US1127974A - Grain-drier. - Google Patents

Grain-drier. Download PDF

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US1127974A
US1127974A US86133914A US1914861339A US1127974A US 1127974 A US1127974 A US 1127974A US 86133914 A US86133914 A US 86133914A US 1914861339 A US1914861339 A US 1914861339A US 1127974 A US1127974 A US 1127974A
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grain
shafts
flue
drier
flues
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US86133914A
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Hubert C Ellis
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Ellis Drier & Elevator Co
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Ellis Drier & Elevator Co
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F26DRYING
    • F26BDRYING SOLID MATERIALS OR OBJECTS BY REMOVING LIQUID THEREFROM
    • F26B17/00Machines or apparatus for drying materials in loose, plastic, or fluidised form, e.g. granules, staple fibres, with progressive movement
    • F26B17/12Machines or apparatus for drying materials in loose, plastic, or fluidised form, e.g. granules, staple fibres, with progressive movement with movement performed solely by gravity, i.e. the material moving through a substantially vertical drying enclosure, e.g. shaft
    • F26B17/122Machines or apparatus for drying materials in loose, plastic, or fluidised form, e.g. granules, staple fibres, with progressive movement with movement performed solely by gravity, i.e. the material moving through a substantially vertical drying enclosure, e.g. shaft the material moving through a cross-flow of drying gas; the drying enclosure, e.g. shaft, consisting of substantially vertical, perforated walls

Definitions

  • nnar' e. rs, or orIIcaeo, ILLINoIs assumes no ELLIS name & nLEvATon cons, or coaoo, rLmNors, a conronarIoN or WISCONSIN.
  • Driers of which the following is a full,-
  • the invention relates to apparatus for drying and cooling grain.
  • One object of the present invention is to provide an improved drier of the type set forth in said Letters Patent No. 921,097, in. which the division walls are formed to prevent these accumulations and which will cause them, if carried into the lines, to fall back into the grain columns, thus saving the particles for consumption.
  • Another object of the invention is to improve the construction of driers of this type by providing a drier in which the pressure and exhaust lines are formed of separately built-up sections, including sections of screen cloth, and thereby avoid the necessity of providing a continuous screen cloth extending throughout the height or length of municating with the grain shafts for deflectmg particles of grain forced through the screen back into the grain column, thus keeping the lines clean and saving the grain particles.
  • One object of the present invention is to provide an improved apparatus of this type in e which the air, after having passes through the damp grain, is drawn through the upper portion of a subjacent cooler. By passing the moist air through the upper portion of the cooler, more direct air passages can be employed for returning the air to the blower. This result is attained by providing direct passages through the upper portion of the cooler.
  • a further object of the invention is to provide a grain drier which is formed of sections having pressure and exhaust flues therein, the sections being assembled so that the spaces between the sections or grain shafts may be easily varied according to the width of the grain column desired.
  • the invention designs to provide a grain drier which is simple in construction, has a large capacity and which may be produced at a low cost.
  • Figure 1 is a vertical section of a grain drierand cooler embody-.
  • Fig. 2 is a section taken on line 22 of Fig. 1.
  • Fig. 3 is a section taken on line 3-3 of Fig. 1.
  • Fig. 4 is a vergrain shafts and the air flues between them.
  • Fig. 6 is a section taken on line 6-6 of Fig. 5.
  • Fig. 7 is a perspective of the upper portion of the drier, parts being broken away.
  • the improved apparatus is illustrated as erected in a suitable inclosing structure 10 and comprises a drier 11 in which the grain is subjected to a blast of hot air, and a cooler 12 into which the grain passes from the drier in which the grain is subjected to a blast of cold air.
  • Grain is delivered into the drier from a suitable garner 14, as well understood in the art.
  • suitable valve 15 is disposed below the drier 11, and controls the discharge of material from the drier into the upper end of the cooler.
  • a similar valve 16 controls the discharge of grain from the cooler. By closing these valves, a charge of grain ma be treated as long as desired.
  • a compartment 17 formed between horizontalwalls 18 and 19 passes through the cooler 12 to a trunk 20 which leads to the intakes of a blower 21.
  • This blower discharges the blast through a pipe 22 into a trunk 23 which supplies air to the supply flues of the drier 11.
  • the air is heated by a suitable heater 24.
  • the air blast after passing through the drier, is divided by a wall 25, that portion of the air escaping from the drier above said wall passing to the atmosphere and the portion of the airpassing into the chamber 26 below wall 25 passing through a grating: 27 in the floor 28 into a chamber 29.
  • the air passing into the chamber 29 from the drier is impregnated with moisture, for the purpose of reventing the air-supply to the drier from eing sufliciently dry to blister the grain.
  • This air passes through the upper portion of the cooler to a trunk 20, as hereinafter more fully set forth. 4
  • the drier 11 comprises a series of vertical grain-shafts 30, each adapted to hold grain in a columnar mass.
