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China supplier Coal Tripper Conveyor Machine Bucket Wheel Stacker-Reclaimer Dq30003000.30-45 3000t/H with Free Design Custom

Product Description

Overview

 

Quick Details

Applicable Industries:

Construction works , Energy & Mining

Showroom Location:

None

Video outgoing-inspection:

Provided

Machinery Test Report:

Provided

Marketing Type:

Hot Product 2019

Warranty of core components:

1 Year

Core Components:

Engine, Motor

Condition:

New

Place of Origin:

ZheJiang , China

Brand Name:

CHINLION

Warranty:

1 year

Weight (KG):

56000 kg

Product name:

Coal tripper conveyor machine bucket wheel stacker-reclaimer

Bucket type:

Fixed/Flexible

Model1:

Single cantilever

Model2:

Double cantilever

Conveying Material:

coal, lump ore, iron ore, etc

Stacking Ability:

600-3000t/h

FeedingAbility:

800-3000t/h

Turning Radius:

30-45M

Keyword:

bucket wheel stacker reclaimer

Supply Ability

Supply Ability
1000 Unit/Units per Month train unloading system

Packaging & Delivery

Packaging Details
Comply with export packaging requirements
(Heavy loading capacity coal mine unloading dumper/tipper)
Port
ZheJiang port
Lead Time:

Quantity(units) 1 – 1 >1
Est. Time(days) 30 To be negotiated

Video Description

 

00:01

 

03:25

 

Coal tripper conveyor machine bucket wheel stacker-reclaimer

 

 

Product Description

Bucket wheel stacker-reclaimer fit the elongated stock ground. And this is a large load-unload equipment which is highly efficient and continuous operation of bulk materials. It is mainly used in power sector, metallurgy, building material and chemical industry for the coal and mineral’s loading and discharging at the stock ground. It has large turning radius, high efficiency, environment friendly. Because of ground transportation system cantilever bucket wheel reclaimer could be designed with different kind of tripper car.

 

Basic Structure

Cantilever bucket wheel reclaimer mainly consists of bucket-wheel structure, cantilever belt Conveyor, metal structure on the Top, rotary table, gate seat, swing mechanism, tripper car, accessory structure, rail system, lubrication system, control room.

 

Technical Characteristics

The stacker designed by our company completely fulfills the manufacturability of overall design and the reliability and advancement of the equipment.

1. Craft

During the overall design, we completely follow the processes assigned by the Design Academy. And ensure the capability and capacity of the stacker and reclaimer. In the elongated stock ground, we use different stacker process base on different work condition. In circular stock ground, we use continuous synthesis of stacking way ensures the effect of homogenization.

2. Reliability

2.1 We use the advanced design method, such as, CAD, 3D design and optimize steel structure design. With the experience and development of making stackers and reclaimers as well as absorbing the advanced technology from foreign country we can guarantee the advanced and reasonable technology and stable equipment.

2.2 With the advanced produce equipment and craft, such as steel pretreatment line which improves the product’s quality and anti-corrosion capability, large milling and boring machine improves quality of large parts, we could guarantee the quality of the whole product. Large-scale structural components and drive part we will test in our plant firstly. And rotary part we make by moulds.

2.3 We use new materials, such as wear-resistance material, CZPT material.

2.4 The fittings we use the first class domestic products and advanced foreign products.

2.5 Soft start and frequency converting control will reduce the damage to the equipment.

2.6 We set different kind of protection measures on the equipment.

2.7 There are advanced testing measures and QC system in our plant.

3. Advancement

3.1 Devices adopt unmanned, automatic material stacking and taking operations, is a high degree of automation products.

3.2 We set several of stacking and taking operations on the equipment could satisfy different work condition stock ground.

3.3 Advanced frequency conversion adopted.

3.4 Cooperating with the domestic universities and Design Academy in various ways that makes better efforts in developing and researching stackers and reclaimers.

