٦. مضخة خرسانة
Our concrete pump offers exceptional performance and versatility, making it suitable for a wide range of residential, commercial, and industrial construction projects.
٢. ميزات ضواغط الخرسانة لدينا:
– Smooth and continuous flow of concrete
١٤. — Reducing downtime and increasing productivity
١٤. — Withstand rigorous working conditions
١٥. ثق بنا لتوفير الحل المناسب لمتطلباتك الخاصة، وضمان سير مشاريع البناء لديك بسلاسة ونجاح من بدايتها وحتى انتهائها.
٦. احصل على عرض أسعار مجاني الآن!
٦. مضخة خرسانة
Our concrete pump Incorporates advanced safety features, prioritizing the well-being of workers and mitigating potential risks. Choosing our concrete pump means choosing efficiency, reliability, and safety for your construction projects.
٩. أقصى إنتاج نظري للخرسانة:
١٠. ٣٠–١٢٠ م³/ساعة
١١. أقصى مسافة نظرية للنقل الأفقي
١٢. ١٢٠–٥٠٠ م
Hot Selling Concrete Pump Models
At our company, we take pride in offering a comprehensive range of concrete pumps to cater to diverse project requirements. We have four types of concrete pumps: concrete trailer pump, concrete mixer pump, concrete boom pump, and concrete line pump. Each type serves a specific purpose and offers unique advantages.
By investing in our concrete pump, you can expect efficient operations, increased productivity, and consistent high-quality concrete placement.
١٥. ثق بنا لتوفير الحل المناسب لمتطلباتك الخاصة، وضمان سير مشاريع البناء لديك بسلاسة ونجاح من بدايتها وحتى انتهائها.
٨. الطرازات:
١. HBTSB30 – ١٠٠ (ديزل)؛ HBTS30 – ١٠٠ (كهربائي)
٢. أقصى ضغط للضخ:
٣. ٦ – ١٨ ميجا باسكال
٤. قوة المحرك الديزلي:
٥. ٤٥ – ١٢٩ كيلوواط
٦. مضخة الخرسانة المحمولة على مقطورة، والمعروفة أيضًا باسم المضخة الثابتة، وهي مضخة تُثبَّت على قطعة كبيرة من المعدات، مثل شاحنة جرّ مع مقطورة، ولا يمكن نقلها بسهولة.
٧. الميزة الرئيسية للمضخة الثابتة للخرسانة هي قدرتها على ضخ كميات كبيرة من الخرسانة بسرعة فائقة. وتجعل تصميمها المدمج وسهولة تركيبها منها خيارًا مثاليًّا لمواقع البناء الصغيرة والمتوسطة الحجم.
١٤. الطرازات الموصى بها:
٨. مضخة الخرسانة المحمولة على مقطورة من طراز HBTS30 ديزل لمشاريع صغيرة
٩. مضخة الخرسانة المحمولة على مقطورة من طراز HBTSB80 ديزل لمشاريع كبيرة
١٠. مضخة الخرسانة المحمولة على مقطورة من طراز HBTS30 ديزل/كهربائية
١١. أقصى إنتاج نظري للخرسانة: ٣٠ مترًا مكعبًا/ساعة
١٢. أقصى ضغط لضخ الخرسانة: ١٠/٧,٦ ساعة/لتر
١٣. مضخة الخرسانة المحمولة على مقطورة من طراز HBTS40 ديزل/كهربائية
١٤. أقصى إنتاج نظري للخرسانة: ٤٠ مترًا مكعبًا/ساعة
١٥. قوة المحرك الديزلي: ١٠/٧,٦ ساعة/لتر
١. مضخة الخرسانة المتنقلة الديزلية/الكهربائية طراز HBTS50
٢. أقصى إنتاج نظري للخرسانة: ٥٠ م³/ساعة
٣. قوة المحرك الديزلي: ١٣/٧ ساعة/لتر
٤. مضخة الخرسانة المتنقلة الديزلية/الكهربائية طراز HBTS60
٥. أقصى إنتاج نظري للخرسانة: ٦٠ م³/ساعة
٣. قوة المحرك الديزلي: ١٣/٧ ساعة/لتر
٦. مضخة الخرسانة المتنقلة الديزلية/الكهربائية طراز HBTS80
٧. أقصى إنتاج نظري للخرسانة: ٨٠ م³/ساعة
٨. قوة المحرك الديزلي: ١٦/٨,٦ ساعة/لتر
٩. مضخة الخرسانة المتنقلة الديزلية/الكهربائية طراز HBTS90
١٠. أقصى إنتاج نظري للخرسانة: ٩٠ م³/ساعة
٨. قوة المحرك الديزلي: ١٦/٨,٦ ساعة/لتر
١١. مضخة الخرسانة المتنقلة الديزلية/الكهربائية طراز HBTS100
١٢. أقصى إنتاج نظري للخرسانة: ١٠٠ م³/ساعة
١٣. قوة المحرك الديزلي: ١٨/٩,٣ ساعة/لتر
٨. الطرازات:
JBS30 ~ JBS50
٢. أقصى ضغط للضخ:
6 – 10MPa
٤. قوة المحرك الديزلي:
52 – 92 KW
Primarily powered by diesel, it stands out for its exceptional performance in areas with limited or unreliable electricity.
