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soil and rock vibrating screens

ez-screen - portable topsoil screeners - made in the usa

ez-screen - portable topsoil screeners - made in the usa

Rented a large commercial screen last Spring. It worked... ok. It didnt take long to discover a few flaws. The nature of material I screen has a lot of rock. These would lodge in the screen. The mechanics of the vibrating deck was not adequate to move these rocks across the screen. Several times a day I had to climb up on the deck with a 3lb. Hammer and pound the rocks through to unclog the screen. Frustrating, but we made it work. We rented the screen long enough that the company suggested we should buy one. The smaller size suitable for us sells for $45,000.00. No thanks. Thank god we found AL!! Bought an EZ-Screen 600. After passing several hundred yards over the screen not 1 rock has gotten lodged in the deck. NOT ONE!!! The design and mechanics of the vibrating deck is far superior to other commercial screens. Imagine that... I could have purchased 3 EZ-Screen 600s for the price of one of the competitors screens!!! Bottom line... there is no competition. Best screen out there hands down.

Turn any skid steer loader into a soil screener. With our new EZ-100 Skid Steer Attachment, now every skid steer bucket you load can be screened. Its the perfect attachment because it turns one machine ...

With its larger,heavy duty single-deck screen, the EZ-Screen 700 is ideally suited to work with loaders with buckets ranging up to 1 yards. While the 700 is big enough for most screening jobs, its ...

The EZ-800 is a very good choice if youre looking for a rugged, super versatile, uber-productive stationary screener. One that doesnt have to be as mobile because all the material you need to screen ...

The mission of Argus Industrial Co. is to produce the finest line-up of efficient, portable screeners workhorse machines that out-engineer, out-perform, out-feature, out-last, and are out-and-out better values for the money than anything out in the market.

From topsoil screens for smaller jobs to larger screeners that will handle topsoil, rock, mulch, sand, compost, loam or just about anything else that can be separated by size, EZ-Screen has the machine for you. EZ-Screen portable screening plants also make recycling materials efficient and affordable.

smico topsoil screener - smico vibratory screens

smico topsoil screener - smico vibratory screens

SMICO has recently added an economical topsoil screener to its line of heavy duty screens. Weve taken all the popular features from our scalping screen and customized the topsoil screen to fit the needs of the soil reclamation, compost and topsoil industries. SMICO topsoil screeners are easily mounted to your chassis or skid making them portable. Our dirt screen features some of the highest processing capabilities and are perfectly suited to operations which require high volume, stationary production capabilities.

Standard topsoil screeners lack the action necessary to clear near sized and sticky particles from the screen surface. In addition, most topsoil screens are capable of only one separation. The SMICO topsoil screen however, was designed with the same principles that the heavy-duty aggregate screens employ to handle large rock and minerals. As a result, your operation enjoys more efficient, multiple separation processing. Combined with the huge set of SMICO customization options you are able to mobilize and adapt your screen to fit whatever project you might encounter!

desite soil-dirt-rock screeners overview - topsoil screenerstopsoil screeners

desite soil-dirt-rock screeners overview - topsoil screenerstopsoil screeners

SLG Screeners by DeSite are very affordable, simple, and less expensive than any comparable screeners. They have unique features that make screening easier and more efficient. DeSite SLG Topsoil Screeners often pay for themselves with one property development or dirt reclamation project. They are affordable to own and operate. They outperform other more expensive screeners because of the following features.

All models are vibratory which efficiently shakes raw materials over the screening mesh. The movement minimizes bouncing and blinding of the mesh. The vibration maximize the screening action. The vibratory mechanisms are high quality and low maintenance. They are warrantied for one year.

Every model has an adjustable deck slope. The deck is adjustable from 45 to 30 degrees. Adjusting the angle is vital for the best results when screening dry or wet material and everything in between. A steeper angle keeps wetter material moving across the screen while a lesser slope, closer to 30 degrees, slows down dry material. The operator stays in his seat and controls the screen deck tilt an additional 15 degrees. DeSite screeners give you complete control over the speed, direction, and flow of materials.