 

Technology

 

Main Technical Parameters:

 

Fixed Single Tripper Car Cantilever Bucket Wheel Stacker-Reclaimer

 

 

Fixed Double Tripper Car Cantilever Bucket Wheel Stacker-Reclaimer

 

 

Flexible Single Tripper Car Cantilever Bucket Wheel Stacker-Reclaimer

 

 

Flexible Double Tripper Car Cantilever Bucket Wheel Stacker-Reclaimer

 

An Overview of Worm Shafts and Gears

This article provides an overview of worm shafts and gears, including the type of toothing and deflection they experience. Other topics covered include the use of aluminum versus bronze worm shafts, calculating worm shaft deflection and lubrication. A thorough understanding of these issues will help you to design better gearboxes and other worm gear mechanisms. For further information, please visit the related websites. We also hope that you will find this article informative.
worm shaft

Double throat worm gears

The pitch diameter of a worm and the pitch of its worm wheel must be equal. The 2 types of worm gears have the same pitch diameter, but the difference lies in their axial and circular pitches. The pitch diameter is the distance between the worm’s teeth along its axis and the pitch diameter of the larger gear. Worms are made with left-handed or right-handed threads. The lead of the worm is the distance a point on the thread travels during 1 revolution of the worm gear. The backlash measurement should be made in a few different places on the gear wheel, as a large amount of backlash implies tooth spacing.
A double-throat worm gear is designed for high-load applications. It provides the tightest connection between worm and gear. It is crucial to mount a worm gear assembly correctly. The keyway design requires several points of contact, which block shaft rotation and help transfer torque to the gear. After determining the location of the keyway, a hole is drilled into the hub, which is then screwed into the gear.
The dual-threaded design of worm gears allows them to withstand heavy loads without slipping or tearing out of the worm. A double-throat worm gear provides the tightest connection between worm and gear, and is therefore ideal for hoisting applications. The self-locking nature of the worm gear is another advantage. If the worm gears are designed well, they are excellent for reducing speeds, as they are self-locking.
When choosing a worm, the number of threads that a worm has is critical. Thread starts determine the reduction ratio of a pair, so the higher the threads, the greater the ratio. The same is true for the worm helix angles, which can be one, two, or 3 threads long. This varies between a single thread and a double-throat worm gear, and it is crucial to consider the helix angle when selecting a worm.
Double-throat worm gears differ in their profile from the actual gear. Double-throat worm gears are especially useful in applications where noise is an issue. In addition to their low noise, worm gears can absorb shock loads. A double-throat worm gear is also a popular choice for many different types of applications. These gears are also commonly used for hoisting equipment. Its tooth profile is different from that of the actual gear.
worm shaft

Bronze or aluminum worm shafts

When selecting a worm, a few things should be kept in mind. The material of the shaft should be either bronze or aluminum. The worm itself is the primary component, but there are also addendum gears that are available. The total number of teeth on both the worm and the addendum gear should be greater than 40. The axial pitch of the worm needs to match the circular pitch of the larger gear.
The most common material used for worm gears is bronze because of its desirable mechanical properties. Bronze is a broad term referring to various copper alloys, including copper-nickel and copper-aluminum. Bronze is most commonly created by alloying copper with tin and aluminum. In some cases, this combination creates brass, which is a similar metal to bronze. The latter is less expensive and suitable for light loads.
There are many benefits to bronze worm gears. They are strong and durable, and they offer excellent wear-resistance. In contrast to steel worms, bronze worm gears are quieter than their counterparts. They also require no lubrication and are corrosion-resistant. Bronze worms are popular with small, light-weight machines, as they are easy to maintain. You can read more about worm gears in CZPT’s CZPT.
Although bronze or aluminum worm shafts are the most common, both materials are equally suitable for a variety of applications. A bronze shaft is often called bronze but may actually be brass. Historically, worm gears were made of SAE 65 gear bronze. However, newer materials have been introduced. SAE 65 gear bronze (UNS C90700) remains the preferred material. For high-volume applications, the material savings can be considerable.
Both types of worms are essentially the same in size and shape, but the lead on the left and right tooth surfaces can vary. This allows for precise adjustment of the backlash on a worm without changing the center distance between the worm gear. The different sizes of worms also make them easier to manufacture and maintain. But if you want an especially small worm for an industrial application, you should consider bronze or aluminum.