The diesel variant offers unique advantages such as superior power, greater mobility, and operational reliability in remote areas, making it a cost-effective solution that ensures quality and reduces labor costs.
١٤. الطرازات الموصى بها:
JBS30 Diesel Concrete Mixer Pump For Small Projects
JBS50 Diesel Concrete Mixer Pump For Large Projects
JBS30 Electric Concrete Mixer Pump
١١. أقصى إنتاج نظري للخرسانة: ٣٠ مترًا مكعبًا/ساعة
Electrical Engineering Power: 37kw
JBS40 Electric Concrete Mixer Pump
١٤. أقصى إنتاج نظري للخرسانة: ٤٠ مترًا مكعبًا/ساعة
Electrical Engineering Power: 45kw
JBS30 Diesel Concrete Mixer Pump
١١. أقصى إنتاج نظري للخرسانة: ٣٠ مترًا مكعبًا/ساعة
Diesel Engineering Power: 52kw
JBS40 Diesel Concrete Mixer Pump
١٤. أقصى إنتاج نظري للخرسانة: ٤٠ مترًا مكعبًا/ساعة
Diesel Engineering Power: 82kw
JBS50 Diesel Concrete Mixer Pump
٢. أقصى إنتاج نظري للخرسانة: ٥٠ م³/ساعة
Diesel Engineering Power: 92kw
٨. الطرازات:
BTB40R-14
٢. أقصى ضغط للضخ:
10MPa
٤. قوة المحرك الديزلي:
82 KW
Our concrete boom pump comes into play. It offers unparalleled flexibility and efficiency, making it suitable for large-scale construction projects and hard-to-reach areas.
There are different concrete placing boom of boom pump for sale for your selection, such as, 14m, 20cm, 30m, 37m, 44m, 47m, etc.
١٤. الطرازات الموصى بها:
BTB40R-14 Concrete Boom Pump For Small Projects
BTB40R-14 Concrete Boom Pump
١١. أقصى إنتاج نظري للخرسانة: ٣٠ مترًا مكعبًا/ساعة
Diesel Engineering Power: 52kw
BTB40R-20 Concrete Boom Pump
٢. أقصى إنتاج نظري للخرسانة: ٥٠ م³/ساعة
Diesel Engineering Power: 92kw
BTB40R-30 Concrete Boom Pump
١٤. أقصى إنتاج نظري للخرسانة: ٤٠ مترًا مكعبًا/ساعة
Diesel Engineering Power: 82kw
٨. الطرازات:
HBT6006A-5;HBT6013C-5;HBT6016C-5;HBT8022C-5
٢. أقصى ضغط للضخ:
10MPa
٤. قوة المحرك الديزلي:
82 KW
The truck-mounted concrete pump covering small area facilitates its shift to another construction spot. Therefore it contributes to alleviate builder’s working strength and enhance production efficiency.
Our concrete line pump is designed for precise and controlled concrete placement. Its narrow boom and flexible hoses allow for accurate pouring in confined spaces or complex sections of a structure.
