small vibrating feeder

vibrating feeder

vibrating feeder

Vibratory feeders are used in gravimetric feeding systems to handle solids with particles that are loo large to be handled by screw, rotary-vane, or vertical-gate feeders, or in operations where the physical characteristics of the solid particles would be adversely affected by passage through these volumetric feeding devices. The discharge flow pattern of a vibrating feeder is extremely smooth and thus is ideal for continuous weighing in solids flow metering applications.

The vibratory feeder consists of a feed chute (which may be an open pan or closed tube) that is moved back and forth by the oscillating armature of an electromagnetic driver. The flow rate of the solids can be controlled by adjusting the current input into the electromagnetic driver of the feeder.

The vibratory feed chute can be jacketed for heating or cooling, and the tubular chutes can be made dust-tight by flexible connections at both ends. The vibratory feeders can resist flooding (liquid-like flow) and are available for capacity ranges from ounces to tons per hour.

The Electric Vibratory Feeder is a vibratorthat provides an extremely efficient, simple and economical solution to the problem of making the most stubborn material flow freely. No longer need there be a sticking together of wet ore in the ore bin, or the arching over and hanging up of materials in hoppers and chutes with resulting lowered operating efficiency.

The powerful vibration of the simple, electro-magnetic vibrator is controlled by a separate, wall-mounted Controller, which is furnished with each vibrator. The dial rheostat in the controller varies the power of vibration. By merely turning the manual dial rheostat the power of vibration can be turned down to provide the most effective vibration required for the purpose. The controller is in a separate, dust-proof housing, arranged for wall-mounting at any desirable distance away from the vibrating mechanism attached to the bin, hopper, or chute.

These vibrators are furnished in many different sizes. Units are available that range from those equipped to handle large tonnages in ore bins down to the small noiseless model best suited to be attached to a dry reagent feeder. Reagent feeder applications are numerous, but a well-known use is where the vibrator is utilized to keep moist lime or soda-ash stirred up and flowing evenly.

In an ore bin with a flat bottom and a center discharge, the material, especially when wet, will build up in the corners and form a dead storage space just inside the walls of the bin. One or two vibrators mounted on the outside of the ore bin (opposite to each other, when two are used), will eliminate the work that otherwise frequently has to be done by hand with a pick and shovel. Another, and possibly more important aspect, is that maximum treatment efficiency is assured by an even feed to crushers or ball mills.

These vibrators are also available at extra cost with totally-enclosed explosion-proof, or water and dust-proof cases. Also, for special jobs where danger of explosion or fire exists, a water or air-pressure vibrator can be furnished. A major advantage of these hydraulic vibrators over electricvibrators is that they can be made to run at a slow speed as well as at a high speed (2400 to 4800 vibrations per minute).

The flow velocity depends on the method for loading the feederis it fed through a hopper? The velocity is also dependent on the material characteristics, size distribution and moisture content, as well as the slope of the feeder. The only way to determine the value for v is by actual observation and then the feeding rate may vary considerably.

Feeders are used to provide and control the flow of bulk solids to the process from storage units, such as bins, bunkers, silos, and hoppers. In to-days fully instrumented process plants, it is mandatory that feeders maintain a uniform flow of material at the rate set by signals from process equipment farther downstream in the flow. Large variations in feed, due to feeder blocking, arching or ratholing in the bin, may completely defeat the purpose of such a sophisticated control system with all its planned advantages to the process.

Most of the bins used in the mining and metallurgical industry to-day are of the plug flow type, as they are suited for the storage of hard, abrasive or coarse materials. Exceptions are the ore concentrate or fine powder bins which usually are of the mass flow type.

Plug flow occurs in bins or hoppers with flat sloping walls and is characterized by the flow of solids in a vertical channel extending upward from the bin outlet. Plug-flow bins are suited for solids which are free flowing, do not deteriorate with time and in which segregation is of no importance. As flow does not occur at the bin walls, this type of bin is useful for the storage of hard and abrasive materials. The drawbacks of this type of flow, however, are as follows:-

a) The live bin capacity of the bin is drastically reduced. b) The bin is not self-cleaning and usually cannot be emptied by gravity flow. c) Materials which deteriorate with time cannot be stored in this type of bin. d) The flow is erratic and non-uniform, as solids flowing through a vertical channel with a constant cross section tend to form arches which collapse and compact the material below, thus causing arching again. e) This type of flow pattern in the bin aggravates the segregation of particle sizes.

