chute feeder auger

eastern farm machinery

Welcome to our web site! We have assembled a terrific catalog of over 2,000 products for you to browse, as well as many other things to see and do. Enjoy your stay, and don't forget to write us! Browse our online catalog Look through a large variety of farm, industrial and turf equipment available from over 45 quality suppliers. Browse at your leisure, or use our search engine. About Eastern Farm Machinery Ltd. Find out about who we are, explore our long history, and discover some of the great people who contribute to our success! Contact us! Use our handy online form to drop us a line. Ask questions about our products, our network of equipment dealers, or just let us know what you think about our site. What's new? Find out about new equipment designed to make farming more efficient, as well as other news items sure to interest you. Valuable Web Resources & Our Partners The web's a terrific resource for agriculture-related information. To help you make the most of it, we've put together links to the fine companies who manufacture our products, as well as our dealers. Eastern's Current Specials We always have a number of great deals for our products. Visit this section and find out how Eastern Farm Machinery can save you money! Dealers Dealer Login You can always contact us directly by sending your inquiries to [email protected] Engineered by Emerge2 Digital Inc.

Browse our online catalog Look through a large variety of farm, industrial and turf equipment available from over 45 quality suppliers. Browse at your leisure, or use our search engine. About Eastern Farm Machinery Ltd. Find out about who we are, explore our long history, and discover some of the great people who contribute to our success! Contact us! Use our handy online form to drop us a line. Ask questions about our products, our network of equipment dealers, or just let us know what you think about our site. What's new? Find out about new equipment designed to make farming more efficient, as well as other news items sure to interest you. Valuable Web Resources & Our Partners The web's a terrific resource for agriculture-related information. To help you make the most of it, we've put together links to the fine companies who manufacture our products, as well as our dealers. Eastern's Current Specials We always have a number of great deals for our products. Visit this section and find out how Eastern Farm Machinery can save you money! Dealers Dealer Login You can always contact us directly by sending your inquiries to [email protected] Engineered by Emerge2 Digital Inc.

poly tech industries | agricultural and harvesting products & accessories

Keeping your equipment operating at peak efficiency is vital in todays agricultural market. Poly Tech manufactures a full line of products including corn head liners, grain tank liners, grain and auger bed trough liners and much more to ensure you always get top performance.

powder filling machine for sale used powder filling equipment

Frain Industries is the world leaderin providing used powder filling equipment solutions.Frain Industries stocks powder fillers covering a wide range of powders and granules. There are a number of factors that determine the type of powder filling machine for you application, such as flow characteristics, product compressibility, product stickiness, and irregularity. Additionally our powder filling machines have the ability to fill a wide range of containers including cups, bottles, cartons, capsules, bags, and pouches. Many powder fillers we carry are available in automatic or semi-automatic configuration and intermittent or continuous motion. The Frain engineering team can design a liquid filling solution based on your product, application, line speed, and line integration requirements.

Frain Industries carries used powder filling machines from many OEMsincluding All Fill, AMS Filling Systems, Arenco, Bartelt, Bemis, Bosch, Elanco, FMC, Hayssen, Mateer Burt, Multi Fill, Nalbach, Parsons, Per Fil, Perry, Reiser, Solbern, Spee Dee, Triangle, Weigh Right, Yeaman, Zanasi, and many others.

Thiele / Slidell Model 3120, Automatic, single spout net weigh, bag filling and sealing system rated from 4 to 20 bags per minute depending on materials and application. Bag size range: 11" to 19" in Width 15" to 41.6" PBOM and 14" to 40.6" for SOM, Poly and Woven Poly bags in Length and capable of handling a variety of free-flowing products such as pet food, animal feed, molasses feeds, poly pellets and others. Equipped with empty bag magazine, (6) vacuum suction cup pic n place, bag opener, top feeder / weighing system (type filler per application) and in line poly bag sealer. Control panel has (2) A/B PLC controllers one for filler one for bagger with A/B panelview touchscreen controls and trim and dribble control dials. Mounted on heavy duty frame.

Triangle Model RFC48/10, 10 pocket, continuous motion, stainless steel filler. Rated from 30 to 120 containers per minute depending on materials, application and machine configuration. Equipped with open top, (10) pockets set on 15" centers with 13" long x 8" wide x 13" deep funneled product hoppers, 190" long x 8" wide container conveyor with worm screw to star wheel in feed and discharge and safety guarding. Control panel has AB controller with touch screen HMI.

