Product Description
Product Description
NUS 3.0A miniature crawler crane, powered by Yangma diesel engine, is A fully proportional intelligent spider crane with remote control. The power and hydraulic system are all made of original parts from Japan, making the power output efficient. CHINAMFG proportional valve is adopted in the system, can according to actual needs, to realize the stepless speed regulating, leg have a key leveling function, eliminating the tedious leg leveling operation, work more efficient, hanging arm, leg and walking to realize self-locking interlock, and install a torque control, makes the equipment operation more secure, especially equipped with step pioneering double speed winding, fast speed, high efficiency.
Detailed Photos
Adopt double speed winch; Single rate, hook with double speed, speed is 24m/min and 48m/min, winch drum capacity hit 100 meters, especially suitable for high-rise buildings of the object transport.
The lifting arm adopts double oil cylinder, unique design of 5 pieces arm, long extension, short contraction. Under the same lifting weight, the crane volume is smaller (the length of spider crane is 2.9 meters), and it can take the elevator with a load of 3 tons to go upstairs, and it can make the boom to a certain extent of load expansion.
Sensor of outrigger on the ground Each leg is equipped with grounding sensor, when the leg off the ground danger, the machine alarm, stop working.Ensure that the machine will not overturn. The crane arm is equipped with moment limiter, each length shows the corresponding limit of load, to ensure that the crane works under the safe lifting weight, and with the moment limiter together to form a double insurance, It can prevent the rollover accident and prevent overload and damage to the boom.
Interlock system After the lifting arm is reset, the supporting leg and travel can be operated to protect the safety of the crane.
380V electric power and gasoline engine (diesel engine) dual power. In places where the engine cannot be used, it can be dragged by wire for operation (especially in areas where gasoline and diesel are strictly controlled), and it can also be equipped with battery pure electric spider crane.
The outrigger is fixed from multiple angles, and the outrigger can be adjusted and fixed according to the construction environment in the face of different narrow working environment. Legs can be operated independently according to the surrounding environment, or 4 legs can be controlled by remote control at the same time to achieve one-button leveling. Beginners can also operate legs easily, so that the car body is always in a level state.
Product Parameters
| Model | NU3.0 | |
| Specification | 2.95t*1.3m | |
| Maximum working radius | 8.3m*0.14t | |
| Maximum ground lifting height | 9.2m | |
| Maximum underground lifting height | – | |
| Winch device | Hook speed | 6.5m/min(4) |
| Rope type | Φ8mm×45mm | |
| Telescopic system | Boom type | Full automatic 5 section |
| Boom length | 2.65m-8.92m | |
| Telescopic length/time | 6.36m/26sec | |
| Up and downs | Boom angle/time | 0°-75°/14 sec |
| SlKB System | SlKB angle/time | 360°continuous/40sec |
| Outrigger System | Outrigger active form | Automatic for the 1 section,manual adjustment for 2,3 section. |
| Maximum extended dimensions | 3900mm*3750mm | |
| Traction System | Working way | Hydraulic motor driven,stepless speed change |
| Working speed | 0-2.9Km/h | |
| Ground length×width×2 | 1571mm*200mm*2 | |
| Grade ability | 20° | |
| Ground pressure | 51Kpa | |
| Safety Devices | Air level,Moment limiter(Height limiter),Alarm Device,Emergency Stop Button | |
| System voltage | DC12V | |
| Diesel engine (optional) | Type | 2TNV70-PYU |
| Displacement | 570ml | |
| Maximum output | 7.5kw | |
| Starting method | Electric staring | |
| Fuel tank capacity | 11L | |
| Operation temperature | -5°C-40°C | |
| Battery capacity | 12v45Ah | |
| Petrol engine | Model | Kohler |
| Displacement | 389.2ml | |
| Maximum output | 6.6kw | |
| Starting method | Recoil start/electric starting | |
| Fuel tank capacity | 6L | |
| Operation temperature | -5°C-40°C | |
| Battery capacity | 12v 36Ah | |
| Electric motor | Power suppler voltage | AC 380V |
| Power | 4KW | |
| Remote Control | Type | BOX1.1(optional) |
| Operation range | 100m | |
| Water -proof standard | IP67 | |
| Dimension | Length *width *length | 2900mm*800mm*1450mm |
| Weight | Vehicle weight | 2050kg |
| Package size | 3200mm*1200mm*1900mm | |
Packaging & Shipping
Product advantange
The plane is full remote control models of 3 tons crawler crane, the function is all ready fuselage compact, hydraulic walking, safety design can prevent wrong operation, to adapt to the rugged outdoors, u-shaped telescopic boom, a weight display, leg sensor protection, high strength, and by using the 3 tons of the company the first winding double speed, high speed, efficient fast, cost-effective.
