 | 0.45 | |
| Max.concrete pumping pressure(H./L.) | MPa | 10 | 10 | 10 | 10 | |
| Distribution valve type | S Valve | S Valve | S Valve | S Valve | ||
| Hopper capacity | L | 400 | 400 | 400 | 400 | |
| Power system | Diesel engine model | Weichai | ||||
| Electrical engineering power | KW | 37 | 37 | 82 | 45 | |
| Rotate speed | r/min | 1480 | 1480 | 2200 | 1480 | |
| Hydraulic system | Circuit type | Open circuit | Open circuit | Open circuit | Open circuit | |
| Pumping system pressure | MPa | 26 | 26 | 32 | 26 | |
| Capacity of oil tank | L | 260 | 260 | 350 | 370 |
| Items | Key Parameters | Units | ABT40C | ABT60C | ABT80C |
|---|---|---|---|---|---|
| Whole performance of machine | Max. theo. concrete output(L./H) | M3/h | 40/26 | 67/45 | 84/45 |
| Max.concrete pumping pressure(H./L.) | MPa | 10/8 | 13/7 | 16/7 | |
| Distribution valve type | S Valve | S Valve | S Valve | ||
| Concrete cylinder diameter×stroke | mm | Φ180×1200 | Φ200×1650 | Φ200×1800 | |
| 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 | 129 | 176 | |
| Rotate speed | r/min | 2200 | 2200 | 2200 | |
| Hydraulic system | Circuit type | Open circuit | Open circuit | Open circuit | |
| Pumping system pressure | MPa | 32 | 32 | 32 | |
| Mixing system pressure | MPa | 10 | 10 | 10 | |
| Capacity of oil tank | L | 370 | 560 | 560 | |
| 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:length×width×height | mm | 5000x1850x1700 | 5800x2000x1750 | 6300x2100x2350 | |
| Total weight | kg | 4500 | 6500 | 6900 |
| Items | Key Parameters | Units | ABT40D | ABT60D | ABT80D |
|---|---|---|---|---|---|
| Whole performance of machine | Max. theo. concrete output(L./H) | M3/h | 40/26 | 60/36 | 84/46 |
| Max.concrete pumping pressure(H./L.) | MPa | 10/8 | 13/7 | 16/9 | |
| Distribution valve type | S Valve | S Valve | S Valve | ||
| Concrete cylinder diameter×stroke | mm | Φ180×1300 | Φ200×1650 | Φ200×1800 | |
| Hopper capacity x feeding height | L/mm | 400/1250 | 800/1400 | 800/1400 | |
| Outlet diameter | mm | Φ150 | Φ180 | Φ180 | |
| Electrical engineering power | KW | 45 | 90 | 110 | |
| Rotate speed | r/min | 1480 | 1480 | 1480 | |
| Hydraulic system | Circuit type | Open circuit | Open circuit | Open circuit | |
| Pumping system pressure | MPa | 28 | 28 | 32 | |
| Mixing system pressure | MPa | 10 | 10 | 10 | |
| Capacity of oil tank | L | 370 | 560 | 560 | |
| Other parameters | Max. Theoretical Vertical/Horizontal Conveying Distance | m | 120/500 | 160/800 | 200/1000 |
| Max. aggregate diameter | mm | Slick/scree:40 | Slick/scree:40 | Slick/scree:40 | |
| Inside diameter of delivering pipe | mm | Φ125 | Φ125 | Φ125 | |
| Dimensions:length×width×height | mm | 4500x1750x1600 | 5500x2000x1750 | 5800x2100x2350 | |
| Total weight | kg | 3200 | 6000 | 6300 |
Pre-Purchase Concerns:
2.”We’re pumping to 300m+ – will the concrete actually reach the top without blocking?”
3.”No grid power in the mountains – can I still pump reliably?”
Mid-Project Questions:
“How much ‘power reserve’ do I really need?”
Long-Term ROI Concerns:
“Diesel vs. Electric – which cuts costs over 5 years?”
Total Cost of Ownership (TCO) Comparison
| Cost Factor | Diesel Pump | Electric Pump |
|---|---|---|
| Upfront Price | Higher (+15-20%) | Lower |
| Energy Cost | $0.80/L diesel × 20L/h | $0.12/kWh × 90kW = $10.8/h |
| Maintenance | Engine overhauls ($3k+/year) | Bearings/seals ($1k/year) |
| Noise/Fines | $5k+ in urban noise penalties | $0 |
| 5-Year TCO | $220,000 | $150,000 |
Electric wins in urban sites; Diesel for remote high-load sites.
“Which components prevent costly downtime?”
Non-Negotiable Upgrades:
Niche Scenario Solutions:
Use ultrahigh-pressure pumps (35MPa+) with staged pipeline reducers (e.g., Ø180mm → Ø150mm → Ø125mm) to prevent leakage.
Concrete must include:
Silica fume (reduce friction).
Viscosity-modifying agents (prevent segregation at 300m).
Reinforced S-valves + hardened pipeline elbows (replace every 15,000 m³ vs. standard 5,000 m³).
