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The ball mill transmission connection refers to the mechanical components that link the motor or power source to the rotating cylinder of the ball mill. It is responsible for transmitting the rotational motion and torque from the motor to the mill's cylinder, enabling the grinding process. The transmission connection also allows for the control of the mill's rotational speed and direction, the connection is essential for the overall operation of the ball mill. Tongli, as a professional cement grinding plant manufacturer, provides various types of ball mill transmission connection with different specifications and materials. What features about our ball mill transmission connection is we make the ball mill and the transmission connection into one part to reduce the assembly error, the ball mill is machined on the 5.3x18m cnc horizontal lathe along with the transmission connection therefore the concentricity is better.
The ball mill transmission connection refers to the mechanical components that link the motor or power source to the rotating cylinder of the ball mill. It is responsible for transmitting the rotational motion and torque from the motor to the mill's cylinder, enabling the grinding process. The transmission connection also allows for the control of the mill's rotational speed and direction, the connection is essential for the overall operation of the ball mill. Tongli, as a professional cement grinding plant manufacturer, provides various types of ball mill transmission connection with different specifications and materials. What features about our ball mill transmission connection is we make the ball mill and the transmission connection into one part to reduce the assembly error, the ball mill is machined on the 5.3x18m cnc horizontal lathe along with the transmission connection therefore the concentricity is better.
The basic structure of a ball mill consists of a cylindrical shell rotating around its axis, partially filled with grinding media such as steel or ceramic balls. The inner surface of the cylindrical shell is usually lined with abrasion-resistant materials such as manganese steel or rubber to protect the shell from the abrasive nature of the grinding media and the processed material.
Mill Shell: The foundation of the ball mill, the mill shell, is a sturdy cylindrical structure crafted from premium-grade steel. This robust shell encases the grinding process, confining it within a controlled environment. Tongli heavy machinery is equipped with a large annealing furnace of 6.5x6.5x20m and a 6.5x6.5x20m large sandblasting room, which can conduct overall heat treatment and sandblasting on the ball mill to ensure the service life and appearance of the ball mill.Trunnion: The trunnion (hollow shaft) of the ball mill is a key part of the cement machinery, which is a special type of steel casting. It mainly plays the role of supporting and connecting the cylinder in the weight of the whole machine, and is the passage for the material to enter and exit.
Bearing Bush: Ball mill bearing bush ensures the smooth rotation of the ball mill and empowers the ball mill to maintain optimal grinding conditions. It is equipped with a forced lubrication system and also cooling system.
Transmission connection: Tongli’s ball mill is equipped with a transmission connection, which is welded on the cylinder and machined together with the ball mill shell to avoid assembly errors and ensure the concentricity of the ball mill.
Girth Gear: The ball mill girth gear is a large gear ring encircling the ball mill, usually mounted on the shell of the ball mill. It is driven by a pinion gear, and together they form the primary drive unit to rotate the ball mill. The girth gear is casted and machined Tongli, the quality is assured.
Hood Cover: The discharge hood of the ball mill is installed at the discharge end of the ball mill, and there is a screen inside. After grinding, the material with a qualified size will enter the discharge hood through the screen and enter the next process. There is a vent on the upper part of the discharge hood, and a discharge funnel on the lower part.
Diaphragm: The ball mill diaphragm (compartment plate) is fan-shaped plate or bow-shaped grate plate fixed in the ball mill with bolts. Its function is to divide the ball mill into two or more chambers, the material moves to the next compartment through the holes on the grate plate. The function of the compartment plate is to prevent the grinding media running from one compartment to another compartment, so that the materials can be reasonably finely ground.
Liner: The function of the liner is to protect the shell of the ball mill and the trunnion, some special-shaped liners can also design to lift the grinding media to a certain position. According to the shape of the liner, it can be divided into flat liner, beaded liner, corrugated liner, ribbed liner, stepped liner, etc.
Ball mill transmission: Central drive ball mill refers to the arrangement of the driving mechanism for the mill. In a central drive configuration, the motor and gearbox are positioned at the center of the mill, usually between the grinding chamber and the mill shell. This design is in contrast to an edge or end drive configuration where the motor and gearbox are situated at one of the ends of the mill. Central drive transmission systems typically involve a motor that powers a gearbox, which then transfers the rotational energy to the mill's main shaft. The central drive design can provide advantages in terms of power distribution and efficiency compared to other drive arrangements. It can also offer better control over the mill's operation.
PLC control system: A Grinding Plant PLC (Programmable Logic Controller) system refers to the automation technology used in a cement grinding plant to control and monitor the various processes involved in cement grinding. PLCs are specialized digital computers used in industrial automation and control systems. They are capable of handling multiple input and output devices to execute control functions in real-time.
Component Fabrication: The motor shaft, coupling, gearbox (if applicable), and mill shaft are all separately fabricated components. They can be made from materials such as steel or other suitable alloys.
Machining and Assembly: The components are accurately machined to achieve the required dimensions, tolerances, and alignment. The motor shaft might be connected to the coupling or gearbox, and the coupling or gearbox might be connected to the mill shaft. These connections are often achieved through keyways, splines, flanges, or other fitting mechanisms.
Balancing: It's important to ensure that the transmission connection components are balanced to minimize vibration and stresses during operation.