AMS Model A100 semi-automatic single head auger filler and Flexicon Model 1312 screw conveyor with number of containers per minute depending on materials, application and operator dexterity. All 304 stainless steel contact parts. Equipped with 22" OD,16 gallon product hopper, with agitator, bolt down dust cover, 7" OD product port, 6" long x 4" wide bolt down acess port and top mounted level detector. Control panel has A/B controller with readout and start, e-stop and run / reset controls. Mounted on painted stand alone base with foot pedal jog control. Accuracies of +/- 0.25%, depending on product and tooling required per application.Flexicon 1312 screw conveyor. Equipped with 36" wide x 36" long x 32" deep stainless steel product hopper with safety grid, 3" OD 120" long stainless steel product conveying screw with 3-1/4" flexable poly tube, top 3 Hp motor drive, with 6" ID product discharge port. Control panel with start, e-stop, reset, forward and reverse controls.

AMS Model A100 semi-automatic single head auger filler and Flexicon Model 1312 screw conveyor with number of containers per minute depending on materials, application and operator dexterity. All 304 stainless steel contact parts. Equipped with 22" OD,16 gallon product hopper, with agitator, bolt down dust cover, 7" OD product port, 6" long x 4" wide bolt down acess port and top mounted level detector. Control panel has A/B controller with readout and start, e-stop and run / reset controls. Mounted on painted stand alone base with foot pedal jog control. Accuracies of +/- 0.25%, depending on product and tooling required per application.Flexicon 1312 screw conveyor. Equipped with 36" wide x 36" long x 32" deep stainless steel product hopper with safety grid, 3" OD 120" long stainless steel product conveying screw with 3-1/4" flexable poly tube, top 3 Hp motor drive, with 6" ID product discharge port. Control panel with start, e-stop, reset, forward and reverse controls.

All Fill, Model R, 24 pocket, rotary, continous motion, stainless steel auger. Filler rated from 30 to 200 containers per minute depending on materials and application. Container size range: 1" to 5" in Diameter. Equipped with 2" wide x 72" long Delrin infeed conveyor, 18" long worm screw to star wheel indexing, dual auger fillers, 50" OD turret with (24) 5" long x 7" deep product funnels set on 5" centers. Control panel has Microproccessor controller with touch screen HMI. Mounted on heavy duty frame with safety door guarding.

AMS Filling Systems, single head, stainless steel auger filler. Rated from 20 to 120 cycles per minute depending on materials, application and machine configuration. Equipped with a 22" diameter (16 gallon) agitated product hopper with dust cover, 7" diameter charge port and level detector. Control panel with an AB touch screen display and push button start / stop.

AMS Filling Systems, single head, stainless steel auger filler rated from 20 to 120 cycles per minute depending on materials, application and machine configuration. Equipped with 22" OD (16 gallon) agitated product hopper with dust cover, 7" OD charge port and level detector. Control panel has AB touch screen display with push button start / stop. Mounted on platform type base.

AMS Model A100 semi-automatic single head auger filler and Flexicon Model 1312 screw conveyor with number of containers per minute depending on materials, application and operator dexterity. All 304 stainless steel contact parts. Equipped with 22" OD,16 gallon product hopper, with agitator, bolt down dust cover, 7" OD product port, 6" long x 4" wide bolt down acess port and top mounted level detector. Control panel has A/B controller with readout and start, e-stop and run / reset controls. Mounted on painted stand alone base with foot pedal jog control. Accuracies of +/- 0.25%, depending on product and tooling required per application.Flexicon 1312 screw conveyor. Equipped with 36" wide x 36" long x 32" deep stainless steel product hopper with safety grid, 3" OD 120" long stainless steel product conveying screw with 3-1/4" flexable poly tube, top 3 Hp motor drive, with 6" ID product discharge port. Control panel with start, e-stop, reset, forward and reverse controls. Both mounted on base frames.

AMS Model A100 semi-automatic single head auger filler and Flexicon Model 1312 screw conveyor with number of containers per minute depending on materials, application and operator dexterity. All 304 stainless steel contact parts. Equipped with 22" OD,16 gallon product hopper, with agitator, bolt down dust cover, 7" OD product port, 6" long x 4" wide bolt down acess port and top mounted level detector. Control panel has A/B controller with readout and start, e-stop and run / reset controls. Mounted on painted stand alone base with foot pedal jog control. Accuracies of +/- 0.25%, depending on product and tooling required per application.Flexicon 1312 screw conveyor. Equipped with 36" wide x 36" long x 32" deep stainless steel product hopper with safety grid, 3" OD 120" long stainless steel product conveying screw with 3-1/4" flexable poly tube, top 3 Hp motor drive, with 6" ID product discharge port. Control panel with start, e-stop, reset, forward and reverse controls.