In many instances, hopper openings are large enough to prevent arching: however if the hopper is not designed for mass flow, piping or ratholing may occur. In plug flow bins, the material flows in the centre of the bin, into which the sides slough as the material is drawn from the bin. Reaching a certain level in the bin where the material has time to consolidate, sloughing will cease and a steady channel or rathole (limited flow) will form, drastically reducing the bins live capacity. In mass flow bins, channelling can also occur if the feeder does not draw the material uniformly across the whole area of the feed opening.

To overcome flow problems, flow-promoting devices such as external vibrators, pneumatic air panels, air jets and vibrating internal structures are usually installed. These relatively inexpensive devices can solve the problem in marginal cases. However, where the costly complete re-design of bins or hoppers is indicated by bulk solids flow calculations, other apparently less costly ways for improvement are usually sought.

The extension of the mine workings under adjacent lakes for the reach of the recently found copper ore body, and the introduction of sand fill underground in the past years using the mill tailings, led to build-up of the moisture content of the fine ore. In the meantime, the 50% increase of daily mill output from the original 2000 to 3000 tons necessitated finer fourth stage crushing and the addition of an extra grinding mill. The fine ore actual handled to-day is a roll-crusher product of -5/32 in size with a moisture content of 2% to 3%.

The fine ore bin, as originally conceived with its wear angles on the sloped walls, is of the plug-flow type. It performed satisfactorily in the earlier stages of operation of the plant when the material handled was coarser and lower in moisture content. With increasing ore moisture and material fineness, however, the live capacity of the fine ore bin was gradually reduced to a point where, in some instances, only channelling or ratholing occurred over the feed openings.

After visiting installations using long belt feeders, consideration was given to the use of the existing gathering conveyors as belt feeders. This scheme involved the cutting of long slots into the bin bottom above the entire length of the existing belts.

The flow pattern in a flat bottom bin with single or multiple openings is usually of the plug-flow type. The drawbacks of this type of flow have been explained previously. It was felt, however, by the author that improvements could be made by the appropriate location of feed openings and by the use of suitable feeders. The basic idea for this improvement was initiated by the review of the results of model tests performed on flat bottom bins, which indicate a mass flow type of pattern at the beginning of the bin discharge. This pattern switches gradually to plug flow as the material level drops below a certain point. This partial mass flow situation can prevail only if the material handled is reasonably free-flowing, the feed openings are sufficiently closely spaced, and the material is drawn uniformly from each opening.

The example illustrated is taken from an iron ore concentrator, and shows the arrangement in which the mill feed conveyor is receiving material from the gathering belt located underneath the two silos. The fine ore handled is taconite, -5/8 in size, and a tertiary cone crusher product with 1 to 2% moisture.

When drawn empty, the dead material left in the bin generally takes the form of a wedge-shaped hopper. However, the slope of the material should not be mistaken for the angle of repose , as it is really the included half angle e of the flow channel, which is usually much steeper due to material consolidation. Approximate expected values of e can be calculated knowing the flow properties of the material handled.

vibrating feeder machine - gaofu

vibrating feeder machine - gaofu

Mine industry, Metallurgical industry, Coal industry, Thermal power industry, Fire industry, Glass industry, Building materials industry, Light industry, Chemical industry, Machinery industry, Grain industry, etc

Comparing with the electromagnetic feeder and reciprocating feeder, the vibrating feeder has features of simple and compact structure, strong and durable, feeding evenly and continuously, the trough wear small, long service life and convenient maintenance. This vibrating feeder can be divided into open type and enclosed type according to the on-site operation requirement, motor can be respectively arranged on the upper and bottom or side, forming three different forms of vibration source installation.Vibration feeding machine (feeder) performance characteristics: stable vibration, reliable work, long life;Can adjust the excitation force, can change and control the flow at any time, adjustment convenient and stable;Vibration motor is the excitation source, low noise, low power consumption, good regulation performance, no flush phenomenon.Simple structure, reliable operation, convenient installation, light weight, small volume and convenient maintenance, the machine can prevent dust pollution when using enclosed structure

1, Small volume, light weight, simple structure, convenient installation, easy maintenance, low cost. 2, By using self synchronization principle of a special vibration motor, the work is stable, the starting is rapid, and the parking is balanced. 3, Material jumps forward continuously according to the parabolic trajectory, so the feed chute has low wear. 4, Because of changing, opening or closing material flow instantaneously, the feeding amount is more accurate.