Every model has spring-loaded screen decks. The decks can be tipped even further, up to 15 degrees more, with the bucket. This smart feature of DeSite Screeners gives operators maximum control over the materials movement across the screening mesh. They can easily, without leaving the cab, change the slope of the deck. This speeds up or slows down the sand, gravel, rock and/or debris as it flows over the mesh. On larger SLG Screener models, this feature is supported by an impressive cantilevered spring suspension system found only on DeSite vibratory screening machines.

There is a DeSite Soil Screener for every type and size of loading machine. The most important factor when ordering a machine is to know that bucket width of the machine that will feed it. All screeners are designed with screen decks to be wider than the loading machines buckets. It makes feeding accurate, easier and faster resulting in less crossover.

All SLG screener models have large screen decks in relation to their overall size. They offer the greatest screening capacity in the smallest package. Being compact means the machine can be placed closer to the material to be screened. This reduces time and the distance spent by feeding machines traveling between piles and machine. It is especially important on job sites that are very limited in area. All DeSite SLG Screeners include easily accessible forklift pockets. Moving the screener with a forklift is easy. The fork lift pockets also accept optional bucket lugsfor moving the screener using the feeding machine.

All DeSite screeners except the smallest 68V have heavy-duty Feed Deflection Systems. The Feed Deflection System controls the flow of material across the vibrating screen. It also maximizes the time and quality with which its processed. Feed Deflectors are a primary factor in a soil screeners high efficiency. DeSite's Feed Deflector sets them apart from other brands. Feed Deflection Systems accommodate oversize material. Feed Deflectors are also easily removable in case grizzly-style screening is desired. For example, remove the Feed Deflector to sort large construction and burn pile debris.

All models come equipped with industrial heavy duty screen mesh panels. The panels are easily changed. Various mesh sizes and shapes deliver different products. All models include the general purpose 4 x elongated mesh. Other mesh sizes are available through Soil Screening Equipment. They come in either square or elongated shapes and from to 4-inches in size. Swapping out mesh sizes allows great versatility in the screening products possible with a DeSite Screener.

An optional Riser Box increases the already-high storage area below the screener. It increases final product capacity of a DeSite SLG Screener by approximately 20%. A Riser Box decreases the time an operator spends shifting material between feeding and harvesting tasks. Riser Boxes are added and removed quickly. They raise the height of the screener for easier feeding with larger equipment. There are [Riser Boxes available for DeSite 78VF, 78VFG, and 108VF models] through Soil Screening Equipment.

topsoil screeners idm

topsoil screeners idm

DeSite SLG Vibratory Screeners are the most affordable way to screen and recycle sand, soil, and gravel. DeSite screeners are #1 in value and efficiency. We manufacture 4 model sizes ranging in price from $5,750 to $13,900 usd

Our screeners can be fed efficiently with a bucket tractor, skid steer, excavator, backhoe or wheel loader. Designed with a screen deck wider than your machines bucket, SLG screeners are easier to feed and produce more product each and every hour. DeSite screeners low maintenance design means more time screening with less service and repair.

Our SLG screeners offer many special features as standard equipment at no extra cost. Our Tilting Screen Decks, Cantilevered Coil Over Spring Suspension, Tilt Open Feed Deflector and Removable Riser Box give the operator more control, resulting in bigger production. We offer mesh sizes from 1/8 to 4 inches in both square and elongated for screener versatility.

Our machines portability is unmatched by any other design out there. DeSite has designed in fork pockets and bucket lift extensions that allow SLG screeners to be moved in literally seconds with forks or a bucket. Keeping the screener close to the pile being screened is critical to good production when using compact equipment to feed the screener.