  • the sides of these shafts are formed by vertically extending flue structures made up of similar units.
  • Each. of these structures comprises four standards 31 disposed at thecorners thereof and formed of angle iron, one flange 32 of which extends inwardly along the side of one of the grain shafts and the other flange 33 extends crosswise of the shaft.
  • These standards are secured together in spaced relation so that the sides of the flue structures will form the sides of the grain shafts by strips 34 which overlap the flanges 33 of two adjacent fluef structures, bars or plates 35 extending across the ends of said structures and bolts 36 which clamp the strips 34 against the flanges.
  • the standards 31 are thus clamped between bars 35 and the strips 34.
  • An important advantage of this construction is that the drier may be erected with grain shafts of different Widths. It will be manifest that the flue structures may be separated more or less within the limits of the overlap of strips 34 and flanges 35 without varying the construction of the fluestructure or necessitating special construction for each width of shaft desired.- In some instances, narrow grain shafts are desired so that the grain will be more efl'ec tively and quickly dried, while in other instances wider grain shafts are desired. If desired, reinforcing strips 38, welded to strips 34, may be interposed between the flanges 33 ofthe standards of adjacent flue structures.
  • Strips 34 and the standards 31 form endclosures for the grain shafts. Obviously, any number of these flue structures may be thus assembled to form a drier of the desired capacity without variation of the flue structures and by providing bars 35 of the necessary length to secure all of the structures together.
  • Each flue structure comprises a vertical series of sheet metal plates, each having a vertically extending portion or wall 40 forming a closed side of a flue, an inclined Wall 41, forming a dividing wall between vertically adjacent flues, and a vertical flange 42 adapted to overlap the upper end'of a subjacent plate.
  • These plates have their vertical walls alternately disposed on the opposite sides of the structure, to form flues opening alternately into the grain shafts on opposite sides of the structure.
  • An inclined deflector strip 44 extends across the lower portion of the open side of each flue, projects slightly into the adjacent grain shaft and is secured in separated relation to or above the inclined wall 41.
  • strip of screen cloth 45 forms the open side of each flue,-extends from each deflector-strip 44 upwardly to the upper end of the vertical wall 40 of each flue and is secured between the overlap between a flange 42 at the lower end of one of the inclined Walls 41 and the upper end of a vertical wall 40 of vertically adjacent plates.
  • Rivets 47 pass through strips 44, the screen-cloth 45 and the flanges 32 of the corner standards at the ends of said strips, and rigidly secure the screen- -walls 40, the upper ends of the screen-cloth 45 and the vertical flanges 42 at the lower ends of inclined Walls 41 and through the flanges 32 of the corner standards, secure inane-rt serve to reinforce or back the screen-clothand prevent it from being bulged by the grain in the shafts.
  • An important attribute of this manner of building the flue structure is that comparatively short pieces of screen cloth may be utilized in lieuof extending a sheet of such cloth from the top to the bottom of the grain shaft to avoid joints between the pieces.
  • Another important attribute of this construction is that the walls 41.
  • each flue structure being composed essen-- tially of sheet metal strips and comparatively small pieces of screen cloth, can be secured to the corner standards with facility, and the height of the structure may be built up to any height desired, Channel-bars 54 hold the upper ends of corner standards 31 in spaced relation and ll-shaped top-strips 55 direct the grain into the shafts between the flue-structures.
  • the outer side of each end. flue-structure is closed by an imperforate sheet 40.
  • Cross-bars 35 are alternately disposed on the opposite ends of the shaft to close the exhaust lines at that end at which the supply chamber is disposed and to close the pressure fiues at that end at which the exhaust chamber is located. These bars 35 are of sufficient height to close two rows of fiues having their opposite sides opening into adjacent grain shafts respectively.
  • the pressure dues for each of the grain shafts are oppositely disposed at the sides thereof, and the exhaust lines are correspondingly disposed so that the air blast will pass into the grain column at both sides thereof and will be directed Vertically between the Walls 40 of the intermediate flues. Resultantly, the air blast passes into the grain column at both sides thereof and thence vertically through the column at the adjacent exhaust fines, as indicated by arrows in Fig. 5.
  • the closed sidesof the lines for one shaft serve as division walls for'dir'ectin'gthe blast vertically in the adjacent grhinshaft;
  • the'vertical series of lines between the shafts open” alternately into the shafts respectively,% 'and have closed or imperforate walls at OIIG'SIdG which form the division walls for directing the blast vertically in the adjacent lines, and the pressure and exhaustflues for one shaft are separated or spaced apartby the intermediate flues for the adjacent shafts, thus making it possible to'utilize all the space between the grain shafts for flues.
  • the flue structure set forth is utilized in the drier and the cooler. To provide a di rect return for the moist air in chamber 29,
  • the upper portion of the cooler above the wall 19 is provided with direct passages 56 therethrough.
  • the direct passages 56 in the cooler are formed by extending the screen-cloth 57 continuously from the uppermost pressure flue to the top of the cooler.