Mine industry, metallurgical industry, coal industry, thermal power industry, fire industry, glass industry, building materials industry, light industry, chemical industry, machinery industry, grain industry, etc.

Comparing with the electromagnetic feeder and reciprocating feeder, the vibrating feeder machine features simple and compact, strong and durable structure, continuously and evenly feeding, small trough wear, long service lifetime and convenient maintenance. This vibrating feeder machine can be classified into open type and enclosed type according to the on-site operation requirements, and motor can be respectively arranged on the upper and bottom or side, adopting three different forms of vibration source installation. The vibration feeder machine features the following performance characteristics: stable vibrating, low cost and low maintenance, extended service lifetime, and strong and sturdy structure. The excitation force can be adjusted, the flow can be changed and controlled at any time, and the adjustment is convenient and stable; Vibration motor is the vibrating excitation source, and features low noise, less power consumption, better regulation performance, and no blanking phenomenon. The structure is simple, the operation is reliable, the adjustment and installation are convenient, the weight is light, the volume is small, and maintenance is very convenient. Additionally, our company use closed covers for vibration feeder machines to prevent dust pollution.

The feeding process of the vibrating feeder is realized by using a special vibrating motor to drive the feed tank and make periodic linear reciprocating vibration in the inclined direction. When the vertical component of the acceleration of the feed tank vibration is greater than the acceleration of gravity, the material in the tank will be thrown up to jump forward according to the parabolic trajectory. The throwing and falling movements are completed in 1/50 seconds. Due to the continuous excitation of the vibration motor, the feed tank moves continuously, and the material in the tank moves forward continuously , so as to achieve the purpose of feeding.

Its feeding process has completed by using a special vibration motor, which drives the feed tank to do straight reciprocating vibration along the inclined direction. When vertical acceleration component of the feed tank is larger than its gravity acceleration, the material will be tossed and jumping forward according to the parabolic trajectory, tossing and falling being completed within 1/50 second. Due to continuous excitation of the vibration motor, the feed chute vibrates continuously, and then the material in the feed chute moving forward continuously, so screening purpose can be reached.

vibratory feeder manufacturers | vibratory feeder suppliers

vibratory feeder manufacturers | vibratory feeder suppliers

Vibratory feeders, sometimes called vibration feeders or bowl feeders, are bulk material handling feeders. They are one of three major parts feeders on the market. The other two are centrifugal feeders and pneumatic feeders. Vibratory feeders offer assistance by feeding material or parts through various stages of the application of which they are a part.Read More

ERIEZ is a global manufacturer of an entire range of vibratory feeders and related machinery. We serve all the process industries, including food, chemical, pharmaceutical, ceramics, glass, packaging, metalworking, minerals processing and others.

Carrier Vibrating Equipment, we pride ourselves on our extensive customer base and our commitment to excellence. We know that the grizzly screens you receive from us are the best in the business. Carrier continues to bring new technology to the market, as well as new value to existing technology through its research and development lab, to make sure they remain at the front of the industry.

Founded in 1923, The Cleveland Vibrator Company offers one of the most comprehensive lines of vibrators and vibratory bulk handling equipment available today. Innovations are constantly making our vibrators more durable and more adaptable to strenuous environments. We have successfully applied vibrators to such industries as plastics, chemical, food, pharmaceutical, ceramics, and metal working.

Rodix manufactures vibratory feeder controls, inline track drives, drive bases, & bulk storage hoppers for part feeding systems. Our line of vibratory feeder controls feature variable amplitude, variable frequency, line-voltage compensation, UL/cUL Listed, CE Marked, and more. We have experience working with machine integrators, vibratory feed system builders, and manufacturers.

Our company has many years of experience in the material handling industry. We offer a variety of products, including bowl feeders, parts feeders, and grizzly screens to our customers around the world. We believe that efficient designs lead to efficient and profitable products. That is why we are dedicated to offering you nothing but the best. Find out more when you contact us today!

Our company has many years of experience in the material handling industry. We offer a variety of products, including bowl feeders, parts feeders, and grizzly screens to our customers around the world. We believe that efficient designs lead to efficient and profitable products. That is why we are dedicated to offering you nothing but the best. Find out more when you contact us today!

In bulk material handling, vibratory feeders are used to convey material from one piece of equipment to the next. They are able to separate and convey materials using precise vibrations. Their most common functions include: feeding, sorting and sifting.