١٤. الطرازات الموصى بها:
HBT6016C-5 Truck Mounted Concrete Pump For Large Concrete Output Needs
HBT6006A-5 Electric/Diesel Truck Mounted Concrete Pump
١١. أقصى إنتاج نظري للخرسانة: ٣٠ مترًا مكعبًا/ساعة
Diesel Engineering Power: 75/115kw
HBT6013C-5 Electric/Diesel Truck Mounted Concrete Pump
١٤. أقصى إنتاج نظري للخرسانة: ٤٠ مترًا مكعبًا/ساعة
Diesel Engineering Power: 90/115kw
HBT6016C-5 Electric/Diesel Truck Mounted Concrete Pump
٢. أقصى إنتاج نظري للخرسانة: ٥٠ م³/ساعة
Diesel Engineering Power: 110/186kw
HBT8022C-5 Electric/Diesel Truck Mounted Concrete Pump
٢. أقصى إنتاج نظري للخرسانة: ٥٠ م³/ساعة
Diesel Engineering Power: 110/120kw
Concrete Pump Specifications
٣. المواصفات التفصيلية للمضخة الخرسانية المحمَّلة على مقطورة والتي تعمل بالديزل
| ٥. الطراز | ٤. HBTSB40-10-82R | ٥. HBTSB60-13-129R | ٦. HBT80-16-129C | ٧. HBT90C-18-176R | |
| ٨. أقصى إنتاج نظري للخرسانة (لتر/ساعة) | ٩. م³/ساعة | 40/26 | 67/45 | 84/50 | 95/55 |
| ١٠. أقصى ضغط لضخ الخرسانة (عالي/منخفض) | ١١. ميجا باسكال | 10/7.6 | 7/13 | 16/8.6 | 18/9.3 |
| ١٢. نوع صمام التوزيع | ١٣. صمام S | ١٣. صمام S | ١٤. صمام S | ١٤. صمام S | |
| ١٥. قطر أسطوانة الخرسانة × السكتة | ١. مم | ٢. Ø١٨٠×١٢٠٠ | ٣. Ø٢٠٠×١٦٥٠ | ٤. Ø٢٠٠×١٨٠٠ | ٤. Ø٢٠٠×١٨٠٠ |
| ٥. سعة الحاوية × ارتفاع التغذية | ٦. ل/مم | 400/1100 | 800/1400 | ٨. ٨٠٠×١٤٠٠ | |
| ٩. قطر المخرج | ١. مم | ١٠. Ø١٥٠ | ١١. Ø١٨٠ | ١٢. Ø١٨٠ | ١٢. Ø١٨٠ |
| ١٣. طراز محرك الديزل | ١٤. وي فانغ ديلير ٦١٠٥زب | ١٥. ويشاي | ١. وِيتشاي | ١. وِيتشاي | |
| ٢. هندسة الكهرباء والطاقة | ٣. كيلوواط | 82 | 129 | 129 | 176 |
| ٤. سرعة الدوران | ٥. دورة/دقيقة | 2100 | 2200 | 2200 | 2200 |
| ٦. نوع الدائرة | ٧. دائرة مفتوحة | ٧. دائرة مفتوحة | ٧. دائرة مفتوحة | ٨. دائرة مفتوحة | |
| ٩. ضغط نظام الضخ | ١١. ميجا باسكال | 32 | 32 | 32 | 32 |
| ١٠. ضغط نظام الخلط | ١١. ميجا باسكال | 6-8 | 6-8 | 8 | 8 |
| ١١. سعة خزان الزيت | L | 370 | 370 | 580 | 580 |
| ١٢. أقصى مسافة نظريّة للنقل الرأسي/الأفقي | m | 120/500 | 120/500 | 120/500 | 120/500 |
| ١٣. أقصى قطر للركام | ١. مم | ١٤. انزلاق/صرير: ٤٠/٥٠ | ١٤. انزلاق/صرير: ٤٠/٥٠ | ١٤. انزلاق/صرير: ٤٠/٥٠ | ١٤. انزلاق/صرير: ٤٠/٥٠ |
| ١٥. القطر الداخلي لأنبوب التوصيل | ١. مم | ١. Φ١٢٥ | ١. Φ١٢٥ | ٢. Ф١٢٥ | ٢. Ф١٢٥ |
| ٣. الأبعاد: الطول × العرض × الارتفاع | ١. مم | ٤. ٥٠٠٠ × ١٨٥٠ × ١٧٠٠ | ٥. ٥٨٠٠ × ٢٠٠٠ × ١٧٥٠ | ٦. ٦٠٠٠ × ٢٢٠٠ × ٢٢٥٠ | ٦. ٦٠٠٠ × ٢٢٠٠ × ٢٢٥٠ |
٧. المواصفات التفصيلية لضاغط الخرسانة الكهربائي المُحمَّل على مقطورة
| ٨. البند | ٩. HBTS30 | ١٠. HBTS40 | ١١. HBTS50 | ١٢. HBTS60 | ١٣. HBTS80 |
| ١٤. أقصى سعة نظرية للضخ (م³/ساعة) | 30 | 40 | 50 | 60 | 88 |
| ١٥. أقصى ضغط ضخ (ميغاباسكال) | 10 | 10 | 10 | 13 | 16 |
| ١. أقصى مسافة نظريّة للنقل الرأسي (م) | 140 | 200 | 120 | 280 | 300 |
| ٢. أقصى مسافة نظريّة للنقل الأفقي (م) | 450 | 800 | 500 | 1000 | 1200 |
| ٣. أقصى قطر للركام (مم) | 30 | 40 | 50 | 30 | 30 |
| ٤. نصف قطر أنبوب النقل (مم) | 100 | 160 | 160 | 180 | 180 |
