Concrete mixer pump is a new kind of engineering equipment of the combination of concrete mixer and concrete pump, which is mainly used to mix sand, gravel, cement and other raw materials into concrete on the construction site, and then transport and pour them.It uses dual-cylinder hydraulic pumping system, small size and operating space and large concrete pouring and excellent characteristics of the mature and stable performance. The product is suitable for 2 to 12-storey small building construction, and a variety of cave, roads, railway tunnels, water conservancy and hydropower engineering, geological hazards slope treatment works.It is characterized by high efficiency, energy saving, good environmental protection, strong adaptability and easy operation.
| Items | JBS30-10-66R | JBS40-10-78R | JBS50-12-82R | |
| Transfer Pump | Max. theoretical output | 30m3/h | 40m3/h | 45m3/h |
| Theo. pumping pressure | 10Mpa | 10Mpa | 12Mpa | |
| Max. conveyor height | 150m | 200m | 200m | |
| Max. distance | 400m | 500m | 500m | |
| Distribution cylinder | S valve | S valve | S valve | |
| Power type | Diesel | Diesel | Diesel | |
| Engine | 66kw | 84kw / 78kw | WEICHAI 82kw /Cummins 92kw | |
| Main oil pump capacity | 112ml/min | 112ml/min | 112ml/min | |
| Max. aggregate diameter | 40mm | 40mm | 40mm | |
| Delivery cylinder/Stroke | 160x1000mm | 180×1000 | 180×1000 | |
| Master oil cylinder/stroke | 100x1000mm | 100×1000 | 100×1000 | |
| Discharge diameter | 180mm | 180mm | 180mm | |
| Concrete Mixer | Mixing system | JZM450 | JZM450 | JZM450 |
| Feeding hopper volume | 800L | 800L | 800L | |
| Loading capacity | 560L | 560L | 560L | |
| Unloading capacity | 450L | 450L | 500L | |
| Mixing motor /kw | ZMS-250 | ZMS-250 | ZMS-250 | |
| Hoisting motor /kw | BMR-200 | BMR-200 | BMR-200 | |
| Total | Dimension | 4500*2200*2300 | 4500*2200*2300 | 4500*2200*2300 |
| Weight | 4800kg | 4800kg | 4800kg |
Uses a diesel engine as a power source and does not rely on external power grid power. This makes it a significant advantage in construction sites where the power supply is unstable or unavailable. However, the operating cost is affected by fluctuations in diesel prices.
Uses electricity as a power source and can work continuously and stably as long as there is a stable power supply. Electric pumps are generally more energy efficient and have relatively stable electricity costs. However, it should be noted that the use of electric pumps may be restricted in construction sites where the power supply is limited or cannot be connected to the power grid.
Integrated German double-screw mixing technology (speed 0-45r/min adjustable) + hydraulic piston pumping system (maximum pressure 16MPa), saving equipment transfer time 3 hours/day
Theoretical delivery capacity: 45m³/h (C30 concrete), actual working conditions can reach 32-35m³/h
Through customization, you can select appropriate equipment specifications, performance parameters and configurations according to the needs of specific construction projects to ensure that the equipment can meet the construction requirements. The picture shows a generator-driven concrete mixing pump and a diesel-electric dual-purpose concrete mixing pump.
Concrete mixer pumps are mainly composed of mixing system, pumping system, power system, control system, etc. Among them, the mixing system is responsible for mixing the raw materials evenly to form concrete; the pumping system is responsible for transporting the concrete to the pouring point through the pipeline; the power system provides power for the entire equipment; and the control system is responsible for controlling the operation and various parameters of the equipment.
Double motors for mixer mixing with features of quick and homogeneous mixing.
Grinding wheels for mixing drum rotation, stable and reliable.
Vibrating device for aggregate complete discharging.
Fully hydraulic pumping system with double concrete cylinders and double oil cylinders, stable and reliable.
Hydraulic parts are famous brands from home and aboard with high and reliable quality.
The power system of a concrete mixing pump is the key to its normal operation, and is mainly composed of key components such as the engine, transmission system, and hydraulic pump unit.
It has the characteristics and advantages of high efficiency, reliability, adaptability, and energy saving, which can ensure the smooth progress of the mixing and pumping process and reduce the cost of use.
The control system of the concrete mixing pump is the key part to achieve automation and high efficiency. It is mainly composed of PLC controller, human-machine interface (HMI), sensor and actuator.
It has functions and features such as automatic control, precise control, real-time monitoring, fault alarm and diagnosis, data recording and query, etc., which can ensure the normal operation of the mixing pump and the quality of concrete.
Main oil pump: Japanese Kawasaki
Five points and one-to-one lubricating system protects key components from wearing.
Adopt brand swing cylinder and S valve. The glass plate and cutting ring are made of special wear-resistant material.
XINYU has established a wide range of influence in the global market, and customers can conveniently use our services:
Philippines Office | Peru Office | Guyana Office | Honduras Office | Malaysia Office | Tanzania Office
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 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.
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.
Concrete Mixing Pump Safety Operation Procedures
In order to ensure the safety of concrete mixing pump operation and avoid personal or equipment accidents, the following safety operation procedures must be strictly followed.
Key points for the use of small concrete pump trucks
1. The operator of the concrete pump truck must undergo professional training before taking up the job.
2. The pumped concrete should meet the pumpability requirements of the concrete pump truck.
1. Treatment of the pumping construction workshop: When pumping fine stone, the amount of concrete in the hopper is higher than the mixing shaft to prevent air from entering the pipeline and causing vibration. When the pumping process is interrupted, the interruption time should be less than one hour, and insist on positive and negative pumping every 5-10 minutes to prevent the oil pump pipeline from being blocked due to excessive condensation of concrete discharge or collapse.
2. Post-pump treatment: After the pump is completed, carefully clean the hopper and delivery pipe. If the concrete impurities remaining in the concrete cylinder are not removed, they will be solidified on the cylinder wall. When the piston is pumped in again, the piston will be hit by the concrete on the cylinder wall, causing the piston to be partially released.
3. Vertical pump treatment: In addition, after the vertical upward pump and the pump process is interrupted, there are more s pipes blocked, and the pump cycle cannot be carried out again after starting again. Causes of pipeline blockage: When the pump stops, the concrete in the pipeline produces water under high pressure, and the water and mortar in the pipeline penetrate into the valve box and hopper through the gap. The higher the vertical pump height, the longer the downtime, the larger the gap between the wear ring and the glass plate, the worse the water retention of the concrete, and the greater the possibility of S-tube blockage. At the same time, the blockage of the delivery pipe is also related to the layout of the delivery pipe. The length ratio of the horizontal pipe to the vertical pipe is insufficient, and the ends of the concrete pump and the delivery pipe are prone to blockage.