Users turn to vibratory feeders when they want to move delicate or sticky materials without damaging or liquefying them. Such materials include: gravel, sand, crushed cement, wood, metals and plastic. Because they emit precise vibrations, companies also use vibratory feeders to process and align small parts, like coins, washers or O-rings, as they move along a belt conveyor.

Vibratory feeders are a fairly recent innovation. In the United States, Mario Thomas Sgriccia received a patent for them in 1950. His design was durable and simple, but it also consumed large amounts of energy and produced uneven piles of material. Nevertheless, it was used consistently from then on through the 1960s, mostly in mining.

During the 60s, engineers improved upon Sgriccias original model, introducing the electromagnetic vibrating feeder. This feeder was more energy efficient, more lightweight and produced much more even processing. However, it was quite loud and not as durable as the earlier model.

Over the last 50 years, or so, engineers and manufacturers have worked to improve the bowl feeder. Thanks to changes like optional sound enclosures and more durable materials, vibratory feeders are more relevant than ever.

Every kind of vibratory feeder works a little bit differently. They all, however, feed material into another machine or process via combination of gravity and vibrations. In general, this is how they work:

Vibratory Bowl Feeders Vibratory bowl feeders are composed of a vibratory feeder bowl top and an inclined spiral track on which parts are placed and guided. From the track, the parts move into a line that takes them down the track to the bottom of the vibratory feeder bowl. Sometimes referred to as vibratory bowls or centrifugal feeders, these convenient part feeders are used in parts manufacturing facilities to help align finished parts or almost finished parts before packaging. Parts like these include: molded rubber components, fasteners, toothpaste caps and O-rings. They are also used by the pharmaceutical industry to sort pills.

Vibratory Conveyors This category covers a much broader selection of troughs, vibrating screens and trommel screens that are made specifically to convey and/or sort bulk materials as they are being processed. Broadly speaking, vibratory conveyors, or step feeders, consist of a metal trough that vibrates in one direction in order to convey heterogenous mixtures or powder bulk solids from one process to the next. Vibratory conveyors eliminate the problem of jamming parts that is common with standard feeder bowls. They instead operate very smoothly.

Grizzly Screens Grizzly screens, also known as grizzly scalpers or grizzly feeders, are an exceptionally powerful type of vibrating screen. Usually, they are used for mining applications and/or pre-screening. They are installed in between vibratory feeder and a primary crusher.

Trommel Screens Trommel screens, or trommels, are another type of vibrating screen. Their goal is to help separate small particles from large particles. They are typical of cost-effective recycling operations or manufacturing operations that incorporate material recycling into their process.

Rotary Trommels Rotary trommels are a type of trommel screen that sort and sift by tumbling. They are a common component of gravel recycling and processing. When used in conjunction with trommel magnets, rotary trommels can be used in metal recycling to help sort ferrous and non-ferrous metals.

Continuous Flatbed Trommels Continuous flatbed trommels use screens, another filtering device to sort particles of different sizes. Their goal is to extract small particles so that large particles only will be conveyed to containment or further processing.

Rotary Feeder These are more commonly called rotary airlocks or rotary valves. Their design and purpose are to allow for air-tight material feeding from storage tanks to silos into screw feeders or vibratory conveyors.

Linear Feeders Sometimes called inline feeders, linear feeders are usually used in applications where parts, not materials, are being conveyed. They create a consistent flow from feeder bowls through vibratory linear motion.

Electromagnetic Vibratory Feeders Electromagnetic vibratory feeders work using an electromagnet and other components to create vibration. The electromagnet is fitted into the machine, where it attracts an armature brack, which is connected to a second mass via a leaf spring set. The movement as a whole creates linear vibration; the linear vibration pushes material into the feeder pan. The feed rate is regulated by an AC supply. Electromagnetic vibratory feeders are great for batching applications.

Electromechanical Vibratory Feeders Electromechanical vibratory feeder produces a fully adjustable, uniform volumetric flow using a rotary electric vibrator. This type of feeder is known for its rugged design, corrosion resistance and low maintenance. To limit noise levels, it can be outfitted with isolators. In addition, it has controls that allow the operator to change force, frequency and vibration intensity. Electromechanical vibratory feeders can be modified as vibratory conveyors. Thus, they are much more versatile than most other vibratory equipment and can be used in many settings.

