What is a crusher?

Before we discover all the different types of crushers, we need to know what a crusher is and what it is used for. A crusher is a machine that reduces large rocks into smaller rocks, gravel, or rock dust. Crushers are mainly used in the mining and construction industries, where they are used to break down very large rocks and boulders into smaller pieces. Crushers are also commonly used for jobs like breaking up asphalt for roadwork or demolition projects. Crusher machines come in a wide variety of sizes and capacities, from small jaw crushers that cost the same as a new truck to extra large cone crushers that cost millions of dollars. With all this choice, you'll want to make sure that the one you choose has the power and capabilities necessary for your specific project. In most cases, having a crusher at your disposal can save a significant amount of time and labor since you won't have to do as much manually crushing materials yourself. This makes them an invaluable asset for anyone who may need to crush materials quickly and efficiently.

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Brief history of crushers

The first United States patent for a rock crushing machine was in . Its key technology was the drop hammer concept, found in the well-known stamp mill, which would be repeatedly linked to the golden age of mining. Ten years later, another U.S. patent was issued to an impact crusher. The primitive impact crusher was made up of a wooden box and a cylindrical wooden drum, with iron hammers fastened to it. While both of these patents were granted, neither creator ever marketed their inventions.

Eli Whitney Blake invented, patented, and sold the first actual rock crusher in ; it was known as the Blake Jaw Crusher. Blake’s crusher was so influential that today’s models are still compared to his original designs. This is because the Blake Jaw Crusher integrated a key mechanical principle—the toggle linkage—a concept students of mechanics are familiar with.

In , Philetus W. Gates received a U.S. patent for his device featuring the basic ideas of today’s gyratory crushers. In , Mr. Blake challenged Mr. Gates to crush 9 cubic yards of stone in a contest to see which crusher would finish the job faster. The Gates crusher completed the task 40 minutes sooner!

The Gates’ gyratory crushers were preferred by the mining industry for almost two decades until the turn of the century, circa , when Blake’s jaw crushers saw a resurgence in popularity. The demand for large jaw crushers skyrocketed as the industry began to understand their potential as primary crushers in rock quarries. Through Thomas A. Edison’s research and development, giant machines were innovated and placed around the United States. Smaller-sized jaw crushers were also developed as secondary and tertiary crushers.

Edison’s studies within the field of mining and crushing left a legacy that forever improved how large rocks and materials are reduced.

Basic ways to reduce material size

Crushing is the process of reducing or breaking down larger-sized material into smaller-sized material. There are four basic ways to crush.

Impact: Instant collisions of large objects against one another with material placed between. Both objects can be in motion, or one can be still while the other strikes against it. There are two main types of impact reduction: gravity and dynamic.

Attrition: Rubbing the material between two solid surfaces. This is an appropriate method when reducing less abrasive materials because it consumes less power during the process. Robust materials would not be as efficient.

Shear: Typically combined with other reduction methods, shearing uses a trimming method and is used when a coarse outcome is wanted. This reduction method is often seen in primary crushing.

Compression: A key mechanical element of jaw crushers, compression reduces materials between two surfaces. Great for very hard, abrasive materials that do not fit attrition crushers. Compression is unsuitable for anything tacky or gummy.

Choosing the correct type of crushing method is unique to both the type of material you are breaking down and the desired product. Next, you must decide which type of crusher is best suited for the job. Keeping energy usage and efficiency in mind is always a top consideration. Using the wrong type of crusher can lead to costly delays and consume more power than expected during the process.

What are the different kinds of crushers?

There are lots of different kinds of crushers, from jaw crushers to impactors and cone crushers. Crushing is a versatile process, and the kind of crusher you need depends on the 'stage' of crushing. The three main stages of crushing are primary, secondary, and tertiary, all of which have their own unique benefits. Primary crushing involves using a large object as the initial force to break down very large and hard rocks and boulders into smaller pieces before they move onto the secondary stage. Secondary crushing breaks down materials even further before they go to tertiary level, which makes an even finer product that can then be used in various industrial projects. Each type of crusher for each specific crushing stage is explained in greater detail below.