| ٥. عدد أسطوانات النقل (قطعة) | 2 | 2 | 2 | 2 | 2 |
| ٦. قطر أسطوانة النقل × طول حركة المكبس (مم) | ٧. Ø١٤٠×١٠٠٠ | ٨. Ø١٦٠×١٠٠٠ | ٩. Ø٢٠٠×١٠٠٠ | ١٠. Ø٢٠٠×١٦٠٠ | ١١. Ø٢٠٠×١٨٠٠ |
| ١٢. سعة خزان زيت التزييت الهيدروليكي (لتر) | 250 | 400 | 500 | 600 | 800 |
| ١٣. سعة الحاوية (م³) | 0.35 | 0.4 | 0.5 | 0.6 | 0.8 |
| ١٤. قدرة المحرك الكهربائي الرئيسي (كيلوواط) | 45 | 45 | 55 | 90 | 110 |
Detailed Specifications of Diesel Powered Concrete Mixer Pump:
| ٨. البند | Diesel Type JBS30-10-52R | Diesel Type JBS40-10-82R | Diesel Type JBS50-10-92R | |
| ٨. أقصى إنتاج نظري للخرسانة (لتر/ساعة) | ٩. م³/ساعة | 30 | 40 | 50 |
| Mixer rated feed capacity | m3 | 0.56 | 0.56 | 0.56 |
| Mixer rated discharge capacity | m3 | 0.45 | 0.45 | 0.45 |
| ١٠. أقصى ضغط لضخ الخرسانة (عالي/منخفض) | ١١. ميجا باسكال | 6 | 10 | 10 |
| ١٢. نوع صمام التوزيع | ١٤. صمام S | ١٤. صمام S | ١٤. صمام S | |
| ١٥. قطر أسطوانة الخرسانة × السكتة | ١. مم | Φ180*500 | Φ180*800 | Φ180*1000 |
| ١٣. طراز محرك الديزل | Yuchai/Weichai | Weichai Deutz WP4G110E220 | Yuchai 92KW | |
| Diesel engineering power | ٣. كيلوواط | 52 | 82 | 92 |
| ٦. نوع الدائرة | ٧. دائرة مفتوحة | ٧. دائرة مفتوحة | ٧. دائرة مفتوحة | |
| Max. theoretical vertical/horizontal conveying distance | m | 100/300 | 100/400 | 100/450 |
| ١٣. أقصى قطر للركام | ١. مم | Slick/scree:20~40 | ١٤. انزلاق/صرير: ٤٠/٥٠ | ١٤. انزلاق/صرير: ٤٠/٥٠ |
Detailed Specifications of Concrete Boom Pump:
| ٥. الطراز | BTB40R-14 |
| Max. theo. concrete output(m3/h) | 40 |
| Max.concrete pumping pressure(MPa) | 10 |
| ١٢. نوع صمام التوزيع | ١٤. صمام S |
| Concrete cylinder diameter×stroke(mm) | Ф180×1300 |
| Hopper capacity(L) | 500 |
| Outlet diameter(mm) | Ф150 |
| Vertical height of boom(m) | 15.4 |
| Radius of place concrete(m) | 13–16 |
| Big arm length(m) | 6.5 |
| Big arm elevation angle(°) | 90 |
| Small arm length(m) | 6.5 |
| Small arm elevation angle(°) | 235 |
| Concrete pipe(m) | 125*3 |
| Tower rotation angle(°) | 200 |
| Leg open width(m) | 5.5 |
| Distribution rod direction control | Manually |
| Diesel engine model() | Weichai WP4G110E220 |
| Engine power(Kw) | 82 |
| Rotate speed(RPM) | 2200 |
| Travelling diesel engine | 32HP |
| ٤. الإطارات | 4*8.25*16 |
| Max. aggregate diameter(mm) | 30 |
| Inside diameter of delivering pipe(mm) | Ф100 |
| Dimensions:length×width×height(mm) | 7500x2200x2920 |
Detailed Specifications of Diesel Powered Truck Mounted Concrete Pump:
| ٨. البند | ٥. الطراز | HBT6006A-5D | HBT6013C-5D | HBT6016C-5D | HBT8018C-5D | HBT12020C-5D |
| Dimension (L×W×H) | ١. مم | 6787*2099*2628 | 6695*2068*2068 | 6736*2125*2628 | 7161*2125*2628 | 7413*2125*2900 |
| Feeding height | ١. مم | 1415 | 1320 | 1420 | 1420 | 1420 |
| Gross weight | kg | 6300 | 6100 | 6600 | 7300 | 9100 |
| Max. Delivery Pressure | ١١. ميجا باسكال | 7 | 8/13 | 10/16 | 10/18 | 13/21 |
| Max. Output | m3/h | 70 | 65/40 | 75/45 | 85/50 | 120/75 |
