China Professional Anon Agricultural Tractor Mounted Hydraulic Farm Tipping Trailer on Sale with Great quality

Product Description

 

tractor tipping trailer specification:  

It has the features of  simple and reasonable  structure , nimbly operation.It is used for road and field transportation.It s convenient to maintain and durable in use . The chosen brake with the matched tractor is mechanical , impact or air brake, can also choose hydraulic pressure dump .  The form of damping: leaf spring The form of traction: tripod traction  Surface treatment: derusting with large shot blast machine, to change welding stress  Surface spray coating: antirusting paint, finishing paint , stoving varnish.  The process of welding: carbon dioxide jig welding.  The form of transportation: parts and components, flexible packing with the box plate

 Tipping trailer , we also call Dump trailer, farm trailer, agricultural trailer. We offer trailer mainly for tractor, farm tractor , 4 wheel tractor , Tractor Trailers for effectively use in diversified areas such as Agriculture, construction, solid waste management & transportation etc. Our Machinery are good tractor supplier from China. Specialize in farm equipment. Our manufactured products are known for their durability, high strength best performance and and cost effectiveness. 

1. 3T trailer for 4-wheel tractor, mono-axle, bi-axle, manual tipping pattern, and hydraulic dump.

2. Matched with 25hp to 50hp 4 wheel tractor.

 

 

Model Carriage Dimension(mm) Outside Dimension(mm) Load(KG) Dead Weight(KG) Matched Power(HP) Tire model/No
7C-1/7CX-1  Single axle 2000*1000*400 2900*1300*1650 1000 180 15-20 6.5-14/2
7C-1.5/7CX-1.5  Single axle 2000*1000*400 3000*1300*1700 1500 320 15-20 6.5-16/2
7C-2/7CX-2  Single axle 2400*1200*400 3500*1500*1800 2000 390 20-25 7.0-16/2
7C-3/7CX-3  Single axle 3000*1600*400 4150*1650*2000 3000 580 25-40 7.5-16/2
7C-4/7CX-4  Single axle 3200*1900*400 4450*1960*1400 4000 750 30-50 8.25-16/2
7C-5/7CX-5  Single axle 3800*1900*550 5100*1940*1500 5000 950 40-60 8.25-16/4
7C-5/7CX-5  Double axle 3800*1900*550 5100*1940*1500 5000 950 45-70 8.25-16/4
7C-6/7CX-6  Double axle 3900*2100*550 5500*2200*2100 6000 1400 55-100 9.0-16/4
7C-8/7CX-8  Double axle 4500*2100*550 6200*2200*2300 8000 1750 65-120 9.0-20/4
Model Carriage Dimension(mm) Outside Dimension(mm) Load(KG) Dead Weight(KG) Matched Power(HP) Tire model/No
7C-1/7CX-1  Single axle 2000*1000*400 2900*1300*1650 1000 180 15-20 6.5-14/2
7C-1.5/7CX-1.5  Single axle 2000*1000*400 3000*1300*1700 1500 320 15-20 6.5-16/2
7C-2/7CX-2  Single axle 2400*1200*400 3500*1500*1800 2000 390 20-25 7.0-16/2
7C-3/7CX-3  Single axle 3000*1600*400 4150*1650*2000 3000 580 25-40 7.5-16/2
7C-4/7CX-4  Single axle 3200*1900*400 4450*1960*1400 4000 750 30-50 8.25-16/2
7C-5/7CX-5  Single axle 3800*1900*550 5100*1940*1500 5000 950 40-60 8.25-16/4
7C-5/7CX-5  Double axle 3800*1900*550 5100*1940*1500 5000 950 45-70 8.25-16/4
7C-6/7CX-6  Double axle 3900*2100*550 5500*2200*2100 6000 1400 55-100 9.0-16/4
7C-8/7CX-8  Double axle 4500*2100*550 6200*2200*2300 8000 1750 65-120 9.0-20/4

How to Choose the Right Worm Shaft

You might be curious to know how to choose the right Worm Shaft. In this article, you will learn about worm modules with the same pitch diameter, Double-thread worm gears, and Self-locking worm drive. Once you have chosen the proper Worm Shaft, you will find it easier to use the equipment in your home. There are many advantages to selecting the right Worm Shaft. Read on to learn more.
worm shaft

Concave shape

The concave shape of a worm’s shaft is an important characteristic for the design of a worm gearing. Worm gearings can be found in a wide range of shapes, and the basic profile parameters are available in professional and firm literature. These parameters are used in geometry calculations, and a selection of the right worm gearing for a particular application can be based on these requirements.
The thread profile of a worm is defined by the tangent to the axis of its main cylinder. The teeth are shaped in a straight line with a slightly concave shape along the sides. It resembles a helical gear, and the profile of the worm itself is straight. This type of gearing is often used when the number of teeth is greater than a certain limit.
The geometry of a worm gear depends on the type and manufacturer. In the earliest days, worms were made similar to simple screw threads, and could be chased on a lathe. During this time, the worm was often made with straight-sided tools to produce threads in the acme plane. Later, grinding techniques improved the thread finish and reduced distortions resulting from hardening.
When a worm gearing has multiple teeth, the pitch angle is a key parameter. A greater pitch angle increases efficiency. If you want to increase the pitch angle without increasing the number of teeth, you can replace a worm pair with a different number of thread starts. The helix angle must increase while the center distance remains constant. A higher pitch angle, however, is almost never used for power transmissions.
The minimum number of gear teeth depends on the angle of pressure at zero gearing correction. The diameter of the worm is d1, and is based on a known module value, mx or mn. Generally, larger values of m are assigned to larger modules. And a smaller number of teeth is called a low pitch angle. In case of a low pitch angle, spiral gearing is used. The pitch angle of the worm gear is smaller than 10 degrees.
worm shaft