Calculation of worm shaft deflection

The centre-line distance of a worm gear and the number of worm teeth play a crucial role in the deflection of the rotor. These parameters should be entered into the tool in the same units as the main calculation. The selected variant is then transferred to the main calculation. The deflection of the worm gear can be calculated from the angle at which the worm teeth shrink. The following calculation is helpful for designing a worm gear.
Worm gears are widely used in industrial applications due to their high transmittable torques and large gear ratios. Their hard/soft material combination makes them ideally suited for a wide range of applications. The worm shaft is typically made of case-hardened steel, and the worm wheel is fabricated from a copper-tin-bronze alloy. In most cases, the wheel is the area of contact with the gear. Worm gears also have a low deflection, as high shaft deflection can affect the transmission accuracy and increase wear.
Another method for determining worm shaft deflection is to use the tooth-dependent bending stiffness of a worm gear’s toothing. By calculating the stiffness of the individual sections of a worm shaft, the stiffness of the entire worm can be determined. The approximate tooth area is shown in figure 5.
Another way to calculate worm shaft deflection is by using the FEM method. The simulation tool uses an analytical model of the worm gear shaft to determine the deflection of the worm. It is based on a two-dimensional model, which is more suitable for simulation. Then, you need to input the worm gear’s pitch angle and the toothing to calculate the maximum deflection.
worm shaft

Lubrication of worm shafts

In order to protect the gears, worm drives require lubricants that offer excellent anti-wear protection, high oxidation resistance, and low friction. While mineral oil lubricants are widely used, synthetic base oils have better performance characteristics and lower operating temperatures. The Arrhenius Rate Rule states that chemical reactions double every 10 degrees C. Synthetic lubricants are the best choice for these applications.
Synthetics and compounded mineral oils are the most popular lubricants for worm gears. These oils are formulated with mineral basestock and 4 to 6 percent synthetic fatty acid. Surface-active additives give compounded gear oils outstanding lubricity and prevent sliding wear. These oils are suited for high-speed applications, including worm gears. However, synthetic oil has the disadvantage of being incompatible with polycarbonate and some paints.
Synthetic lubricants are expensive, but they can increase worm gear efficiency and operating life. Synthetic lubricants typically fall into 2 categories: PAO synthetic oils and EP synthetic oils. The latter has a higher viscosity index and can be used at a range of temperatures. Synthetic lubricants often contain anti-wear additives and EP (anti-wear).
Worm gears are frequently mounted over or under the gearbox. The proper lubrication is essential to ensure the correct mounting and operation. Oftentimes, inadequate lubrication can cause the unit to fail sooner than expected. Because of this, a technician may not make a connection between the lack of lube and the failure of the unit. It is important to follow the manufacturer’s recommendations and use high-quality lubricant for your gearbox.
Worm drives reduce backlash by minimizing the play between gear teeth. Backlash can cause damage if unbalanced forces are introduced. Worm drives are lightweight and durable because they have minimal moving parts. In addition, worm drives are low-noise and vibration. In addition, their sliding motion scrapes away excess lubricant. The constant sliding action generates a high amount of heat, which is why superior lubrication is critical.
Oils with a high film strength and excellent adhesion are ideal for lubrication of worm gears. Some of these oils contain sulfur, which can etch a bronze gear. In order to avoid this, it is imperative to use a lubricant that has high film strength and prevents asperities from welding. The ideal lubricant for worm gears is 1 that provides excellent film strength and does not contain sulfur.

China supplier Coal Tripper Conveyor Machine Bucket Wheel Stacker-Reclaimer Dq30003000.30-45 3000t/H   with Free Design CustomChina supplier Coal Tripper Conveyor Machine Bucket Wheel Stacker-Reclaimer Dq30003000.30-45 3000t/H   with Free Design Custom