Pneumatic Feeder Pneumatic feeders work using a pneumatic drive and a piston engine that produces vibrations. These feeders are designed especially for the lab environment. As such, they meet laboratory standards for water resistance and explosion containment. In addition, they are environmentally, low maintenance and always work at a reliable, constant speed.

The entirety of a vibratory feeders components depends on its design. For example, some work with electromagnetic systems, while others use an electromechanical system. Others feature much simpler components, like the spiral track.

In general, though, vibratory feeders feature a source of vibration (vibrating bowl, set of springs, etc.), a means to convey or move parts and a control box. The control box, also known as a cycle control, is used to adjust the amplitude and intensity of the feeder. Often, vibratory feeders also feature a hopper. Hoppers are large bulk containers that hold material and regulate parts flow into a vibratory feeder system.

Why is this? For one, instead of a team of people, one operator can watch over a number of automated machines. In addition, when processing small parts, a bowl feeder makes is easy to sort, count and align the parts accurately. Not only is this more efficient, but it does not require workers to do a strenuous job. For companies who work with powder bulk solids and heterogeneous mixtures that are delicate, vibratory conveying is the best alternative to the speed of pneumatic conveying.

Another advantage of vibratory feeders is that even sticky materials that would get stuck in a pneumatic conveyor or on a mechanical conveyor flow evenly on a vibratory feeder. For facilities that would like to improve their recycling and recovery rates, trommel screens and rotary trommels have a significant impact on the amount of labor needed to sort materials.

Vibratory feeders save users time and money on maintenance as well, because they have no moving parts, aside from the vibrating drive unit. This means 1) they break down less frequently and 2) vibratory feeder parts are easy to replace. On top of this, feeder parts and inexpensive.

When designing a vibratory feeder for a particular application, manufacturers carefully consider all factors related to said application, such as: material size, material texture, material feed rate, load volume and vibration amplitude and intensity.

When making the extremely common bowl feeder, manufacturers make the bowl from steel, stainless steel, plastic or silicone. To customize your feeder system, manufacturers can alter any details, like feed rate, amplitude and intensity, etc. They can also place your feeder inside a custom quiet sound enclosure.

Different types of vibratory feeders and different applications, industries and locations all require or recommend different standards. For example, both ISO and ANSI put out standard safety guidelines for vibratory conveyors. Other feeders are designed to meet or exceed FDA standards. Still others are made to meet Mil-Spec standards. What you need all depends on your application. To make sure your manufacturer makes a feeder that meets your standard requirements, consult with your industry leaders, and also make sure your manufacturer knows all about your application.

To land on the right vibratory feeder for your application, there are a number of factors you need to consider. First, think about application requirements. Consider aspects such as: material weight, material type (Loose, compact, small parts, etc.), how quickly you must move the material, how much material you will move (load size), how often you will be changing your materials, and whether or not you require sterile conditions. Also consider your budget, timeline and delivery preferences. Create a list with all of these specifications, so that you can quickly and confidently discuss them at any time. Then, start your search for the right manufacturer.

Who is the right manufacturer? The right manufacturer is the supplier that is best able to fulfill your requirements while respecting your budget and timeframe. Locate this manufacturer by checking out the list of industry leading vibratory feeder manufacturers we have listed here on this page. Weve put together a group of the highest quality vibratory feeder companies in the United States and Canada for you to consult. Learn more about each of them by browsing the profiles weve provided, or by going to straight to their individual websites.

vibrating feeder - all industrial manufacturers - videos - page 2

vibrating feeder - all industrial manufacturers - videos - page 2

FEATURES Vibrating equipment with two unbalanced motors feed material to downstream machines in the process line. Available for wide variety of mining applications including the chemical industry, food, recycling, etc. FUNCTIONALITY Vibrating ...

... rubber buffer Heavier bowls can be used due to coarser vibration behavior Drives WV401-402 Vibration compensation with rubber buffer Heavier bowls can be used due to coarser vibration behavior Full ...

Proficient system for products of simple shape The vibratory feeder guarantees efficient feeding with a high fill quota and is ideal for all products of simple shape such as tablets, spheres, caplets or capsules. Operating ...

... sorting, and recycling of parts using a single unit. About the SANDEX Feeder Technology BACK TO TOP Features Suitable for a Wide Variety of Feed Rates The model ellipsoidal vibration allows feeding ...