Screening machine maintenance is much like forklift maintenance. They often only work part time so they only get maintained when they are broken. DeSite understands this so we have designed our machines to be virtually maintenance free. Our vibratory packs are electric powered and sealed away from dirt and dust. The power source can be up to 100ft away from dirt and dust, keeping maintenance to a minimum. DeSite 78VF machines have no grease points, while the 68V has only two and the 108VFRB has only four grease points. Less maintenance means less down time, higher production and lower operating costs.

Deck screeners are definitely more versatile than a trommel. Deck screeners can screen aggregate, and heavy rock, which is usually not recommended for trommel drums. Screener versatility often boils down to screening a variety of products and product sizes. The ease of a mesh size change out will determine whether the operator will take the time to change the mesh and make a variety of products.

SLG screeners use a hooked mesh design and C style clamps to stretch and hold the mesh in place over the crowned screen deck. Our design puts the tensioning bolts on the sides of the deck where they are easily accessible. Mesh change out on the 68 and 78 take less than 15 minutes. The 108vfrb design will take 30 to 40 minutes.

DeSite has the only design that brings the deck slope all the way up to 45 degrees to stop screen plugging when screening extreme moisture materials. Our machines then can bring the slope all the way back to 25 degrees for screening aggregates and sand.

No other manufacture has made the investment to design a small compact vibratory screening machine for the compact tractor market. The SLG 68V has brought screen and recycling independence to nurseries, farms and land owners that own compact tractors. Our SLG 78VF topsoil screeners are the number one seller in North America when customers are using skid steers, tractors, excavators and compact loaders. Our design is very efficient, out performing anything in its class for a price that is far below what other in the industry want for their product. The DeSite SLG 108VFRB with over 60 sq/ft of screening area is the most cost effective vibratory screener for excavators, backhoes, and wheel loaders. Built tough and built to last, the SLG 108VFRB screener is bringing screen and recycling independence to the market at a price of only $13,900.00usd.

topsoil, rock, gravel, compost, dirt can be separated with omh proscreen inc. usa models of soil screeners | topsoil screener rentals

topsoil, rock, gravel, compost, dirt can be separated with omh proscreen inc. usa models of soil screeners | topsoil screener rentals

This website was created to give homeowners and contactors the option to rent a soil/rock screener at an affordable price. DeSite SLG screeners are the most portable and cost effective, compact screeners available. They will allow you to recycle, reclaim, and reuse existing topsoil, rock, and other materials right on site.

IDM understands that many times excavation contactors see recyclable products onsite when bidding a job. Most contractors know that onsite recycling can cut project costs, but historically, towing a big box screener in to recycle 50 or 100 yards is not cost effective. Making an extra trip simply to tow a screener onsite uses up valuable working time. Towable screeners can in many cases be difficult to place when working in tight areas or on slopes.

The ability to recycle with your excavator and skidsteers saves on expensive trucking costs. Why pay $100.00 plus per hour for trucking when that $100.00 per hour can go towards your machines working profit. We knew that a truly portable screen would have to be compact enough to be transported on the same trailer at the same time the contractor is moving his excavation equipment. This screener would have to be so portable that it could be moved around on sloped or slippery ground quickly and safely. This screener would have to be productive. Contractors do not have time to waste. Most of all, it has to be strong, user friendly and affordable. Why rent a DeSite SLG-78VF

grizzly screens for sale | soil, sand, rock grizzly separators

grizzly screens for sale | soil, sand, rock grizzly separators

Find the perfect grizzly screen to sort and separate your material, whether it be soil, rock, or sand. The type of material you are separating will determine the grizzly bar spacing on the deck (grid or vertical bars). Read MoreSome of the grizzly screens listed below will have fixed deck bar openings but some will also have adjustable deck bars. Most of the listings below will be for static grizzlies but some will have a vibratory option. Read Less

vibrating screen working principle

vibrating screen working principle

When the smaller rock has to be classified a vibrating screen will be used.The simplest Vibrating Screen Working Principle can be explained using the single deck screen and put it onto an inclined frame. The frame is mounted on springs. The vibration is generated from an unbalanced flywheel. A very erratic motion is developed when this wheel is rotated. You will find these simple screens in smaller operations and rock quarries where sizing isnt as critical. As the performance of this type of screen isnt good enough to meet the requirements of most mining operations two variations of this screen have been developed.