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| After-sales Service: | Give The Solution Within 6 Hours |
|---|---|
| Max. Lifting Height: | 9.2m |
| Rated Loading Capacity: | 3ton |
| Certification: | ISO9001, CE |
| Condition: | New |
| Warranty: | 1 Year |
| Customization: |
Available
|
|
|---|
What are the typical tolerances and quality standards for injection molded parts?
When it comes to injection molded parts, the tolerances and quality standards can vary depending on several factors, including the specific application, industry requirements, and the capabilities of the injection molding process. Here are some general considerations regarding tolerances and quality standards:
Tolerances:
The tolerances for injection molded parts typically refer to the allowable deviation from the intended design dimensions. These tolerances are influenced by various factors, including the part geometry, material properties, mold design, and process capabilities. It’s important to note that achieving tighter tolerances often requires more precise tooling, tighter process control, and additional post-processing steps. Here are some common types of tolerances found in injection molding:
1. Dimensional Tolerances:
Dimensional tolerances define the acceptable range of variation for linear dimensions, such as length, width, height, and diameter. The specific tolerances depend on the part’s critical dimensions and functional requirements. Typical dimensional tolerances for injection molded parts can range from +/- 0.05 mm to +/- 0.5 mm or even tighter, depending on the complexity of the part and the process capabilities.
2. Geometric Tolerances:
Geometric tolerances specify the allowable variation in shape, form, and orientation of features on the part. These tolerances are often expressed using symbols and control the relationships between various geometric elements. Common geometric tolerances include flatness, straightness, circularity, concentricity, perpendicularity, and angularity. The specific geometric tolerances depend on the part’s design requirements and the manufacturing capabilities.
3. Surface Finish Tolerances:
Surface finish tolerances define the acceptable variation in the texture, roughness, and appearance of the part’s surfaces. The surface finish requirements are typically specified using roughness parameters, such as Ra (arithmetical average roughness) or Rz (maximum height of the roughness profile). The specific surface finish tolerances depend on the part’s aesthetic requirements, functional needs, and the material being used.
Quality Standards:
In addition to tolerances, injection molded parts are subject to various quality standards that ensure their performance, reliability, and consistency. These standards may be industry-specific or based on international standards organizations. Here are some commonly referenced quality standards for injection molded parts:
1. ISO 9001:
The ISO 9001 standard is a widely recognized quality management system that establishes criteria for the overall quality control and management of an organization. Injection molding companies often seek ISO 9001 certification to demonstrate their commitment to quality and adherence to standardized processes for design, production, and customer satisfaction.
2. ISO 13485:
ISO 13485 is a specific quality management system standard for medical devices. Injection molded parts used in the medical industry must adhere to this standard to ensure they meet the stringent quality requirements for safety, efficacy, and regulatory compliance.
3. Automotive Industry Standards:
The automotive industry has its own set of quality standards, such as ISO/TS 16949 (now IATF 16949), which focuses on the quality management system for automotive suppliers. These standards encompass requirements for product design, development, production, installation, and servicing, ensuring the quality and reliability of injection molded parts used in automobiles.
4. Industry-Specific Standards:
Various industries may have specific quality standards or guidelines that pertain to injection molded parts. For example, the aerospace industry may reference standards like AS9100, while the electronics industry may adhere to standards such as IPC-A-610 for acceptability of electronic assemblies.