This Linear Furnace Feeder from PRAB is capable of direct meter feeding of abrasive die casting metal into the melting furnace. It can feed reverbs and "through the wall" designs, while being incorporated with an oscillating ...

... downtimes in the paving process. A feeder is thus vital to the economical achievement of high-quality results, especially on large-scale job sites. The cutting-edge MT 3000-2 can do a great deal more than previous feeders

... feeding system with intelligent vibration platforms. RNA has developed a new, flexible feeding system FlexType P based on our FlexCube 3-axis vibration platform technology. An intelligent FlexCube/Asycube ...

The cost-effective Direct Drive Feeder (and conveyor) meets all the process requirements of bulk handling industries and can be configured horizontally or inclined to fit your exact floor space. Drive mechanism The ...

Sprial Vibration Loader The spiral vibration loader is mainly for cooling & drying, conveying without loss, it is widely used for plastic, food, minerals industries.The working principle is to use ...

APACKS provides a number of ergonomic solutions for your Cap Feeding needs. Our Bulk Cap Feeding Elevator reduces manual cap reloading while simultaneously maintaining efficient cap levels in any Cap Sorter. The Bulk Cap Feeding Elevator ...

The NetterVibration PowerPack is a brute force feeder system guided by our Blade Springs. The conveyor trough, which is also available from NetterVibration, is mounted, welded or glued to the PowerPacks frame and is ...

Our CF-A Series of air powered feeders are economical and effective, while meeting demands for feed rates up to 50 tons per hour in hazardous and explosion proof environments.CF-A feeders enable controlled ...

Hopper discharge feeders are special discharge channels for a wide range of bulk materials from hoppers and silos. A JST magnetic drive, designed as a sub-resonant dual-mass system, is attached to a channel-shaped ...

... VMK31 orientates the fish head first and belly down in four rows, side-by-side, Feeder wheels secure that the fish is fed synchronized with the fish pockets in VMK16. The vibrating chutes of the VMK31 ...

IFE vibrating feeders with electromagnetic drive are used for bin extraction and for conveying of bulk material. Especially favourable for dosing, applications include feeding of weigh bins, or weigh ...

Pharmalift Tablet Feeder Provides a Large Capacity Bulk Hopper The Pharmalift is the ideal bulk feeder for integration with either tablet counting machines or blister machines. Pharmalift Features Include: - ...

small vibratory feeders | volumetric feeders | gravimetric feeders

small vibratory feeders | volumetric feeders | gravimetric feeders

These small vibratory feeders use a gentle vibrating motion, closed loop, and resonant frequency to feed or dose powders, foods, plastics, chemicals, and ceramics. They are the feeder of choice for materials that are not easily fed or conveyed by screw or belt feeders. The patented volumetric feeders, or tray feeders, are perfect for many different applications and can replace traditional single or twin screw feeders. The gravimetric, or loss-in-weight tray feeders, include static weigh frames with 3 load cells that are available for all sizes.

Choose from a complete line of volumetric feeders or gravimetric feeders including vibratory tray feeders, flexible wall feeders, chemical feeders, additive feeders, dosing feeders, liquid feeders, and more. Add electrostatic food seasoning and coating equipment for even more precise control over product additive and powder usage.

Food production facilities use vibrating feeders (a.k.a. vibratory pan feeders -or- scarf feeders) for dispensing seasonings and spices directly onto the surface of food products as they tumble in a drum. This process is referred to as enrobing. The feeder can also meter seasonings precisely into a blended seasoning batch, or as an application of toppings and coatings in downstream processing equipment.

With this type of electrostatic seasoning and coating system, the customer was able to produce seasoned nut and seed food products in one day instead of seven. It also greatly reduced production costs associated with the previous system, providing a quick ROI. It can be retrofitted to existing seasoning equipment and systems.

Apply many different types of seasonings such as ranch, bacon ranch, salt and pepper, parmesan and pepper, buffalo flavored, BBQ, cinnamon, churro flavored, salt and vinegar, sweet and salty, and wasabi. These types of custom seasonings can be applied to nuts, seeds, popcorn, cheese, chips, and other snack food products.

A volumetric vibratory feeder installed over a snack food production line is used to evenly spread peanuts across the width of the conveyor. The peanut pieces are loaded into the feeder supply hopper. The electromagnetic driven vibratory feeder will draw the peanuts out of the hopper at a controlled rate and spread them evenly across the width of the pan. Feed rate is easy adjusted by the controller supplied with the drive with a 1000:1 turndown ratio controlled by the RVS amplitude sensor and feedback loop controller built into the vibratory drive.