Primary crushing equipment

As the name suggests, this kind of crushing is the first in the process. Run of Mine (ROM) materials are brought directly from blasting projects and crushed in a primary crusher for the first round of crushing. At this point, the material receives its first reduction in size from its raw state. Primary crushing produces materials ranging from 50" to 20" on average. The two main types of primary crushers are:

Jaw crushers

‍Large amounts of material are fed into the “V-shaped” jaw of this crusher and are reduced using compressive force. One side of the V remains stationary while the other side of the V swings against it. The material is forced from the wide opening of the V to the narrowest point of the V, creating a crushing motion. Jaw crushers are large-scale, heavy-duty machinery typically constructed with cast iron and/or steel. Often considered a basic machine, jaw crushers have their place in the industry. They are often used to reduce rock into non-uniformed gravel. To find out more about primary jaw crusher check out our blog.

Gyratory crushers

Run of mine material is transferred into a gyratory crusher’s upper-level hopper. The walls of the gyratory crusher’s hopper are lined with “V-shaped” pieces, the mantle and the concave, like a jaw crusher but shaped like a cone. The ore is discharged through the smaller bottom output hole of the cone. While the cone does not move, an interior crushing movement is created by a revolving shaft on a vertical rod. Continuous action is created, making it faster than the jaw crusher with less power usage. Often smaller and more expensive than a jaw crusher, gyratory crushers are suitable for larger amounts of materials when a more uniform shape is desired.

Secondary crushing equipment

After materials go through their first round of crushing, they are fed into a secondary crusher to be broken down further. The average input size for a secondary crusher ranges from 13" to 4" during this stage. Secondary crushing is especially important for making graded material that is going on to be used on government projects. For example, crushed material for road base and fill. The main kinds of crushing machines for secondary processing are discussed below.

Cone crushers

Cone crushers are one of the main choices for secondary crushing. A cone crusher is a powerful machine that is used in large-scale industries for crushing various types of materials into smaller sizes. It works by applying pressure to the material and squeezing it against a rotating mantle to create compression and force. The crushed material is first broken down at the top of the cone, where they then fall down into a lower part of the cone that is more narrow. At this point, the cone crusher crushes the material again into an even smaller size. This continues until the material is small enough to fall out of the bottom opening. Material from a cone crusher can be used for lots of different projects, including road base construction projects, asphalt pavement resurfacing, or gravel pits for road construction. Cone crushers are suitable for medium-hard and hard materials, like virgin rock from quarries.

‍Roller crushers

A roller crusher reduces material by compressing it between two turning cylinders, parallel to each other. The cylinders are mounted horizontally, with one resting on strong springs and the other framed permanently. Material is then fed between the two. Changing the distance between the rollers allows you to control the desired material output size. Each cylinder is easily adjusted and lined with manganese for maximum long-term wear. Roller crushers typically deliver fine material output and are not suitable for hard or abrasive materials.

Hammer mills and impact crushers

One of the most versatile crushers available, hammer mills and impactors can be primary, secondary, and tertiary crushers. Hammer mill crushers use continuous hammer blows to shatter and disintegrate material. They are typically horizontally rotating in an enclosed cylinder casing. The hammers are attached to a disk and swing with centrifugal force against the casing. Material is fed into the top and crushed as it falls through the hole at the bottom. You will find hammer mills being used in industries like agriculture, medicine, energy, and beyond. They provide some of the highest efficiency outputs available, are portable, and can handle almost any material.

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Impact crushers have a very similar working principle except instead of the rotating parts hitting the material like a hammer, they instead throw the material against an impact plate, which breaks it down. They also come in horizontal or vertical shaft configurations depending on the desired output. For more information on impact crushers check out this blog.

Tertiary crushing equipment and beyond

Sometimes you might need to continue to reduce the size of your crushed material, and a tertiary reduction may be desired (sometimes even further). Particle sizes range from 5" to 1" during this final stage. Tertiary crushing is highly valuable in the mineral processing industry. The degree to which a material is reduced largely depends on how fine the material’s final size should be. More stages of crushing = smaller-sized products. For tertiary crushing, you will most likely need a smaller impactor or cone crusher.