In the majority of cases, the types of screen decks that you will be operating will be either the horizontal screen or the inclined vibrating screen. The names of these screens do not reflect the angle that the screens are on, they reflect the direction of the motion that is creating the vibration.

An eccentric shaft is used in the inclined vibrating screen. There is an advantage of using this method of vibration generation over the unbalanced flywheel method first mentioned. The vibration of an unbalanced flywheel is very violent. This causes mechanical failure and structural damage to occur. The four-bearing system greatly reduces this problem. Why these screens are vibrated is to ensure that the ore comes into contact will the screen. By vibrating the screen the rock will be bounced around on top of it. This means, that by the time that the rock has traveled the length of the screen, it will have had the opportunity of hitting the screen mesh at just the right angle to be able to penetrate through it. If the rock is small enough it will be removed from the circuit. The large rock will, of course, be taken to the next stage in the process. Depending upon the tonnage and the size of the feed, there may be two sets of screens for each machine.

The reason for using two decks is to increase the surface area that the ore has to come into contact with. The top deck will have bigger holes in the grid of the screen. The size of the ore that it will be removed will be larger than that on the bottom. Only the small rock that is able to pass through the bottom screen will be removed from the circuit. In most cases the large rock that was on top of each screen will be mixed back together again.

The main cause of mechanical failure in screen decks is vibration. Even the frame, body, and bearings are affected by this. The larger the screen the bigger the effect. The vibration will crystallize the molecular structure of the metal causing what is known as METAL FATIGUE to develop. The first sign that an operator has indicated that the fatigue in the body of the screen deck is almost at a critical stage in its development are the hairline cracks that will appear around the vibrations point of origin. The bearings on the bigger screens have to be watched closer than most as they tend to fail suddenly. This is due to the vibration as well.

In plant design, it is usual to install a screen ahead of the secondary crusher to bypass any ore which has already been crushed small enough, and so to relieve it of unnecessary work. Very close screening is not required and some sort of moving bar or ring grizzly can well be used, but the modern method is to employ for the purpose a heavy-duty vibrating screen of the Hummer type which has no external moving parts to wear out ; the vibrator is totally enclosed and the only part subjected to wear is the surface of the screen.

The Hummer Screen, illustrated in Fig. 6, is the machine usually employed for the work, being designed for heavy and rough duty. It consists of a fixed frame, set on the slope, across which is tightly stretched a woven-wire screen composed of large diameter wires, or rods, of a special, hard-wearing alloy. A metal strip, bent over to the required angle, is fitted along the length of each side of the screen so that it can be secured to the frame at the correct tension by means of spring-loaded hook bolts. A vibrating mechanism attached to the middle of the screen imparts rapid vibrations of small amplitude to its surface, making the ore, which enters at the top, pass down it in an even mobile stream. The spring-loaded bolts, which can be seen in section in Fig. 7, movewith a hinge action, allowing unrestricted movement of the entire screening surface without transmitting the vibrations to the frame.

One, two, or three vibrators, depending on the length of the screen, are mounted across the frame and are connected through their armatures with a steel strip securely fixed down the middle of the screen. The powerful Type 50 Vibrator, used for heavy work, is shown in Fig. 7. The movement of the armature is directly controlled by the solenoid coil, which is connected by an external cable with a supply of 15-cycle single-phase alternating current ; this produces the alternating field in the coil that causes the up-and-down movement of the armature at the rate of thirty vibrations per second. At the end of every return stroke it hits a striking block and imparts to the screen a jerk which throws the larger pieces of ore to the top of the bed and gives the fine particles a better chance of passing through the meshes during the rest of the cycle. The motion can be regulated by spiral springs controlled by a handwheel, thus enabling the intensity of the vibrations to be adjusted within close limits. No lubrication is required either for the vibrating mechanism or for any other part of the screen, and the 15-cycle alternating current is usually supplied by a special motor-generator set placed somewhere where dust cannot reach it.