Quality Control: Throughout the fabrication process, quality control checks are performed to ensure that each component meets specified standards for dimensions, alignment, and other critical parameters.
Installation: The fabricated components are installed as part of the ball mill assembly. Proper installation and alignment are crucial to ensure smooth operation and minimize wear on the components.
Power Transmission: The primary function of the transmission connection is to transfer the power generated by the motor to the mill's rotating shell. This power is used to rotate the mill and drive the grinding process.
Speed Control: Depending on the type of coupling or gearbox used, the transmission connection allows for control over the rotational speed of the mill. This speed control can influence the efficiency of the grinding process and the desired final product fineness.
Direction Control: The transmission connection enables the operator to control the direction of rotation of the mill cylinder. This can be important for optimizing the grinding process and achieving specific results.
Specification: | Capacity:(t/day) | Rpm: (r/min) | Grinding media(t) | Power: (kw) | Weight: (tons) |
Φ2.4x10 | 19~22 | 20 | 55 | 700 | 110 |
Φ2.4x12 | 23~25 | 20.8 | 65 | 900 | 115 |
Φ2.4x13 | 24~26 | 19.1 | 67 | 900 | 125 |
Φ2.6x13 | 26~28 | 18.8 | 85 | 1100 | 165 |
Φ3.0x11 | 35~40 | 18.8 | 120 | 1350 | 195 |
Φ3.0x12 | 35~40 | 18.8 | 120 | 1350 | 210 |
Φ3.0x13 | 38~42 | 18.4 | 130 | 1500 | 225 |
Φ3.2x13 | 50~55 | 18.4 | 150 | 1800 | 235 |
Φ3.5x11.5 | 55~60 | 18.4 | 150 | 1800 | 240 |
Φ3.5x13 | 65~70 | 16.6 | 165 | 2500 | 255 |
Φ3.8x13 | 70~75 | 16.6 | 195 | 2500 | 270 |
Φ4.0x13 | 80~85 | 15.6 | 210 | 3550 | 285 |
Φ4.2x13 | 80~90 | 15.6 | 220 | 3550 | 300 |
Φ4.6x13 | 110~120 | 14.9 | 235 | 4800 | 310 |
Φ4.6x14 | 120~130 | 14.9 | 250 | 4800 | 330 |
Note: * Mill diameter refers to the inner diameter, while the mill length refers to the effective grinding length.
Modern intelligent processing base integrating R&D, production and sales.
Zhejiang Tongli Heavy Machinery Manufacturing Co., Ltd (Formerly known as Tongxiang Coal&Mining Machinery Factory) established in year 1958 is a member of the Chinese National Building Material Machinery Association. Tongli is on the vendor list of designated production enterprise of the Ministry of Coal Industry. ISO9001、ISO14001、ISO45001 certified, accredited as High-tech & new technology enterprise of Zhejiang Province. With 65+ years of experience, Tongli has earned first class R&D and manufacturing capabilities, dedicated to provide satisfactory manufacturing equipments for global customers.
After years of development, there are more than 650+ sets of heavy machinery manufacturing equipments in our workshop, some of them are as follows:
65+ Years of Experience Founded in 1958 Tongli is a leading company specialized in the design and manufacture of complete ball mill systems in the global market. | Versatility Tongli ball mill can hanle a wide range of materials, including raw materials, cement clinker, and additives, making is highly versatile for different cement production. | Patented Design Tongli held independent intellectual property rights, developed core technologies of mechanical, and electrical systems provide high reliability at all events. | Reliability Tongli ball mill, its quality is time proven and well recognized by global customers, all the metal castings are produced in our foundry we provide one step solution to fabricaction and metal casting. |
What is the difference between ball mill and vertical roller mill?
Both ball mills and vertical roller mills plays a vital role in the cement grinding plant. Ball mills are versatile and cost-effective, suitable for various materials and simple to maintain. On the other hand, vertical roller mills offer superior energy efficiency and particle size control, making them ideal for cement and ore grinding applications. The choice between the two depends on specific requirements, budget constraints, and technical expertise.
What is the difference between rotary kiln and vertical roller mill?
The rotary kiln and vertical roller mill are both essential pieces of equipment in the cement manufacturing process, but they serve different purposes and are used at different stages of the process.
The rotary kiln is a large cylindrical vessel used for calcining raw materials at high temperatures. It's a core component of the cement manufacturing process and is responsible for transforming raw materials, particularly limestone and clay, into clinker. In the rotary kiln, the raw materials are heated to temperatures exceeding 1400°C (2552°F), where chemical reactions occur that result in the formation of clinker nodules. And they need to be ground into a fine powder to produce cement. This final grinding process is often performed using a vertical roller mill. The clinker is mixed with gypsum and possibly other additives to create the final cement product.
Vertical Roller Mill (VRM): The vertical roller mill is a grinding machine that grinds materials into fine powders, after the raw material is crushed by the crusher, it enters the vertical roller mill. It is typically used for grinding raw materials, clinker, and additives in the cement manufacturing process. The VRM operates by applying hydraulic pressure and vertical force to the grinding rollers, which then grind the materials between the rollers and the grinding table. This grinding process results in a fine powder that is later used as a key ingredient in the production of cement which is important for the subsequent chemical reactions in the rotary kiln.