It’s important to note that the specific tolerances and quality standards for injection molded parts can vary significantly depending on the application and industry requirements. Design engineers and manufacturers work together to define the appropriate tolerances and quality standards based on the functional requirements, cost considerations, and the capabilities of the injection molding process.
How do innovations and advancements in injection molding technology influence part design and production?
Innovations and advancements in injection molding technology have a significant influence on part design and production. These advancements introduce new capabilities, enhance process efficiency, improve part quality, and expand the range of applications for injection molded parts. Here’s a detailed explanation of how innovations and advancements in injection molding technology influence part design and production:
Design Freedom:
Advancements in injection molding technology have expanded the design freedom for part designers. With the introduction of advanced software tools, such as computer-aided design (CAD) and simulation software, designers can create complex geometries, intricate features, and highly optimized designs. The use of 3D modeling and simulation allows for the identification and resolution of potential design issues before manufacturing. This design freedom enables the production of innovative and highly functional parts that were previously challenging or impossible to manufacture using conventional techniques.
Improved Precision and Accuracy:
Innovations in injection molding technology have led to improved precision and accuracy in part production. High-precision molds, advanced control systems, and closed-loop feedback mechanisms ensure precise control over the molding process variables, such as temperature, pressure, and cooling. This level of control results in parts with tight tolerances, consistent dimensions, and improved surface finishes. Enhanced precision and accuracy enable the production of parts that meet strict quality requirements, fit seamlessly with other components, and perform reliably in their intended applications.
Material Advancements:
The development of new materials and material combinations specifically formulated for injection molding has expanded the range of properties available to part designers. Innovations in materials include high-performance engineering thermoplastics, bio-based polymers, reinforced composites, and specialty materials with unique properties. These advancements allow for the production of parts with enhanced mechanical strength, improved chemical resistance, superior heat resistance, and customized performance characteristics. Material advancements in injection molding technology enable the creation of parts that can withstand demanding operating conditions and meet the specific requirements of various industries.
Process Efficiency:
Innovations in injection molding technology have introduced process optimizations that improve efficiency and productivity. Advanced automation, robotics, and real-time monitoring systems enable faster cycle times, reduced scrap rates, and increased production throughput. Additionally, innovations like multi-cavity molds, hot-runner systems, and micro-injection molding techniques improve material utilization and reduce production costs. Increased process efficiency allows for the economical production of high-quality parts in larger quantities, meeting the demands of industries that require high-volume production.
Overmolding and Multi-Material Molding:
Advancements in injection molding technology have enabled the integration of multiple materials or components into a single part through overmolding or multi-material molding processes. Overmolding allows for the encapsulation of inserts, such as metal components or electronics, with a thermoplastic material in a single molding cycle. This enables the creation of parts with improved functionality, enhanced aesthetics, and simplified assembly. Multi-material molding techniques, such as co-injection molding or sequential injection molding, enable the production of parts with multiple colors, varying material properties, or complex material combinations. These capabilities expand the design possibilities and allow for the creation of innovative parts with unique features and performance characteristics.
Additive Manufacturing Integration:
The integration of additive manufacturing, commonly known as 3D printing, with injection molding technology has opened up new possibilities for part design and production. Additive manufacturing can be used to create complex mold geometries, conformal cooling channels, or custom inserts, which enhance part quality, reduce cycle times, and improve part performance. By combining additive manufacturing and injection molding, designers can explore new design concepts, produce rapid prototypes, and efficiently manufacture customized or low-volume production runs.
Sustainability and Eco-Friendly Solutions:
Advancements in injection molding technology have also focused on sustainability and eco-friendly solutions. This includes the development of biodegradable and compostable materials, recycling technologies for post-consumer and post-industrial waste, and energy-efficient molding processes. These advancements enable the production of environmentally friendly parts that contribute to reducing the carbon footprint and meeting sustainability goals.