| Delivery Cylinder (Bore/stroke) | ١. مم | 200/1400 | 200/1400 | 200/1800 | 200/1800 | 200/2100 |
| ١٢. قوة المحرك | ٣. كيلوواط | 115 | 115 | 186 | 186 | 273 |
| Hopper Capacity | m3 | 0.6 | 0.7 | 0.7 | 0.7 | 0.7 |
Detailed Specifications of Electric Powered Truck Mounted Concrete Pump:
| ٨. البند | ٥. الطراز | HBT6006A-5 | HBT6013C-5 | HBT6016C-5 | HBT8022C-5 |
| Dimension (L×W×H) | ١. مم | 6587 *2099 *2232 | 6095*2100 *2232 | 6495*2100* 2232 | 7215*2125*2540 |
| Feeding height | ١. مم | 1415 | 1320 | 1320 | 1420 |
| Gross weight | kg | 6100 | 6130 | 6600 | 10520 |
| Max. Delivery Pressure | ١١. ميجا باسكال | 7 | 8/13 | 10/16 | 14/22 |
| Max. Output | m3/h | 70 | 65/40 | 70/45 | 85/50 |
| Delivery Cylinder (Bore/stroke) | ١. مم | 200/1400 | 200/1400 | 200/1800 | 200/2100 |
| ١٢. قوة المحرك | ٣. كيلوواط | 75 | 90 | 110 | 2*110 |
| Hopper Capacity | m3 | 0.6 | 0.7 | 0.7 | 0.7 |
Why Invest in Concrete Pumps?
Investing in concrete pumps can be beneficial for a number of reasons. Here are a few key advantages:
- Increased Efficiency: Concrete pumps allow for the precise and efficient placement of concrete. They can pump concrete at a higher rate and with greater accuracy, making the process faster and reducing labor requirements. This can result in significant time and cost savings on construction projects.
- ٩. التعددية في الاستخدام: Concrete pumps come in various sizes and configurations, allowing them to be used in a wide range of construction projects, from small residential jobs to large-scale commercial and infrastructure projects. They can be easily transported and set up at different locations, making them suitable for different types of sites and applications.
- Improved Quality: Concrete pumps help ensure consistent and uniform concrete placement, reducing the likelihood of segregation and other quality issues. The controlled and precise delivery of concrete also minimizes the chances of over-pouring or under-pouring, resulting in a higher quality end product.
- Safety and Reduced Labor: Using concrete pumps eliminates the need for manual pouring, reducing the physical strain on workers and minimizing the risk of injuries. It also allows for better access to hard-to-reach areas, such as high-rise buildings or underground construction sites, reducing the need for scaffolding or other access equipment.
- ٧. توفير التكاليف: Although concrete pumps represent a significant initial investment, the improved efficiency and productivity they offer can lead to long-term cost savings. Faster construction timelines, reduced labor requirements, and better quality control can result in lower overall project costs.
Overall, investing in concrete pumps can help increase construction productivity, improve quality, enhance safety, and ultimately contribute to the success of construction projects.