Hydraulic oil coolers/heaters maintain viscosity.
Fuel anti-gel additives (diesel) or insulated electric cabinets.
While a standalone concrete pump reliably handles many tasks, you may sometimes benefit from pairing it with complementary equipment. These optional add‑ons let you tailor your setup to specific project needs—without any obligation to purchase beyond what’s essential.
Self-loading Truck: Perfect for smaller sites or remote locations where a fixed mixer isn’t available. Loading directly into your pump hopper saves handling time and keeps crews focused on pouring.
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Batching Machine: Ideal when mix consistency is critical—such as structural slabs or high-tolerance surfaces. Having precise control over ingredients can yield smoother finishes and predictable strength.
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Loader: In busy urban or infrastructure projects, a loader maintains a steady feed of aggregates into your pump or batching machine, reducing manual labor and preventing shortfalls.
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Mixer Truck: For multi-zone sites or tight schedules, a mixer truck delivers pre‑mixed concrete to several pumps in rotation. This can be especially useful during weather windows or when coordinating multiple crews.
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Opting for one or more of these equipment can bring clear advantages:
Streamlined Workflow: Each piece of equipment hands off seamlessly, cutting waiting times and minimizing overlap between tasks.
Consistent Quality: Automated batching and mixing help ensure every cubic meter matches your specs, reducing rework.
Scalable Operations: As your project grows, you can expand your fleet incrementally—adding only what you need, when you need it.
Ultimately, these combination options sit alongside your concrete pump as enhancers—not requirements. By selecting the right mix of equipment for your site, you unlock extra efficiency and flexibility, helping you deliver quality results on time and within budget.
When you’re ready to invest, there are several reliable channels offering concrete pumps for sale—from brand-new units to affordable used machines. Your best starting points include:
Manufacturer showrooms and approved dealerships list both concrete pump for sale and concrete pump sale events. The concrete pump manufacturers and dealers often bundle warranties, service plans, and financing options.
Platforms like equipment exchanges allow you to compare dozens of concrete pumping equipment for sale listings in one place. Use filters to locate concrete pump for sale near me and see local availability.
If you’re open to pre-owned models of pump concrete for sale, auctions can be a source of cheap concrete pumps for sale or even a full concrete pumping business for sale—ideal for turnkey operations.
Rental houses often sell off older fleets, listing concrete pumping machine for sale or concrete pump machine for sale at competitive rates.
Whether you need a trailer pump, mixer pump, or boom pump concrete machine, these options let you source the right equipment at the right price. A standalone pump might meet basic requirements, but browsing complementary offers—like combo sales with batching plants or loaders—can add value without pressure.
Customer Problem: “My crew skips basic checks until something breaks – then we lose days!”
Solution: Mandatory 1-min, 5-min, and 10-min routines:
Daily (1 Minute):
All Pumps: Check hydraulic oil level, grease nipple visibility (clogged = trouble).
Boom Pumps with Mixers: Verify mixer blade clearance (>5mm gap prevents jamming).
Trailer/Mixer Pumps: Inspect S-valve/butterfly valve for concrete buildup.
Weekly (5 Minutes):
Hydraulic Lines: Look for leaks, abrasions, or bulges – replace immediately if found (prevents $5k+ system failures).
Greasing: Force grease through all nipples until fresh grease emerges (old grease traps abrasive particles). This is critical for boom pump joints & mixer pump shaft seals.
Monthly (10 Minutes):
Electrical Trailer Pumps: Tighten cable terminals (loose connections cause 40% of motor failures).
Diesel Pumps: Drain water from fuel filters (contaminated fuel = #1 diesel engine killer).
Boom Pumps with Mixers: Clean mixer pan and pump hopper crossover zone (hardened residue causes 30% of clogs).
Customer Question: “Can my mechanic handle this, or do I need a $200/hr specialist?”
| Issue | Trailer Pump | Mixer Pump | Boom Pump with Mixer | Difficulty of Self-repair |
|---|---|---|---|---|
| Clogged Pipeline | Replace section (★☆☆) | Clean S-valve (★★☆) | Disassemble boom pipes (★★★★★) | Low-High |
| Hydraulic Leak | Seal replacement (★★☆) | Pump coupler (★★★) | Rotary joint O-ring (★★★★☆) | Med-Extreme |
| Mixer Blade Wear | N/A | Bolt-on replacement (★☆☆) | Laser alignment required (★★★★☆) | Low-Extreme |
| Electrical Fault | Controller reset (★☆☆) | Motor starter (★★☆) | CANbus wiring diagnosis (★★★★★) | Low-Extreme |
Customer Plea: “How do I catch problems BEFORE they shut me down?”
1. The “Growling” Hydraulic Pump
Means: Air ingress or cavitation → imminent pump failure.
Action: Stop immediately. Check oil level/filter, bleed air from system.
2. Erratic Boom Movement
Means: Hydraulic oil contamination (water/metal particles) → valve blockages.
Action: Test oil with patch test kit (>5% water = full oil change + flush).