Overall, innovations and advancements in injection molding technology have revolutionized part design and production. They have expanded design possibilities, improved precision and accuracy, introduced new materials, enhanced process efficiency, enabled overmolding and multi-material molding, integrated additive manufacturing, and promoted sustainability. These advancements empower part designers and manufacturers to create highly functional, complex, and customized parts that meet the demands of various industries and contribute to overall process efficiency and sustainability.
Are there different types of injection molded parts, such as automotive components or medical devices?
Yes, there are various types of injection molded parts that are specifically designed for different industries and applications. Injection molding is a versatile manufacturing process capable of producing complex and precise parts with high efficiency and repeatability. Here are some examples of different types of injection molded parts:
1. Automotive Components:
Injection molding plays a critical role in the automotive industry, where it is used to manufacture a wide range of components. Some common injection molded automotive parts include:
- Interior components: Dashboard panels, door handles, trim pieces, instrument clusters, and center consoles.
- Exterior components: Bumpers, grilles, body panels, mirror housings, and wheel covers.
- Under-the-hood components: Engine covers, air intake manifolds, cooling system parts, and battery housings.
- Electrical components: Connectors, switches, sensor housings, and wiring harnesses.
- Seating components: Seat frames, headrests, armrests, and seatbelt components.
2. Medical Devices:
The medical industry relies on injection molding for the production of a wide range of medical devices and components. These parts often require high precision, biocompatibility, and sterilizability. Examples of injection molded medical devices include:
- Syringes and injection pens
- Implantable devices: Catheters, pacemaker components, orthopedic implants, and surgical instruments.
- Diagnostic equipment: Test tubes, specimen containers, and laboratory consumables.
- Disposable medical products: IV components, respiratory masks, blood collection tubes, and wound care products.
3. Consumer Products:
Injection molding is widely used in the production of consumer products due to its ability to mass-produce parts with high efficiency. Examples of injection molded consumer products include:
- Household appliances: Television and audio equipment components, refrigerator parts, and vacuum cleaner components.
- Electronics: Mobile phone cases, computer keyboard and mouse, camera components, and power adapters.
- Toys and games: Action figures, building blocks, puzzles, and board game components.
- Personal care products: Toothbrushes, razor handles, cosmetic containers, and hairdryer components.
- Home improvement products: Light switch covers, door handles, power tool housings, and storage containers.
4. Packaging:
Injection molding is widely used in the packaging industry to produce a wide variety of plastic containers, caps, closures, and packaging components. Some examples include:
- Bottles and containers for food, beverages, personal care products, and household chemicals.
- Caps and closures for bottles and jars.
- Thin-walled packaging for food products such as trays, cups, and lids.
- Blister packs and clamshell packaging for retail products.
- Packaging inserts and protective foam components.
5. Electronics and Electrical Components:
Injection molding is widely used in the electronics industry for the production of various components and enclosures. Examples include:
- Connectors and housings for electrical and electronic devices.
- Switches, buttons, and control panels.
- PCB (Printed Circuit Board) components and enclosures.
- LED (Light-Emitting Diode) components and light fixtures.
- Power adapters and chargers.
These are just a few examples of the different types of injection molded parts. The versatility of injection molding allows for the production of parts in various industries, ranging from automotive and medical to consumer products, packaging, electronics, and more. The specific design requirements and performance characteristics of each part determine the choice of materials, tooling, and manufacturing processes for injection molding.
editor by CX 2024-01-30
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EPT XCT50 HUPON OVERLOAD In the course of a torque overload, these kinds of as in the circumstance of a jam avoiding rotation of the output associates, the pressure applied by the DISC SPRING is conquer and the output users slip which stops a spike in torque from transmitting to the enter element.ydraulic 50ton Cellular Truck Cranes For Sale
Solution Description
• Major overall performance: the growth size in full extension is 39.5m, the efficiency foremost in 5%. The quality potential is forty%,
which make the machine have excellent road adaptability.
• The distinctive U growth and plug-in boom head make the load-carrying capability more well balanced, and elevate far more effortlessly.
• The distinctive extend and retract technique helps prevent the misoperation the extend and retract of the growth is safer and a lot more dependable.