The Type 70 Screen is usually made 4 ft. wide and from 5 to 10 ft. in length. For the rough work described above it can be relied upon to give a capacity of 4 to 5 tons per square foot when screening to about in. and set at a slope of 25 to 30 degrees to the horizontal. The Type 50 Vibrator requires about 2 h.p. for its operation.

The determination of screen capacity is a very complex subject. There is a lot of theory on the subject that has been developed over many years of the manufacture of screens and much study of the results of their use. However, it is still necessary to test the results of a new installation to be reasonably certain of the screen capacity.

A general rule of thumb for good screening is that: The bed depth of material at the discharge end of a screen should never be over four times the size opening in the screen surface for material weighing 100 pounds per cubic foot or three times for material weighing 50 pounds per cubic foot. The feed end depth can be greater, particularly if the feed contains a large percentage of fines. Other interrelated factors are:

Vibration is produced on inclined screens by circular motion in a plane perpendicular to the screen with one-eighth to -in. amplitude at 700-1000 cycles per minute. The vibration lifts the material producing stratification. And with the screen on an incline, the material will cascade down the slope, introducing the probability that the particles will either pass through the screen openings or over their surface.

Screen capacity is dependent on the type, available area, and cleanliness of the screen and screenability of the aggregate. Belowis a general guide for determining screen capacity. The values may be used for dried aggregate where blinding (plugged screen openings), moisture build-up or other screening problems will not be encountered. In this table it is assumed that approximately 25% of the screen load is retained, for example, if the capacity of a screen is 100 tons/hr (tph) the approximate load on the screen would be 133 tph.

It is possible to not have enough material on a screen for it to be effective. For very small feed rates, the efficiency of a screen increases with increasing tonnage on the screen. The bed of oversize material on top of the marginal particlesstratification prevents them from bouncing around excessively, increases their number of attempts to get through the screen, and helps push them through. However, beyond an optimum point increasing tonnage on the screen causes a rather rapid decrease in the efficiency of the screen to serve its purpose.

Two common methods for calculating screen efficiency depend on whether the desired product is overs or throughs from the screen deck. If the oversize is considered to be the product, the screen operation should remove as much as possible of the undersize material. In that case, screen performance is based on the efficiency of undersize removal. When the throughs are considered to be the product, the operation should recover as much of the undersize material as possible. In that case, screen performance is based on the efficiency of undersize recovery.

These efficiency determinations necessitate taking a sample of the feed to the screen deck and one of the material that passes over the deck, that is, does not pass through it. These samples are subjected to sieve analysis tests to find the gradation of the materials. The results of these tests lead to the efficiencies. The equations for the screen efficiencies are as follows:

In both cases the amount of undersize material, which is included in the material that goes over the screen is relatively small. In Case 1 the undersize going over the screen is 19 10 = 9 tph, whereas in Case 2 the undersize going over is 55 50 = 5 tph. That would suggest that the efficiency of the screen in removing undersize material is nearly the same. However, it is the proportion of undersize material that is in the material going over the screen, that is, not passed through the screen, that determines the efficiency of the screen.

In the first cases the product is the oversize material fed to the screen and passed over it. And screen efficiency is based on how well the undersize material is removed from the overs. In other cases the undersize material fed to the screen, that is, the throughs, is considered the product. And the efficiency is dependent on how much of the undersize material is recovered in the throughs. This screen efficiency is determined by the Equation B above.An example using the case 1 situation for the throughs as the product gives a new case to consider for screen efficiency.