AMS, Model A-500, automatic, in line, dual head, stainless steel, auger filler. Rated from 15 to 90 containers per minute depending on materials, application and machine configuration. Capable of handling round, non-round plastic, metal, glass and composite containers with proper change parts. Equipped with 115" long x 1(1/8)" wide single chain container conveyor has adjustable guide rails, pneumatic container indexing with (2) auger fillers with dust proof covers, 7" OD product feed ports, level sensors and vibratory container lift. Control panel with an AB PLC and touch screen HMI. Mounted on stainless steel base frame.

Spee Dee Model CBS Series lll, (4) pocket, stainless steel, servo driven, volumetric filler with number of containers per minute depending on materials, application and machine configuration. Cup size range: 1.0" to 4.0" in Diameter; 0.62" to 12" in length. Fill range: 0.5 to 170 cubic inches. Change parts required to accommodate different size ranges. Equipped with 12" OD x 16" Deep, 1.5 cu ft stainless steel, conical product hopper, 12" OD plate has (4) 4" OD fill pockets with product leveling brush and dual clear plastic bolt down cover. 11" long product discharge chute with 1/2" OD product opening currently with 9" discharge height. Control panel has PLC controller with touch pad controls and digital readout also a hand held controller with on / off power and volume less / more switches, single index and e-stop push buttons. Mounted on stainless steel base platform.

FEMC, Model 3800-000-003, (6) pocket angular dial servo volumetric filler. Rated from 10 to 160 indexes per minute with number of containers depending on materials, application and machine configuration. Fill range: 5 in to 50 in (with proper change parts). Equipped with 32" diameter stainless steel angled product hopper with (12) telescoping fill pockets and 32" OD transfer plate with (6) pockets. Mounted on a stainless steel base with push button E-Stop.

instruction manuals | hog slat

Hog Slat is dedicated to providing the best products and service in our industry. Please refer to these instructional documents to assist with installing, replacing and operating the products referenced below.

beefcake cattle feeder | deweze

Tackle daily livestock feeding chores with the BeefCake by DewEze designed to fit any feeding style. Whether supplementing with cubes or grain, the BeefCake can be adjusted to feed in piles or a line. The chain-driven, twin six-inch auger system reduces bridging and waste. Sealed to keep out dirt and moisture, the weather-tight lid will provide years of trouble-free performance and longer product life. Additionally, the lift handle can be accessible from the ground. Backed by DewEze durability, the flexible rubber chute eliminates wear and tear from everyday hurdles. Featuring electric or hydraulic models, the BeefCake is available in three sizes: the BC1000, BC1500 and BC2000.

retirement farm auction (6.12.21) | rk statewide auction service

Jim and Rhonda have decided to retire from ranching and farming and lease their place. Jim took great pride in maintaining and servicing his machinery and nearly all the equipment has been kept inside. You will not be disappointed in any of this equipment, it is in very good to excellent condition. Hope to see you June 12th!

flex-auger fill systems | fill systems & feed bins | feeding systems | broilers | chore-time

The FLEX-AUGER System's simple, high-quality, fully-enclosed auger moves feed up, down, on-the-level, or around corners. The tubing is made of specially-compounded PVC, which makes it resistant to ultraviolet light and resistant to wear. For some abrasive free-flowing feeds like those used in egg production, fill systems with steel tubing are available. The FLEX-AUGER Feed Delivery System is available in a variety of capacities for use in a wide variety of feeding applications.

A direct drive unit (motor and gearhead) rotates the coreless auger. A variety of hopper level and drop tube switches are available to regulate feed delivery. Optional time clock and programmable controls are also available.

There are different bin transition and boot options you can choose from: 30 degree(discharge angle) single and twin outlet bin boots, high-capacity single and twin outlet boots, or the single and twin straight-through tandem boot systems. Chore-Time Brock's transparent transitions offer improved visibility of the feed flow to the bin's boot and auger system.

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auger bucket | danuser

Transport, mix, and dispense concrete (up to 1 slump), wildlife feed, and agricultural grains. The Auger Bucket has a yard capacity (13.5 cubic feet) an optional hopper extension can be added to increase the capacity to yard (20.25 cubic feet). Rubber-flighted design acts as a seal to limit materials leaking out of the bucket. Skid-steer quick attach mount on both sides for left or right discharge. All buckets come standard with one 2 and one 3 chute and a 7 hose kit with flat faced couplers and motor fittings.

freeflo telescoping tubes | planting | lundell plastics

Our telescoping tubes are the best in the industry and are constructed from precision tubing offering a sturdy alternative to those floppy competitors. Simplify your work in the field with tubes that are the perfect addition to your seed tender. FreeFlo Telescoping Tubes supercharge seed distribution, helping you move through the planting process quickly and efficiently.