• The manage method is optimized by 8 patents lifting, rotation, and luffing are effortless and reliable.
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• The revolutionary jib program adopts embedded block, plug-in boom head and octagon jib, which has excellent lifting efficiency
and safe and reputable lifting perform.
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• Eight patent techniques ensure the sleek, substantial efficiency and power conservation of the lifting, rotation, and luffing systems.
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Parameter
| Dimensions | Device | |
|---|---|---|
| All round length | Mm | 13790 |
| General width | Mm | 2800 |
| General peak | Mm | 3675 |
| Weight | ||
| Useless fat in journey point out | Kg | 42490 |
| Front axle load | Kg | 16490 |
| Rear axle load | Kg | 26000 |
| Power | ||
| Engine model | WD615.334 | |
| Engine rated output | Kw(r/min) | 247/2200 |
| Engine rated torque | N.m(r/min) | 1350/1400 |
| Travel | ||
| Max.journey pace | Km/h | eighty |
| Min. turning diameter | M | 24 |
| Min. floor clearance | Mm | 327 |
| Strategy angle | . | 21 |
| Departure angle | . | 15 |
| Max. gradeability | % | 40 |
| Gas intake of for each 100km | L | &asymp42 |
| Lifting functionality | ||
| Max. overall rated lifting load | T | 50 |
| Min. rated wor ept radius | M | three |
| Turning radius at swing table tail | Mm | 3500 |
| Base growth max. load second | Kn.m | 1838 |
| Foundation boom | M | eleven.four |
| Entire-increase boom | M | 43.three |
| Entire-prolong growth+Jib | m | 59.3 |
| Outrigger longitudinal length span | M | 5.91 |
| Outrigger lateral length span | M | 6.nine |
| Wor ept pace | ||
| Boom elevating time | S | 88 |
| Growth telescoping time | S | 180 |
| Max. slewing velocity | r/min | 2 |
| Principal winch max. speed(one line) | m/min | one hundred thirty |
| Auxiliary winch max.velocity(solitary line) | m/min | 130 |
photo
Packaging & Shipping and delivery
The use of original products manufacturer’s (OEM) component numbers or emblems , e.g. CASE® and John Deere® are for reference purposes only and for indicating item use and compatibility. Our business and the listed substitute areas contained herein are not sponsored, authorized, or created by the OEM.
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The modern jib method adopts embedded block, plug-in boom head and intercontinental superior U section jib, which has exceptional lifting efficiency and risk-free and reliable lifting work.
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• Eight patent methods make sure the easy, higher efficiency and energy co320 Collection The 320 Sequence has been designed to fulfill the want for an inexpensive, compact and dependable torque limiter. The optimized design supplies a sturdy, backlash-totally free torque limiter that aids safeguard equipment from the harmful effects caused by overloading a travel teach.nservation of the lifting, rotation, and luffing methods.
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• Six distinctive manufacturing systems make sure the higher quality.
|
Dimension |
Unit |
QY50K- |
|---|---|---|
|
All round duration |
mm |
13750 |
|
Total width |
mm |
2800 |
|
All round peak |
mm |
3520 |
|
Bodyweight |
|
|
|
Whole fat in travel |
kg |
41000 |
|
Entrance axle load |
kg |
15000 |
|
Rear axle load |
kg |
26000 |
|
Electrical power |
|
|
|
Motor model |
|
WD615.334(domestic III) |
|
Motor rated electricity |
kW/(r/min) |
247/2200 |
|
Motor rated torque |
N.m/(r/min) |
1350/1400 |
|
Vacation |
|
|
|
Max. travel pace |
km/h |
eighty |
|
Min. turning diameter |
m |
24 |
|
Min. floor clearance |
mm |
291 |
|
Strategy angle |
° |
17 |
|
Departure angle |
° |
11 |
|
Max. grade potential |
% |
40 |
|
Gas use for 100km |
L |
45 |
|
Principal efficiency |
|
|
|
Max. rated total lifting ability |
t |
50 |
|
Min. rated wor ept radius |
m |
3 |
|
Turning radius at turntable tail |
m |
three.482 |
|
Max. lifting torque |
kN.m |
1764 |
|
Foundation growth |
m |
eleven.three |
|
Totally extended boom |
m |
forty two.7 |
|
Completely prolonged growth+ jib |
m |
fifty seven.7 |
|
Longitudinal outrigger span |
m |
5.91 |
|
Lateral outrigger span |
m |
6.nine |
|
Wor ept speed |
|
|
|
Boom luffing time |
s |
88 |
|
Boom entire extension time |
s |
a hundred and eighty |
|
Max. swing pace |
r/min |
≥2. |
|
Max. pace of primary winch (solitary rope) (no load) |
m/min |
≥110 |
|
Max. speed of aux. winch (solitary rope) (no load) |
m/min |
≥110 |
The use of original tools manufacturer’s (OEM) portion figures or trademarks , e.g. CASE® and John Deere® are for reference reasons only and for indicating item use and compatibility. Our organization and the detailed substitution elements contained herein are not sponsored, authorized, or made by the OEM.