. ١٢. الميزات
The Advantages of Our Concrete Pump
The small model is light, easy to move, suitable for small construction projects;
The full hydraulic system can extend component life, improve equipment reliability, reduce the failure rate and reduce maintenance costs;
The S tube valve are cast into shape with austenitic manganese steel and has the dual advantages of anti-high pressure and anti-wearing;
Main electric elements are from Schneider and LG company, the reliability of the electric-control system is highly approved;
Glasses plates and cut loops are made of anti-wearing horsiness alloy, they have long service life;
Concrete Pump Cost Considerations
When considering the cost of purchasing a concrete pump, it’s essential to look beyond the initial investment and consider the long-term financial impact. While it’s true that concrete pumps represent a significant upfront cost, they offer significant benefits that can outweigh the initial expenditure.
First, the increased productivity and efficiency provided by a concrete pump can result in significant time and labor savings. Improved concrete placement accuracy reduces the need for rework, leading to less material wastage and a higher quality end product. These factors contribute to overall cost savings on construction projects.
Additionally, maintenance and repair costs should be taken into account. It’s crucial to choose a reputable manufacturer with a reliable service network and readily available spare parts. Regular preventive maintenance can help prolong the life of the pump and prevent costly breakdowns. Considering these factors can help assess the true cost of owning and operating a concrete pump over its lifespan.
Moreover, the resale value of a well-maintained concrete pump should be considered. Typically, high-quality pumps retain their value and can be easily sold in the used equipment market, providing a potential return on investment when upgrading or replacing the pump.
Overall, while the initial cost of a concrete pump is a significant consideration, it’s important to evaluate the long-term benefits, including improved efficiency, time savings, reduced labor costs, and potential resale value. By analyzing the total cost of ownership, buyers can make an informed decision that aligns with their budget and project needs.
Buy New, Used or Rent a Concrete Pump?
Deciding whether to buy new, used, or rent a concrete pump depends on several factors, including project requirements, budget, and long-term usage. Here are some considerations for each option:
1. Why Buying a New Concrete Pump:
- Suitable for companies with frequent concrete pumping needs or long-term projects.
- Offers the advantage of owning the equipment outright and having full control over its use.
- Provides the opportunity to customize the pump to specific requirements.
- Generally comes with warranty and after-sales support.
- Requires a significant upfront investment, including the cost of maintenance, operation, and storage.
2. Why Buying a Used Concrete Pump:
- Can be a cost-effective option, especially for smaller businesses or projects with a limited budget.
- Allows for ownership of a concrete pump at a lower initial cost compared to buying new.
- Requires careful inspection to ensure the condition and functionality of the used equipment.
- May require additional maintenance and repair costs.
- Availability of used pumps can vary, and finding the right equipment may take time.
3. Why Renting a Concrete Pump:
- More suitable for short-term projects or occasional concrete pumping needs.
- Requires minimal upfront investment, as rental companies handle maintenance and storage.
- Provides access to a variety of concrete pumps with different capacities and specifications.
- Rental costs can be more expensive in the long run if the need for concrete pumping persists.
- Renting may have limitations in availability and scheduling, particularly during peak construction periods.
In making a decision, it’s essential to assess the specific requirements of your project, evaluate the budget, and consider the long-term utilization of the equipment. Consulting with industry professionals or equipment providers can also provide valuable insights and help you make an informed choice.
Concrete Pump Price
| ٨. سعة التفريغ (م٩. ³) | ١٠. السعر التقريبي |
| ٧. مضخة خرسانة مُرْكَبة على مقطورة | ١٢. ١TP4T١٠٬٠٠٠٫٠٠ – ١TP4T١٠٠٬٠٠٠٫٠٠ |
| ٨. مضخة خلاطة خرسانة | $15,000.00 – $25,000.00 |
| Truck Mounted Concrete Pump | $16,500.00 – $43,000.00 |
| Concrete Boom Pump | ١٤. ١TP4T١٠٬٠٠٠٫٠٠ – ١TP4T٥٠٠٬٠٠٠٫٠٠ |
Our concrete mixer pumps are competitively priced, with a range provided as a reference. However, the final cost can be influenced by several factors including model, capacity, technological features, and any additional specifications you may require.
١. قد يختلف السعر أيضًا وفقًا لخدمات التخصيص التي تختارها، إذ نسعى جاهدين لتلبية احتياجات مشروعك المحددة والقيود المفروضة على ميزانيتك. ونقدّم خدمة مُصمَّمة خصيصًا، تتيح لك تخصيص مضخة الخرسانة الخاصة بك وفقًا لمتطلباتك الدقيقة.
٢. تذكَّر أن الاستثمار في معداتنا لا يتعلق فقط بالتكلفة الأولية، بل بالقيمة والكفاءة والوفورات طويلة الأجل التي توفرها.