Generally, manufacturers of screening units of one, two, or three decks specify the many dimensions that may be of concern to the user, including the total headroom required for screen angles of 10-25 from the horizontal. Very few manufacturers show in their screen specifications the capacity to expect in tph per square foot of screen area. If they do indicate capacities for different screen openings, the bases are that the feed be granular free-flowing material with a unit weight of 100 lb/cu ft. Also the screen cloth will have 50% or more open area, 25% of total feed passing over the deck, 40% is half size, and screen efficiency is 90%. And all of those stipulations are for a one-deck unit with the deck at an 18 to 20 slope.

As was discussed with screen efficiencies, there will be some overs on the first passes that will contain undersize material but will not go through the screen. This material will continue recirculating until it passes through the screen. This is called the circulating load. By definition, circulating load equals the total feed to the crusher system with screens minus the new feed to the crusher. It is stated as a percentage of the new feed to the crusher. The equation for circulating load percentage is:

To help understand this determination and the equation use, take the example of 200 tph original or new material to the crusher. Assume 100% screen efficiency and 30% oversize in the crusher input. For the successive cycles of the circulating load:

The values for the circulating load percentages can be tabulated for various typical screen efficiencies and percents of oversize in the crusher product from one to 99%. This will expedite the determination for the circulating load in a closed Circuit crusher and screening system.

Among the key factors that have to be taken into account in determining the screen area required is the deck correction. A top deck should have a capacity as determined by trial and testing of the product output, but the capacity of each succeeding lower deck will be reduced by 10% because of the lower amount of oversize for stratification on the following decks. For example, the third deck would be 80% as effective as the top deck. Wash water or spray will increase the effectiveness of the screens with openings of less than 1 in. in size. In fact, a deck with water spray on 3/16 in. openings will be more than three times as effective as the same size without the water spray.

For efficient wet or dry screeningHi-capacity, 2-bearing design. Flywheel weights counterbalance eccentric shaft giving a true-circle motion to screen. Spring suspensions carry the weight. Bearings support only weight of shaft. Screen is free to float and follow positive screening motion without power-consuming friction losses. Saves up to 50% HP over4- bearing types. Sizes 1 x 2 to 6 x 14, single or double deck types, suspended or floor mounted units.Also Revolving (Trommel) Screens. For sizing, desliming or scrubbing. Sizes from 30 x 60 to 120.

TheVibrating Screen has rapidly come to the front as a leader in the sizing and dewatering of mining and industrial products. Its almost unlimited uses vary from the screening for size of crusher products to the accurate sizing of medicinal pellets. The Vibrating Screen is also used for wet sizing by operating the screen on an uphill slope, the lower end being under the surface of the liquid.

The main feature of the Vibrating Screen is the patented mechanism. In operation, the screen shaft rotates on two eccentrically mounted bearings, and this eccentric motion is transmitted into the screen body, causing a true circular throw motion, the radius of which is equivalent to the radius of eccentricity on the eccentric portion of the shaft. The simplicity of this construction allows the screen to be manufactured with a light weight but sturdy mechanism which is low in initial cost, low in maintenance and power costs, and yet has a high, positive capacity.

The Vibrating Screen is available in single and multiple deck units for floor mounting or suspension. The side panels are equipped with flanges containing precision punched bolt holes so that an additional deck may be added in the future by merely bolting the new deck either on the top or the bottom of the original deck. The advantage of this feature is that added capacity is gained without purchasing a separate mechanism, since the mechanisms originally furnished are designed for this feature. A positivemethod of maintaining proper screen tension is employed, the method depending on the wire diameter involved. Screen cloths are mounted on rubber covered camber bars, slightly arched for even distribution.

Standard screens are furnished with suspension rod or cable assemblies, or floor mounting brackets. Initial covering of standard steel screen cloth is included for separations down to 20 mesh. Suspension frame, fine mesh wire, and dust enclosure are furnished at a slight additional cost. Motor driven units include totally-enclosed, ball-bearing motors. The Vibrating Screen can be driven from either side. The driven sheave is included on units furnished without the drive.