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The innovative jib method adopts embedded block, plug-in growth head and intercontinental superior U section jib, which has exceptional lifting overall performance and secure and reputable lifting function.
• The special stretch and retract technique avoids the bend of the core pipe and cylinder and the crack of the growth triggered by misoperation, strengthening the security of the operations.
• 8 patent techniques guarantee the clean, high efficiency and vitality conservation of the lifting, rotation, and luffing systems.
• Adopt the new hydraulic motor with massive torque beginning stage, ma ept the secondary lifting safer.
• The torque limiter adopts colourful Lcd exhibit, noticing the intelligence of the failure diagnosis. The precision is forward of the sector.
• The humanity design and style makes the taxi and handle taxi a lot more roomy, and easy to work.
• Six unique manufacturing technologies guarantee the substantial high quality.
|
Dimension |
Unit |
QY50K- |
|---|---|---|
|
Overall size |
mm |
13750 |
|
All round width |
mm |
2800 |
|
Total peak |
mm |
3520 |
|
Bodyweight |
|
|
|
Total weight in vacation |
kg |
41000 |
|
Entrance axle load |
kg |
15000 |
|
Rear axle load |
kg |
26000 |
|
Energy |
|
|
|
Motor design |
|
WD615.334(domestic III) |
|
Motor rated power |
kW/(r/min) |
247/2200 |
|
Motor rated torque |
N.m/(r/min) |
1350/1400 |
|
Journey |
|
|
|
Max. travel speed |
km/h |
eighty |
|
Min. turning diameter |
m |
24 |
|
Min. floor clearance |
mm |
291 |
|
Method angle |
° |
17 |
|
Departure angle |
° |
11 |
|
Max. quality potential |
% |
forty |
|
Gas usage for 100km |
L |
45 |
|
Principal performance |
|
|
|
Max. rated whole lifting capacity |
t |
fifty |
|
Min. rated wor ept radius |
m |
three |
|
Turning radius at turntable tail |
m |
three.482 |
|
Max. lifting torque |
kN.m |
1764 |
|
Foundation increase |
m |
11.3 |
|
Completely prolonged increase |
m |
forty two.7 |
|
Fully prolonged increase+ jib |
m |
fifty seven.seven |
|
Longitudinal outrigger span |
m |
5.ninety one |
|
Lateral outrigger span |
m |
six.nine |
|
Wor ept pace |
|
|
|
Boom luffing time |
s |
88 |
|
Growth entire extension time |
s |
a hundred and eighty |
|
Max. swing speed |
r/min |
≥2. |
|
Max. speed of major winch (one rope) (no load) |
m/min |
≥110 |
|
Max. pace of aux. winch (solitary rope) (no load) |
m/min |
≥110 |
The use of authentic tools manufacturer’s (OEM) portion numbers or logos , e.g. CASE® and John Deere® are for reference purposes only and for indicating product use and compatibility. Our organization and the detailed substitution parts contained herein are not sponsored, accepted, or manufactured by the OEM.