٦. حالات عالمية
JBS40 Electric Concrete Mixer Pump In Guyana
HBTSB60 Concrete Trailer Pump In Kenya
١٠. مضخة الخرسانة المحمولة من طراز HBTS40 في كندا
١١. مضخة الخرسانة المحمولة من طراز LHBT 80 في زامبيا
Factors to Consider When Buying a Concrete Pump
Here are additional factors to consider when buying a concrete pump:
Project Requirements: Assess the specific needs of your projects, including the type of concrete being used, the distance and height of concrete placement, and the expected output volume. Ensure that the concrete pump you choose can meet these requirements effectively.
Pump Type: There are different types of concrete pumps available, such as boom pumps, line pumps, and specialized pumps for specific applications. Evaluate which type best suits your project requirements in terms of reach, maneuverability, and versatility.
Pump Size and Capacity: Consider the size and capacity of the concrete pump to ensure it can handle the volume and flow rate demanded by your projects. Factors such as boom length, pump output, and hopper capacity should be considered.
Maintenance and Service: Evaluate the availability of spare parts and service support for the concrete pump you intend to purchase. Reliable and accessible maintenance services are crucial to reducing downtime and ensuring the long-term performance of the equipment.
Operator Skill Level: Consider the expertise and experience level of your operators. Some concrete pumps may have more complex controls and features, requiring a higher level of skill and training. Choose a pump that suits your team’s capabilities or factor in additional operator training costs.
Manufacturer Reputation: Research and choose a reputable manufacturer known for producing high-quality and reliable concrete pumps. Consider their track record, customer reviews, and customer support services.
١٤. مزايا السلامة: Ensure that the concrete pump has appropriate safety features, such as boom stability systems, emergency stop buttons, remote control options, and safety alarms. Safety should be a top priority to protect workers and prevent accidents.
Cost Analysis: Evaluate the initial purchase cost, including any additional optional features you require, along with potential long-term costs, such as maintenance, repairs, and consumables (e.g., wear parts, lubricants). Compare different options to determine the most cost-effective choice for your budget.
Environmental Considerations: Look for concrete pumps that are designed to be environmentally friendly, with features like reduced fuel consumption, noise levels, and emissions. Choosing an environmentally conscious option aligns with sustainable and green construction practices.
Resale Value: While not an immediate concern, it’s worth considering the potential future resale value of the concrete pump if you plan to upgrade or sell it down the line. Certain brands or models may have stronger resale value, which can impact your long-term investment.
Remember to consult with industry professionals, equipment suppliers, or experienced operators to gain further insights and detailed guidance when making your purchasing decision.
Work Principles Concrete Pump
The working principle of a concrete pump involves several key components and processes. Here’s a simplified explanation of how a concrete pump operates:
- Concrete Hopper: The concrete pump starts with a hopper that stores the liquid concrete mixture. The hopper is connected to a feeding system or conveyor belt that continuously supplies concrete to the pump.
- S-valve or Rock Valve: Inside the concrete pump, there is an S-valve or Rock Valve mechanism. This valve, typically made of steel, is responsible for controlling the flow of concrete. It consists of two concave-shaped flaps that alternate between opening and closing. When one flap opens, the other closes, creating a seal to prevent the backward flow of concrete.
- Pistons and Cylinders: The concrete pump also contains hydraulic cylinders and reciprocating pistons. These components work together to create the necessary pressure to push the concrete through the system. As the pistons retract, a vacuum is formed, and concrete is drawn into the pump’s cylinder.
- Concrete Pumping System: Once the pistons extend, the concrete is forced out of the cylinder and into the discharge system. The S-valve directs the flow of concrete through the delivery pipe or hose.
- Delivery Pipe or Hose: The concrete is transported through a delivery pipe or hose to its desired location. The length of the pipe or hose determines the distance the concrete can be pumped, and it can be extended or retracted as needed.
- Boom Extension (if applicable): If the concrete pump has a boom, it can extend and articulate to reach areas that are not easily accessible. The boom is controlled hydraulically, allowing for precise placement of concrete at various heights and distances.
- Continuous Operation: The concrete pump operates in a continuous cycle. As long as there is a steady flow of concrete from the hopper, the pump can continuously draw it in and push it out through the delivery system.
It’s important to note that there are different types of concrete pumps, including truck-mounted pumps, trailer-mounted pumps, and stationary pumps, each with its own variations in design and operation. However, the basic principles remain the same, involving the transfer of concrete from a hopper, through a valve mechanism, and into a delivery system for placement at the construction site.
