Product Description

specifications The inner diameter Outer diameter The radius of
JH7 7*7 10*12.5 15     28
JH10 10*10 13.5*13.5 18
JH10 10*20 15.5*28 18      28
JH15 15*15 20*25 28
JH15 15*50 20*60 28       48
JH18 18*25 23*35
JH18 18*18 24*30
JH20 20*60 35*77
JH20 20*125 35*142
JH25 25*25 35*38
JH25 25*100 40*115 55 75
JH30 30*50 45*70  
JH30 30*103 45*123  
JH35 35*50 55*75  
JH35 35*150 55*175  
JH45 45*75 65*102 75
JH45 45*130 65*157 250
JH55 55*50 75*80 75
JH55 55*150 75*180 100
JH65 65*60 85*92 125
JH65 65*117 85*149 300
JH80 80*100 106*145  
JH80 80*175 106*220  
JH80 80*350 106*395  
JY18 18*25 23*35 38
JY25 25*25 35*42 55     75
JY25 25*38 35*55 55     75
JY25 25*57 35*74 55     75
JY25 25*77 35*94 55      75
JY25 25*103 35*120 55       75
JY35 35*50 46*70 75   100   150
JY35 35*75 46*95 75    100   150
JY35 35*100 46*120 75     100    150
JY45 45*50 56*70 76      100      150
JY45 45*75 56*95 76      100     150
JY45 45*100 56*120 76       100      150

The above is only part of the model, not all, for reference only.

Drag chain configuration parameters

Inner height: select the thickest 1 of the built-in cable, tubing, gas pipe, water pipe as the reference height, plus at least 10% of the height space as the inner height of the drag chain. If overlapped, the actual height after overlapped is used as the reference height.


Inner width: select some thick cables, oil pipes, gas pipes, water pipes, etc., the sum of their outer diameters as the reference of the inner width of the drag chain, and leave at least 10% width space.


Bending radius: select the maximum bending radius of built-in cable, tubing, gas pipe, water pipe as the reference value, and leave more than 10% of the space.


Pin chain conveyor

The choice between roller chains and friction drives depends on the usage environment. Roller chains are more resistant to dirty environments and are more suitable for conveying bulk products. The pivot chain is designed to handle highly bulk products. Ideally, the center-to-center distance between the 2 axles should be 30 to 50 times the chain pitch. The size of the sprocket will depend on the usage environment, which will also determine the fatigue strength and resistance of the chain.

Roller chains are more resistant to dirty environments

There are some key differences between drive chains and roller chains. The most notable difference is in the materials. Drive chains are generally more durable than roller chains. However, both chains are prone to dirty environments. While solution chains are sometimes used for heavy-duty tasks, roller chains are often used in dirtier environments. In fact, drive chains are often used when the job is very dirty and the chain has to slide on the rails.
The new lubricant used on the roller chain attracts dirt and other debris to the surface of the chain and prevents lubricant from entering the load-carrying parts of the chain, such as hinge plates, bushings, and rollers. When dust is drawn into these components, lubricants, and dirt form an abrasive paste that accelerates wear.
Lube-free roller chains keep chains clean longer. This makes it easier to specify and install in areas with strict hygiene requirements. CZPT lube-free roller chains meet NSF-H1 lubrication standards. However, lubricated roller chains are still suitable for areas where food contact is unlikely.
Stainless steel roller chains are particularly resistant to acids, alkalis, and low-temperature environments. Since stainless steel is softer than carbon steel, lubricants are not as effective at preventing dirt from entering the chain. Stainless steel roller chains have a higher strength rating than standard chains, but are not as strong as chains made from carbon steel. If you are using a roller chain in a very dirty environment, you should use a stainless steel chain.

A stud chain is more efficient than a friction drive

The present invention relates to a light-duty double-ended chain that is more efficient than conventional chains. Stud chains are made by die-forging bar steel into roughly the-shaped links. This method avoids loss of shear strength due to bending and also minimizes the welded portion. The double-headed chain is light in weight and has strong resistance to fatigue damage.
This chain type has a stud-style design. Stud-shaped design provides greater tensile strength and prevents tangling. Each stud is formed by die forging and is usually shaped like an e or th. However, it is not necessary for each stud to have a uniform cross-sectional shape. Different cross-sectional shapes can be used depending on the application.
Stud chains are more efficient than friction drives because the studs in the chain are integrated. Stud links resist large breaks. Its applications are in conveyor chains and fisheries. Wear tested on boat chains made of SBC material. In the process, bolt chains were found to be more efficient than friction drives. Its applications are rapidly expanding.
Double-ended chains are more efficient for high-load applications. It features studs throughout its internal width to prevent kinking. Chains of this type are commonly used for heavy lifting machinery. Other types of chains are roller chains, power transmission chains, and bushing roller chains. These types of chains are also widely used in motorcycle, bicycle and transportation applications. In addition to being more efficient, stud chains also have fewer wear problems than friction drive chains.
A study on the difference between wear percentage and friction time showed that stud chains are more efficient than friction drives. The friction strips were measured at the beginning of the test. Take it off after 6 hours, 10080 times, and take pictures with the same diameter. As a boundary value, the diameter of the friction strip is smaller than that of a conventional chain. This shows that the present invention has better wear resistance than friction drives.

Shaft chains designed for conveying bulk products

Pivot chains are versatile conveyors used in many applications. Low back type, small backrest distance, rear opening design to prevent the product from sticking to the joints and causing stiffness. Stainless steel and carbon bushing pin chains do not have pre-rotating rollers. In contrast, bucket elevators do not use pivot chains.
CZPT pin chains provide unmatched performance in agricultural and industrial machinery. They are constructed from a single cast barrel and are connected by hardened steel pins. CZPT’s steel pivot chains are strong enough to withstand the corrosive environments of agricultural and industrial applications. The steel pins in the CZPT Pintle Chain are hardened and riveted to ensure long-term durability and optimum performance.
Lifeguard chains feature patented interlocking side links that reduce gaps between adjacent side panels. They can withstand a variety of applications and will never break under pressure. These chains are available in 1/2” and 1” pitch configurations. CZPT combines both types of pin chains to achieve the best of both worlds. CZPT features dual pin chains and pin joints to increase chain durability and reduce maintenance hassles.
CZPT’s engineering team can custom design pivot chains for your specific application. Designed for specific speed, friction, temperature and wear requirements, these chains are ideal for a variety of applications. Headquartered in Milwaukee, Wisconsin, the company operates on 2 strategic platforms: Food and Beverage and Industrial Applications. The products of these companies are used in food, energy and manufacturing.

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