Screening and multiple crushing sequences can also limit material waste. Some common tools used during the process are:

Screening Equipment: If a piece of material is too large for the crushing machine to effectively handle, it must be removed. Screening equipment removes any material that will slow the production process. It sorts and classifies materials by size using a series of screens with different-sized openings. These openings, or grids, allow small rocks to move along and large rocks to be excluded. If the material does not fit through the openings, it will be excluded from the next phase of the reduction process. Then, it is either sent back into the crushing process for further size reduction or removed completely from production. Screening equipment is crucial to an effective tertiary crushing operation, as large materials can take up needed space and consume valuable energy, creating delays and costing money.

Conveyors: Moving raw materials and reduced materials from one stage of production to the next can be incredibly time-consuming. Modern mining and material handling methods now include extensive conveyor systems that can sometimes cover many miles. There are two basic kinds of conveyors: powered and gravity. Powered conveyors utilize energy from an outside source, whereas gravity conveyors use the material’s weight to propel them.

What is the difference between a cone crusher and gyratory crusher?

Gyratory crushers and cone crushers are both types of compression crushers that crush materials by squeezing them between a stationary and a moving piece of manganese-hardened steel. There are however some key differences between cone and gyratory crushers.

Firstly, gyratory crushers are designed for crushing very large materials—normally in the primary crushing stage—while cone crushers are typically used for secondary or tertiary crushing to make smaller, finer products. Secondly, the shape of the crushing head is different. The gyratory crusher has a conical-shaped head that gyrates inside a bowl-shaped outer shell, while the cone crusher has a mantle and a stationary concave ring.

Additionally, gyratory crushers have a higher crushing ratio (meaning that they can crush large material into smaller pieces), a larger feed opening, and a more consistent product size and shape compared to cone crushers. However, cone crushers have a more efficient crushing action for smaller materials but can produce more fines. For more information on crusher reduction ratios, check out our blog.

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How To Choose Stone Crusher For Coarse Crushing In Aggregate Processing Plant?

Stone crusher for coarse crushing is an important driving force for the success of aggregate processing plant. Here are the tips to choose the most suitable coarse crusher.

Coarse crusher is the main equipment for crushing operation. After explosion, the materials are processed by coarse crusher and crushed into semi-finished materials with smaller granularity. And then after belt conveying, screening, medium crushing processing, final products are produced. The success of each component of the crushing station to output the final product depends on whether the coarse crusher can work properly, so it is very important to choose the right coarse crusher.

1. Confirm The Purpose Of Coarse Crusher

To choose proper coarse crusher, we should first confirm the purpose of the coarse stone crusher, which is very important.

To confirm the purpose of coarse crusher, these two factors should be considered: raw material size curve and rock types. Besides, we should also consider other factors, such as on-site long-term planning, discharge grading, raw material moisture content, required output capacity, etc.

Gyratory crusher is generally used in projects with an annual output of more than 10 million tons. This type of crusher generally needs to be customized, and it usually takes more than one year from purchase to delivery. In addition, on-site installation also takes one month. Therefore, this type of crusher is most suitable for projects with long-term plans. At the same time, it is also ideal crushing equipment for granite and other highly abrasive raw materials.

Jaw crusher is the most commonly used coarse crushing equipment. It can be used to crush highly abrasive raw materials. Compared with gyratory crusher, jaw crusher has higher mobility and can be moved to different mining platforms as required.

Impact crusher is most suitable for low abrasive materials such as limestone. The wear cost of this type of stone crusher will be relatively higher, but it can usually reduce the number of crushing sections and produce products with better shapes.

2. Test Whether The Coarse Crusher Is Suitable And Practical

After determining the overall purpose of stone crusher, the next step is to test the expected performance of different crusher models at the installation site. At this time, a simulation test must be carried out.

The simulation test aims to determine the performance of the coarse crusher and evaluate the impact of the performance of coarse crusher on downstream equipment. Generally, we can select relevant software for simulation testing according to actual conditions (equipment type, site location, etc.).

3. Correctly Install The Coarse Crusher

After selecting proper stone crusher type and model, the last step is to install and start the coarse crusher on the project site.

According to different working sites, the installations of stone crusher are also different. In some cases, the installation process will become very complicated and difficult. To insure the correct installation of stone crusher, crusher manufacturers or distributors must arrange service technicians with professional knowledge to provide technical support for each installation step, which includes project management, system configuration, performance assessment and equipment-related training.