Multiple-thread worms

Multi-thread worms can be divided into sets of one, two, or four threads. The ratio is determined by the number of threads on each set and the number of teeth on the apparatus. The most common worm thread counts are 1,2,4, and 6. To find out how many threads you have, count the start and end of each thread and divide by two. Using this method, you will get the correct thread count every time.
The tangent plane of a worm’s pitch profile changes as the worm moves lengthwise along the thread. The lead angle is greatest at the throat, and decreases on both sides. The curvature radius r” varies proportionally with the worm’s radius, or pitch angle at the considered point. Hence, the worm leads angle, r, is increased with decreased inclination and decreases with increasing inclination.
Multi-thread worms are characterized by a constant leverage between the gear surface and the worm threads. The ratio of worm-tooth surfaces to the worm’s length varies, which enables the wormgear to be adjusted in the same direction. To optimize the gear contact between the worm and gear, the tangent relationship between the two surfaces is optimal.
The efficiency of worm gear drives is largely dependent on the helix angle of the worm. Multiple thread worms can improve the efficiency of the worm gear drive by as much as 25 to 50% compared to single-thread worms. Worm gears are made of bronze, which reduces friction and heat on the worm’s teeth. A specialized machine can cut the worm gears for maximum efficiency.

Double-thread worm gears

In many different applications, worm gears are used to drive a worm wheel. These gears are unique in that the worm cannot be reversed by the power applied to the worm wheel. Because of their self-locking properties, they can be used to prevent reversing motion, although this is not a dependable function. Applications for worm gears include hoisting equipment, elevators, chain blocks, fishing reels, and automotive power steering. Because of their compact size, these gears are often used in applications with limited space.
Worm sets typically exhibit more wear than other types of gears, and this means that they require more limited contact patterns in new parts. Worm wheel teeth are concave, making it difficult to measure tooth thickness with pins, balls, and gear tooth calipers. To measure tooth thickness, however, you can measure backlash, a measurement of the spacing between teeth in a gear. Backlash can vary from one worm gear to another, so it is important to check the backlash at several points. If the backlash is different in two places, this indicates that the teeth may have different spacing.
Single-thread worm gears provide high speed reduction but lower efficiency. A multi-thread worm gear can provide high efficiency and high speed, but this comes with a trade-off in terms of horsepower. However, there are many other applications for worm gears. In addition to heavy-duty applications, they are often used in light-duty gearboxes for a variety of functions. When used in conjunction with double-thread worms, they allow for a substantial speed reduction in one step.
Stainless-steel worm gears can be used in damp environments. The worm gear is not susceptible to rust and is ideal for wet and damp environments. The worm wheel’s smooth surfaces make cleaning them easy. However, they do require lubricants. The most common lubricant for worm gears is mineral oil. This lubricant is designed to protect the worm drive.
worm shaft

Self-locking worm drive

A self-locking worm drive prevents the platform from moving backward when the motor stops. A dynamic self-locking worm drive is also possible but does not include a holding brake. This type of self-locking worm drive is not susceptible to vibrations, but may rattle if released. In addition, it may require an additional brake to keep the platform from moving. A positive brake may be necessary for safety.
A self-locking worm drive does not allow for the interchangeability of the driven and driving gears. This is unlike spur gear trains that allow both to interchange positions. In a self-locking worm drive, the driving gear is always engaged and the driven gear remains stationary. The drive mechanism locks automatically when the worm is operated in the wrong manner. Several sources of information on self-locking worm gears include the Machinery’s Handbook.
A self-locking worm drive is not difficult to build and has a great mechanical advantage. In fact, the output of a self-locking worm drive cannot be backdriven by the input shaft. DIYers can build a self-locking worm drive by modifying threaded rods and off-the-shelf gears. However, it is easier to make a ratchet and pawl mechanism, and is significantly less expensive. However, it is important to understand that you can only drive one worm at a time.
Another advantage of a self-locking worm drive is the fact that it is not possible to interchange the input and output shafts. This is a major benefit of using such a mechanism, as you can achieve high gear reduction without increasing the size of the gear box. If you’re thinking about buying a self-locking worm gear for a specific application, consider the following tips to make the right choice.
An enveloping worm gear set is best for applications requiring high accuracy and efficiency, and minimum backlash. Its teeth are shaped differently, and the worm’s threads are modified to increase surface contact. They are more expensive to manufacture than their single-start counterparts, but this type is best for applications where accuracy is crucial. The worm drive is also a great option for heavy trucks because of their large size and high-torque capacity.