With several sizes and styles, there is a FreeFlo Telescoping Tube that will work with your equipment. If the below sizes don't work with your machinery, custom tubes are also available. Contact us to make planting season easier with FreeFlo Telescoping Tubes!

how operational loads cause a screw conveyor auger drive shaft failure, screw feeder, screw conveyor shaft, auger shaft

Home Free Articles and White Papers on Maintenance Engineering and Plant Engineering Problems and Solutions for Industrial Process Plant and Production Equipment How operational loads break the drive shaft of a horizontal screw conveyor auger

If you have rotating shafts breaking at the drive-end of the auger shaft you may have a combination of bending and torsional fatigue. You are welcome to read the series of emails and responses below to a screw conveyor auger drive end failure.

Tell me more about the duty, such as running time, variations in the material flow rate through the conveyor (min/max/average operating transport rates), process control logic, how many stop-starts in a day/week, etc.

Do you have any photos, including design and assembly drawings of the installation that you can send to me. I would like to see engineering details on the feed into the trough, the discharge from the conveyor, the incline of the conveyor, the bearings and also get a general impression of the installation, such as where the motor is positioned, etc.

One final thing for the moment is to get a complete maintenance history of the equipment as far back as you can. Not just of the shaft but for the whole machine, including the drive gearbox, motor and the shaft bearings. If the shaft is failing it is likely that other parts of the machine, such as the drive end bearing and even the gearbox, are suffering and breaking often.

System: Feed end: Weigh Belt conveyor; Discharge end: Vertical Mixer. Connection between the Vertical Mixer and Screw Conveyor is a HDPE pipe with no break. If Vertical Mixer Bogs, the Screw Conveyor will start filling up. There are multiple stop and start.

Process control logic: Do not know much at this stage. I was informed when I queried this that first the vertical mixer starts, receives solids from the Screw Conveyor, then liquid feed enters which starts the mixing in the vertical mixer. Downstream of the vertical mixer is a Kneader. The Kneader can block as well.

The Screw Conveyor should be isolated from the vertical mixer with a clean break. The plastic tube should be replaced by a second screw conveyor receiving feed from the screw under scrutiny and supplying to the vertical mixer. If vertical mixer bogs, than the feed screw to the vertical mixer stops and the system stops.

I should have asked whether the dust builds up as a crust on the bottom of the trough, and to send me close-up photos of the break and photos of the break location along the shaft. (photo sent: Crust does build up)

Please can you tell me where the breaks happen along the shaft. A photo or a manufacturing drawing with an arrow making the spot(s) would be great. If there is more than one location of breakage show them all.

In the pipe immediately after the flange connecting the drive shaft to the auger but not at the flange weld. You can see where the pipe broke on the screw shaft near the flight. The maintenance team put a web to strengthen the pipe. Second time it broke downstream of that.

I dont believe the motor size is the main problem. The motor will only develop torque in reaction to a load. The shaft is seeing a high load on a regular basis and the motor reacts to force the flights to turn against the load. I would first look at product build-up in the trough and understand how product can be jammed or build-back and prevent flow. It sounds like the discharge end can get full due to downstream problems then the dust backs-up into the chute but the conveyor keeps turning and driving regardless of the blockage. Can the build-back be controlled with program changes to match the flyte rotational speed to the demand from the mixing tank?

You can see from the motor current load graph before the shaft failure that the motor is not overloaded at first. Then something happens to it to rapidly raise the load 20 percent and a few minutes later something more happens to raise the load another 20 percent and cause the shaft to fail. You need to know what caused those step changes. If I were you I would run some trials with Operations and mimic the load changes to understand what causes them. You might find an easy answer to the problem once you know what caused those step-changes in the torque.

Since the side stream chute feeds into the trough at the same time as the main feed there is bound to be additional load on the shaft Is this when the operators go to high speed? Could the extra side-stream feed be a reason for the step change in motor load?

I am curious that there are only two speeds and wonder why the program does not ramp the motor speed up and down using the VSD to adjust throughput according to the product flow and motor current load. If you only need two speeds why have a VSD? Is it used for soft starting? It probably means the screw is started with a full load of dust in the trough after every stoppage. That would be a bad idea as it is sure to create huge start-up torque. The trough needs to be run-out of product every time and started empty. Maybe the operators wont clean the trough out after a plant forced stoppage, but every start-up with an empty trough will extend the conveyor life by one more forced stoppage.