3. Concrete “Spitting” from Hopper
Means: Worn piston seals → pressure loss → 40% output drop.
Action: Replace seals NOW – running further damages cylinder walls ($3k+ repair).
Valve System: Typically, a pompa concrete employs either a ball valve or an S-tube valve to control the flow of concrete from the hopper into the pumping system.
Pumping Cylinders: These are hydraulic cylinders that alternately draw the concrete from the hopper (suction phase) and then push it into the discharge outlet (pumping phase).
Hopper: A large receptacle into which the mixed concrete is poured.
Concrete Piston: Works within the pumping cylinders to move the concrete.
Delivery Pipeline: A series of connected pipes or hoses through which the concrete is pumped to its destination.
Concrete is first loaded into the pump’s hopper after being mixed in a truck or plant. Inside the pump, two pistons work in turns—one pulls concrete in, while the other pushes it out. A valve system controls the direction of flow. As the piston moves forward, concrete is pushed into the pipeline under high pressure, allowing it to travel long distances or reach high places. Finally, the concrete is discharged where needed.
Boom pumps (truck-mounted) are the best choice for large-scale or high-rise projects because their articulating boom arm enables precise delivery to hard-to-reach locations with high volume capacity. Trailer-mounted (line) pumps are ideal for smaller or more confined sites due to their portability and lower cost. Mixer pumps combine mixing and pumping into one unit for compact, low-capacity jobs like residential slabs or renovation work.
Concrete pumps must handle heavy, abrasive, viscous concrete under high pressure and often over long distances or heights. They use specialized hydraulic and piston systems, durable wear-resistant parts, and complex valve manifolds. These technical demands, combined with low production volumes and the need for reliability, raise both manufacturing and maintenance costs.
In their first year, concrete pump business owners may gross around $200k or more. Reddit users reported grossing $230k with expenses around $60k, clearing approximately $10k per month. Industry averages suggest annual earnings from $50,000 to $150,000, depending on location, utilization, and operational efficiency.
Profit margins typically range between 8% and 15%, with some experienced operators achieving 25–35%. Most operators aim for around 10% net margin, over gross revenue, after accounting for fuel, labor, maintenance, and insurance. Many pump operators still find business returns modest because of high equipment and running costs—even if they charge high hourly rates. Profitable operations often focus on consistency, customer relationships, and operational discipline.
It provides several advantages, including speed and efficiency of concrete placement, reduced labor costs, access to difficult-to-reach areas, and improved quality control in concrete pouring operations.
Yes, boom pumps have extendable arms that can reach over houses or other obstacles. The length of the boom determines how high or far the pump can reach.
Line pumps can typically pump concrete hundreds of meters away from the pump location. The exact distance depends on the pump’s power and the diameter of the hose, with larger diameters reducing the maximum distance.
Yes, operating one requires specialized training and certification due to the complex nature of the machinery and the potential safety hazards involved in pumping concrete.
Key safety measures include wearing appropriate PPE (personal protective equipment), ensuring the pump is properly set up and stabilized, keeping clear of the pump’s moving parts and discharge hose, and being aware of the hose’s whipping risk under blockages or pump pressure changes.
The cost varies widely based on the concrete pump type, age (new vs. used), brand, and region. Renting can range from hundreds to over a thousand dollars per day, while purchasing can range from tens of thousands to over a hundred thousand dollars.
Yes, but not all of them handle every type of mixture well. Some pumps are better suited for specific mix designs, particularly in terms of aggregate size and the concrete’s slump (wetness). Always consult with your machine provider about the compatibility of your concrete mix.
A concrete pump for sale from Aimix can work at speeds ranging from 30 to 80 cubic meters per hour, depending on the type of pump and its specifications. For example, smaller trailer pumps might operate at the lower end of this range, while larger boom pumps or high-capacity pumps can achieve higher output rates. The exact speed of concrete pump work can vary based on factors like concrete mix, pump condition, and the distance the concrete needs to be pumped.
A concrete pumping business can be highly profitable due to the growing demand for construction and infrastructure projects. Profitability depends on factors such as market demand, operational efficiency, and equipment costs. Typically, businesses can achieve strong margins by providing essential services, maintaining high-quality equipment, and managing operational costs effectively. Additionally, with the right strategies and a solid client base, a concrete pumping business can generate substantial revenue and long-term growth.
Yes, you can make money with a concrete pump. Concrete pumps are essential for efficiently delivering concrete to construction sites, and businesses that provide this service can generate significant revenue. Profits are influenced by factors such as demand, pricing, operational costs, and maintenance. With a strong client base and effective management, a concrete pump can be a lucrative investment.
Choosing the right concrete pump isn’t just about equipment—it’s about ensuring your entire project runs smoothly and efficiently. At Aimix, we offer tailored solutions for different capacities, power sources, and project types. If you’re unsure which model fits your needs, simply tell us about your project size, location, and concrete output requirements. Our team will recommend the most suitable option for your job. Contact us now to get expert guidance and a reliable pump that works for you.