Popular Model Brand Mobile Truck Crane
|FOB Price:||US $50,000-500,000 / Piece|
|Min. Order:||1 Piece|
|Min. Order||FOB Price|
|1 Piece||US $50,000-500,000/ Piece|
|Production Capacity:||500, 000 Unit/Year|
|Payment Terms:||L/C, T/T, Western Union, Paypal, Money Gram|
- Model NO.: WP12.460E40
- Condition: New
- Cabin: Full or Half
- Color: White, Red, Green, Yellow, Blue, Orange
- Application: Construction Usage, Workshop Usage, Container Usage
- Sling Type: Cable
- Power Source: Hydraulic
- Trademark: sinoruk HOWO
- Origin: China
- Certification: CE, ISO9001: 2000
- Type: Truck Crane
- Capacity: 10-200t
- Drive: Right or Left Possible
- Tower Crane Type: Under Slewing Cranes
- Main Girder Form: Double Girder
- Moving Type: Wheel
- Specification: SGS
- HS Code: 8425429000
QY130K-I Truck Crane is a special crane targeting at the installation, inspection and repair work in large petrochemical projects. The vehicle adopts specialized 6-axle chassis for truck crane and two-stage outrigger structure. Accurate multi-axle steering, with mechanical, electro and hydraulic integration applied, and emergency brake technology contribute to the excellent traveling performance.
QY130K-I Truck Crane is a product specially made for Russian areas, with expanded configuration to fulfill Russian regulations and environmental characteristics.
Full Cabin and Half Cabin:
Compared with conventional QY130K-I product, this product is provided with system heating equipment to strengthen its low-temperature adaptability. Various options are available for users. Meanwhile an engine compliant with Euro IV emission standard is fitted to meet the emission standard and requirements in Russian areas and get Russian GOST and OTTC certificates.
1. Optimization of structural members
The technique of finite-element analysis is fully adopted in the design of major structural members such as frame, outriggers and boom etc. The design of structural members is in accordance with topological forms, contributing to stress even and equal distribution.
2. Emergency steering system improves driving safety
An emergency steering pump is fitted on the transfer box, which realizes vehicle steering action in engine trouble or in towing state, so as to guarantee normal traveling and improve driving safety. Moreover, steering mechanism is optimized and tire wear is reduced.
3. Optimized electric control ensures system reliability
Overload protection devices are adopted to manage the power source and improve electric control technique so as to ensure system reliability. A GPS connector is available for remote control and diagnosis. New type of reset fuse link technique can automatically cut off protection circuit to prevent electric parts from burning when the current in circuit is too large. It can be used repeatedly to avoid frequent replacement and at the same time eliminate the problem that fuse base in control box is vulnerable to burning.
4. Leaf spring equalizing suspension technology applied for multi-axle vehicle improves vehicle pass-ability
Multi-axle vehicle leaf spring equalizing suspension technology is applied to solve the problem that propelling system and leaf spring components are vulnerable to damages when axles bounce up and down. The innovative equal-arm balance beam and parallelogram propelling rod keep the translation motion of axles so as to ensure the reliability of propelling system and balance of each axle. Diagonally set parallelogram propelling rod can bear and buffer lateral acting force, realizing the function of transmitting applied forced and alleviating vibration. By these means, the distance of wheel bouncing reaches the level of an all terrain truck crane, providing the vehicle with good pass-ability.
5. System configuration for extremely cold areas
1) Engine system:
Electric heating is added to the engine oil water separator so as to guarantee fluent oil flow. An additional heater is fitted to heat engine water via its heat exchange function, so as to increase engine temperature and make the low-temperature adaptability reach -35 ºC.
2) Two cabs:
New type of structure is adopted for driver's cab, paying great emphasis on heat preservation and heating performance. Parts like heat insulating cloth and sound absorbing cloth are fitted inside the interlayer of driver's cab, which not only improves warmth retention of driver's cab but also reduces noise inside the cab and provide users with a quiet driving environment.
Operator's cab is fitted with an additional stereoscopic air passage and fuel oil heater to boost the power of air conditioner and meet the low-temperature requirements in Russia area.
|Wheel base||1st and 2nd Axle||mm||1420|
|2nd and 3rd Axle||mm||2420|
|3rd and 4th Axle||mm||1800|
|4th and 5th Axle||mm||1420|
|5th and 6th Axle||mm||1505|
|Weight||Total vehicle weight in travel||kg||56400|
|Axle load||1st /2nd /3rd Axle||kg||8730/8390/8700|
|4th /5th Axle||kg||23700|
|Power||Super- structure |
|Rated torque||N.m/(r/min)||854/1400||900 /1200-1600||854/1400|
|Rated rotating speed||r/min||2100||2200||2100|
|Rated rotating speed||r/min||1900|
|Travel speed||Max. travel speed||km/h||70|
|Min. stable travel speed||km/h||2.3~2.6|
|Min. turning diameter||m||26|
|Min. ground clearance||mm||300|
|Braking distance (at 30 km/h )||m||≤10|
|Max. grade ability||%||40|
|Oil consumption per 100km||l||70|