Applications of Concrete Pumps
Concrete pumps are versatile construction equipment widely used in various applications. Here are some common applications where concrete pumps are utilized:
High-Rise Construction: Concrete pumps are extensively used in high-rise construction projects. Due to their ability to reach great heights and long horizontal distances, concrete pumps ensure the efficient and timely placement of concrete in tall buildings. They offer precision and speed in delivering concrete to different floors without the limitation of traditional methods like cranes and buckets.
Large-Scale Infrastructure Projects: Concrete pumps are crucial in the construction of large-scale infrastructure projects such as bridges, tunnels, dams, and highways. These projects often require a significant amount of concrete to be placed quickly and accurately. Concrete pumps can easily transport concrete over long distances and reach challenging locations, allowing for efficient concrete placement in complex structures.
Residential Construction: Concrete pumps are also used in residential construction projects, particularly when working on foundations, driveways, or basement floors. With a concrete pump, contractors can ensure a smooth and consistent concrete placement, which helps enhance the strength and durability of the structures. The increased efficiency of concrete pumping also reduces labor requirements and improves construction timelines.
Remote Locations: In projects where access and logistics may be challenging, such as remote construction sites or locations with limited road access, concrete pumps are an invaluable tool. They can be mounted on a trailer or truck and transported to the site, enabling the delivery of concrete to areas where traditional methods may be impractical or impossible.
Slipform Paving: Concrete pumps play a vital role in slipform paving, which is commonly used in road construction and large concrete pavement projects. The pump delivers concrete to the slipform paver, ensuring a continuous and uniform flow. This allows for precise shaping and leveling of the concrete, resulting in smooth and durable road surfaces.
Industrial Flooring: In industrial and commercial settings, where large, flat and durable floor surfaces are required, concrete pumps are utilized to achieve optimal concrete placement. Whether it is for warehouses, factories, or retail spaces, the high efficiency of concrete pumps helps in delivering and placing concrete quickly and accurately, ensuring a robust base for industrial flooring.
These are just a few examples of the many applications where concrete pumps are employed. Their versatility, efficiency, and ability to access challenging locations make them an essential tool in modern construction projects, streamlining operations and improving overall project outcomes.
٣. الاتجاهات السوقية والتوقعات المستقبلية
٤. تلعب الاتجاهات السوقية دورًا محوريًّا في قطاع مضخات الخرسانة، ومن المهم جدًّا للمشترين أن يبقوا على اطلاعٍ بأحدث التطورات. ويُعَدُّ أحد أبرز الاتجاهات هو التبني المتزايد للتكنولوجيات المتقدمة في مضخات الخرسانة.
٥. أصبحت ميزات الأتمتة، مثل التشغيل عن بُعد ومراقبة البيانات، أكثر انتشارًا، مما يعزِّز الكفاءة ويقلل من إجهاد المشغلين. ومن المتوقع أن يستمر هذا الاتجاه مع استثمار المصنِّعين في مجالات البحث والتطوير لتحسين أداء مضخاتهم وقدراتها.
٦. أما الاتجاه الآخر المهم فهو التركيز على الحلول الصديقة للبيئة. فتتبنَّى صناعة الإنشاءات ككل ممارسات مستدامة، ولا يُستثنى منها قطاع مضخات الخرسانة. ويقوم المصنعون بتطوير مضخات أكثر كفاءة في استهلاك الطاقة، تقلِّل الانبعاثات وتتوافق مع اللوائح البيئية الأكثر صرامة. وهذه المضخات لا تقلِّل فقط البصمة الكربونية، بل توفر أيضًا وفورات مالية على المدى الطويل من خلال خفض استهلاك الوقود.
٧. علاوةً على ذلك، فإن استخدام أنظمة الاتصالات عن بُعد (Telematics) وتحليلات البيانات الفورية في ازديادٍ مستمر. فقد تم تجهيز مضخات الخرسانة المتقدمة الآن بأجهزة استشعار تراقب أداء المضخة وتدفُّق الخرسانة وغيرها من المعايير الحرجة. وتسمح هذه البيانات الفورية للمشغلين ومدراء المشاريع باتخاذ قراراتٍ مستنيرة، وتحسين استخدام المضخة، وضمان الصيانة في الوقت المناسب، ما يحسِّن الكفاءة العامة للمشروع.
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