I would rather have the weighing conveyor put after the screw conveyor and before the mixer and so allow you to use the weighing conveyor as a variable flow control weigh feeder. That way the whole circuit can be controlled by the rate of feed the mixing tank can handle (provided that does not then cause disruption to the rest of the production process).

You say the section of pipe with the flytes is where the auger shaft failed, just on the other side of where the stub shaft is flanged to the pipe. The solid drive shaft did not break but the pipe wall sheared. When the break was repaired someone should have taken taken photos of the break in the pipe. It would have been very useful to get pictures of the break so we could look at the type of failure and understand what happened to the screw.

I noticed on the open trough photo that there was what seemed like pitting corrosion on the shaft flytes and trough. If pitting is also on the pipe this would be a stress raiser and could start the crack that became the break. You maybe could look at going to 316L stainless steel pipe and stub shaft if the problem was pitting corrosion creating a stress raiser (though stainless is inclined to work harden if it suffers cyclical high stress). Now that stress raiser has been mentioned one other possibility to cause a stress raiser is a bad weld with inclusions or under-cutting, or even the heat affected zone (HAZ) from a good weld. You said the break was not at a weld but how close to a weld is the break; is it near where the stub shaft was welded into the pipe or flange? The heat affected zone from a weld is the softest part of the steel and the crack that starts the break can begin in the HAZ.

I again looked at the photos you sent me and I believe that there is another serious overloading problem with the drive. The drive is a shaft mounted gearbox which is tied back to a solid connection on the ground with the torque arm and driven by belts from an electric motor located to one side. The self-weight of the gearbox and the reaction forces from the torque arm and pulley tensions must be placing a huge bending moment on the drive shaft (to this bending load you must also add the start-up torque force needed to break the friction of the flytes against the trough/dust/crust).

I quickly did the basic free body diagrams below of the situation at the drive end and along the shaft. It is clear that should the shaft break it will be between the drive end bearing and the first hanger bearing. This is the section of auger that will get the highest combined forces.

You need to get your engineering people to do some detailed engineering calculations and check how much combined bending and torsional load is on the drive shaft section between the drive end bearing and the first bearing hanger under a fully loaded start-up. I have a suspicion that you may need to get rid of the shaft mounted drive and install a direct in-line drive. With a direct-coupled drive there mostly will be torsional load and very little bending load.

I dont know how hard it is to move the drive to the discharge end of the screw conveyor and make the auger pull the material through. By moving the drive to the outlet end and pulling material along the trough you move the bending forces to the end of the shaft where the torsional forces are least. The torque required to turn the flytes rises as the length of the trough increases since more flights and their rubbing area are in contact with the trough and bulk material. Though the motor matches the total torque created along the trough the shaft bending forces from pulling material through are now at the least stressed end of the auger shaft.

One other downside of pushing bulk material through a trough is the bending forces bow the shaft hard against the trough and cause more torsional frictional which the drive then needs to overcome. So the drive ramps-up the torque because the shaft is bowed and this extra force causes the shaft to bow harder agaist the trough, so the motor ramps-up the torque again to overcome the drag, only to bow the shaft more and need even more force to overcome drag, and so on continually.

A secondary benefit of dragging the fertiliser through is that you now have the whole shaft length along which to accumulate fatigue damage from torsional overloads of a blocked conveyor, so though the shaft will be over-stressed with each bog-down and cause the metal to yield the shaft will last longer between breakages because it can be twisted along more of its length before snapping.

You could of course change pipe wall thickness to XS or XXS thick pipe and have more material to take the combined bending and torsional loads. That is probably your easiest option. But by using thicker pipe you move the breakage point to another component or assembly on the screw conveyor. You will end up failing something else, like the gearbox, though probably less often. However it may be a far more expensive failure than a sheared auger.

Another possible quick fix to reduce the bending forces would be to move the connection point of the tie-rod up to be in-line with the drive pulleys center line projected from the motor shaft through the gearbox driver shaft and onwards to the building structure. Moving the tie-rod force to be in-line with the pulley tension force leaves just the gearbox/pulleys self-weight and the start-up torque for the shaft to handle. That reduction in force should make a big difference to the service life of the shaft. It will need to be a very strong steel mounting structure since there will be a big leverage force trying to rip the mounting out of the floor. Here again you need engineering calculations to design a sufficiently robust structural mounting.

I would be happy to do the machine loading and structural engineering calculations for a fee to cover my time if you want to, but I would need to get all the necessary dimensions and equipment engineering details from you to do that.

P.S. If you have maintenance engineering advice on industrial equipment maintenance, especially defect elimination and failure prevention of plant and equipment, or have made successful equipment reliability improvements, please feel free to send me your articles to post on this website. You can contact me by email at [email protected]