The following table shows the many sizes available. Standard screens listed below are available in single and double deck units. The triple and quadruple deck units consist of double deck units with an additional deck or decks flanged to the original deck. Please consult our experienced staff of screening engineers for additional information and recommendations on your screening problems.

An extremely simple, positive method of imparting uniform vibration to the screen body. Using only two bearings and with no dead weight supported by them, the shaft is in effect floating on the two heavy-duty bearings.

The unit consists of the freely suspended screen body and a shaft assembly carried by the screen body. Near each end of the shaft, an eccentric portion is turned. The shaft is counterbalanced, by weighted fly-wheels, against the weight of the screen and loads that may be superimposed on it. When the shaft rotates, eccentric motion is transmitted from the eccentric portions, through the two bearings, to the screen frame.

The patented design of Dillon Vibrating Screens requires just two bearings instead of the four used in ordinary mechanical screens, resulting in simplicity of construction which cuts power cost in half for any screening job; reduces operating and maintenance costs.

With this simplified, lighter weight construction all power is put to useful work thus, the screen can operate at higher speeds when desired, giving greater screening capacity at lower power cost. The sting of the positive, high speed vibration eliminates blinding of screen openings.

The sketches below demonstrate the four standard methods of fastening a screen cloth to the Dillon Screen. The choice of method is generally dependent on screen wire diameters. It is recommended that the following guide be followed:

Before Separation can take place we need to get the fine particles to the bottom of the pile next to the screen deck openings and the coarse particles to the top. Without this phenomenon, we would have all the big particles blocking the openings with the fines resting atop of them and never going through.

We need to state that 100% efficiency, that is, putting every undersize particle through and every oversize particle over, is impossible. If you put 95% of the undersize pieces through we in the screen business call that commercially perfect.

topsoil screeners - omh proscreen

topsoil screeners - omh proscreen

Our SLG 78 portable vibratory screening machine is your affordable solution to turn waste soil sand and rock from a jobsite into usable products with new value. Designed to be fed by compact excavators, skid steers, or a bucket tractor, the SLG 78VF-5 can process up to 30 yards per hour. DeSite SLG designs come standard with features that set it apart from any other screener. Compact portability, low maintenance, versatility and affordability are key elements to the success of SLG screening machines.

Each and every year we push the envelope to improve our designs and 2017 is no exception. Our opening feed deflector design, tilting screen deck, optional riser box has geared the SLG VF-5 for even more hourly production, and higher efficiency, all for the low price of $5500usd.

The SLG-108VF Topsoil Screener is designed for compact machines with buckets larger than 78 inches. The SLG-108VF has a 10ft wide by 6ft long screen deck mounted with dual vibrations packs to the under side.

Because the 108VF screening surface is so large we have designed the screen deck with two side by side hooked high tensile mesh making mesh change out quick and easy. We hook our mesh panels so that the woven mesh can be side tensioned over our crowned screen deck for maximum durability.

The DeSite SLG-108VFRB Vibratory Screener has a 6ft x 10ft screen deck offering more than 55 square feet of screening surface. Priced at $12,600 the 2018 model SLG-108VFRB is saving people time and money recycling waste products onsite.

The DeSite SLG 108VFRB has been designed to be fed with loaders and backhoes, but also can be fed with skid steers and bucket tractors when the riser box is removed. Removing the riser box can be done in 2 minutes with our 4 inch nylon belt quick change system.

DeSite SLG-78 portable screeners will simply amaze you. We have had comments from customers that say this new screener is so simple that they cannot believe that no one has thought of it before, or the SLG-78 is a stroke of genius. We lay no claim to being a genius, but we have put a lot of thought into simple inefficiencies.

We do not just talk about production, we show our screener in production. Watch our many videos you will see the screener working in much less than perfect conditions. Any screener will screen the easy stuff, but we try to show our 78VFs screening a multitude of products in both dry and wet conditions.

IDM Innovations Inc believes there is always room for improvement. We are always looking for ways to improve our existing products, while constantly designing new products that help others do their work with improved efficiency.

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