A multi-channel vibratory feeder evenly adds toppings to edible products that are made in multiple rows. This feeder spreader, also known as a waterfall topping applicator, can accurately dose chocolate chunks, chocolate chips, toffee, almonds, dried fruits, chopped nuts and other toppings to a snack food production line.

Using an electrostatic coating system can greatly reduce starch powder build-up on cheese processing lines while reducing airborne powder. This will significantly reduce the amount of waste powder during the coating process.

We accurately control the amount of powder (starch) discharged onto the shredded cheese. This feeding system is designed to atomize dry spices, starches, cellulose powders, and other anti-caking agents as they are applied to the shredded cheese rotating in the food coating drum. Located at the discharge of the dosing feeder is a negatively charged electrostatic field to create an electrostatic charge in the powder. This negatively charge field is pointing toward the cheese rotating in the drum. The starch is then attracted to the positively charged cheese rotating in the drum.

Apply seasoning, spices, sugar and other coatings to peanuts and snack products using electrostatic technology for up to 45% seasoning reduction. It has been used with peanuts, cashews, macadamia nuts and many other types of fragile snack products like chips, pretzels, pastas, rice, cheese and more.

This free standing loss-in-weight hopper with a small feeder meters material from the surge or supply hopper above the feeder. The system is mounted on load cells with a scale controller and PLC controls to operate the system. The system uses an electromagnetic vibrating feeder with flow control to control the rate of discharge from the feeder. The surge or supply hopper can be sized for each application.

It is used for metering additive materials into a mixer or blending system. It is available in stainless steel or carbon steel construction. The control system is designed for independent control or can be integrated with an in-house process control system.

A surge hopper feeds material into the electric powered vibrating feeder which meters the material into a box or drum located on the electric powered roller vibrating table. The box or drum is vibrated or densified during filling. Load cells with a scale controller and controls operate the vibrating feeder and vibrating table. They are included as part of the system. Additional powered roller conveyors are available.

This big bag unloader discharges material from a bulk bag into an industrial mixer. An operator lifts a bulk bag using a fork truck and hangs it on the frame. Material is drawn out of the bag using an enclosed vibrating feeder and transfers it into a paddle mixer for blending with other dry ingredients. The feeder is controlled by a loss-in-weight system comprised of load cells and a controller to dispense a specific weight of material per batch.

vibrating feeder henan victory machinery co., ltd

vibrating feeder henan victory machinery co., ltd

Vibration feeder is the feeder in general sense, but because of the different names in different places, it has different names, and its essence and function are basically the same. The idea of vibration feeding is to evenly cut the material in the process of vibration. The advantage is that the material is evenly fed. According to the vibration frequency of the control motor (the AC motor is generally completed by the frequency converter), the material level can be controlled to uniformly large (small) cut the material. The utility model has the advantages of simple structure, reliable operation, convenient adjustment and installation, light weight, small volume and convenient maintenance. When the closed structure fuselage is adopted, dust pollution can be prevented. Vibrating feeder and adjustable fine crusher are all part of mining machinery and equipment. Before the primary crushing equipment, the product is equipped with continuous and uniform main feeding of large materials, removing the mud and impurities in the materials, controlling the feeding quantity, matching with the processing capacity of the subsequent crushing and screening production line. It is the necessary equipment of the complete production line, with the characteristics of ancient structure, impact resistance, wear resistance, etc.

The jaw crusher is of curved extrusion type. When working, the motor drives the belt and pulley to move the movable jaw up and down through the eccentric shaft. When the movable jaw rises, the angle between the elbow plate and the movable jaw becomes larger, so as to push the movable jaw plate to approach the fixed jaw plate. The material can be multi broken through the extrusion, rubbing and grinding between the two jaw plates. When the movable jaw goes down, the angle between the elbow plate and the movable jaw becomes smaller, and the movable jaw plate is under the action of the pull rod and spring. After leaving the fixed jaw plate, the crushed materials are unloaded freely through the discharge port at the lower part of the jaw cavity under the action of gravity. With the continuous rotation of the motor, the moving jaw performs periodic crushing and discharging to achieve mass production.

We provide sand making solutions all over the world. With over 20 years of experience well ensure that youre always getting the best results from Henan Victory Machinery Co., Ltd. focused on quality.

Related Equipments