  • Channel bars 58 are secured between the screen-cloth to support it andv direct flues 56 open at both ends extend transversely through the cooler.
  • the suction blower 21 will draw cold air from the chamber 17 through the pressure and exhaust lines in the cooler and Will draw some moist air from chamber 29 directly through the dues 56.
  • This moist air, and air which has passed through the cooler 12 will be mixed in trunk 20 and will pass into the eyes of suction blower 21 which will force that air through the heater 24 and trunk 23 into the.
  • Valves 59 are pivoted to the inlet end of the cooler adjacent the direct lines 56 to regulate the supply of moist air taken from the drier, so that moist air, inthe necessary quantity to prevent the hot air being forced to the pressure fines of the drier, will not blister or crack the grain.
  • Valves 59 may be opened more or less and secured in assigned .position by bolts 59 which are adapted to pass throughslots in arcuate bars 59* to ifrary the amount of moist air supplied to the an. i
  • the dust in the grain in the drier will be carried oil by the air, but the broken grain and heavier particles, as well as very small grain, which may be forced through the screen-cloth 45, will fall on the inclined bottoms 41 of the fines, from which it will pass back into the grain shafts. In this manner accumulation of these particles and choking of the fines will be avoided, and, if at any time the blast should prevent these particles from passing back into the grain shafts, the fines will discharge the accumulation whenever the blast has stopped and the grain shafts are emptied.
  • the invention thus exemplifies a flue structure for grain driers or coolers in which the division walls which divide the flue structure into a vertical series of flues are inclined to prevent accumulation of grain, and which are in effect self-cleaning.
  • the invention also exemplifies an improved flue structure which is made up of plates and short sections of screen-cloth which can be readil assembled.
  • the invention also exempli es an improved apparatus in which the flue structures may be readily built with vertical grain shafts of different widths.
  • the invention also exemplifies an improved cooler which is provided with direct air passages for the moist air from the drier.
  • a series of grain shafts and flue structures between said shafts comprising plates, dividing the spaces between the shafts into a vertical series of transverse flues and having vertically extending walls to close one side of a flue and inclined bottom walls for directing material passing into the flue back into a grain shaft, the alternating inclined bottom walls of the flues being dlsposed to discharge the material into the grain shafts at the opposite sides of the flue structure respectively.
  • a series of grain shafts and flue structures between said shafts comprising separate plates dividing the spaces between said shafts into a vertical series of transverse flues, each plate having a vertically extending wall to form a closed side of a flue and an inclined bottom wall for directing material passing into the flue back mto a grain shaft, the alternating inclined bottom walls of the flues being disposed to discharge the material into the grain shafts at the opposite sides of the flue-structure respectively.
  • a series of grain shafts and flue-structures between said shafts comprising separate plates dividing the spaces between'the shafts into a vertical series of transverse flues, each plate having a vertically extending wall to form a closed side of a flue and an inclined bottom wall for directing material passing into the flue back into a grain shaft, the alternating inclined bottom walls of the flues being disposed to discharge the material into the grain shafts at the opposite sides of the flue structure respectively, the ends of the plates being overlapped and secured together.
  • a series of grain shafts, flue structures between said shafts comprising plates dividing the spaces between the grain-shafts into a vertical series of transverse flues and having vertically extending --walls to form a closed side of a flue and an inclined bottom wall for directing material passing into the flue back into a grain shaft, the alternating inclined bottom walls of the flues being disposed to discharge the material into the grain shafts at the opposite sides of the flue structure respectively, and
  • a series of grain shafts and flue structures between said shafts comprising plates dividing the spaces between the shafts into a vertical series of transverse flues and having vertically extending walls closing one side of the flues and inclined walls for directing material passing into the flue back into a grain shaft, and sections of foraminous material extendmg over the open sides of the lines and over the vertical walls.
  • a series of grain shafts and flue structures between said shafts comprising separate plates dividing the spaces between the shafts into a vertical series of transverse flues, each plate having a vertically extending wall forming a closed side of a flue and an inclined'bottom wall for directing the material passing into the flue back into a grain shaft, and sections of foraminous material extending over the open sides of the flues, the ends of the plates being overlapped, the foraminous material being secured between the overlapped ends of the plates.
  • a series of grain shafts and flue structures between said shafts comprising separate plates dividing the spaces between the grain-shafts into a vertical series of transverseflues, each plate having a vertically extending wall forming a closed side of a flue and an inclined bottom wall for directing material passing into the flue back into a grain shaft, and sections of foraminous material extending over the open sides of the flues, the ends of the plates being overlapped, the foraminous sections extending over the vertical walls and between the overlapping ends of the plates.
  • the combination of a series of grain shafts and flue structures between the shafts comprising separate plates dividing the spaces between the shafts into a vertical series of transverse lines, each plate having a vertically extending wall forming a closed side of a flue and a bottom wall, the ends of the plates being overlapped, and secured together, the closed sides being alternately disposed at the sides of the grain shaft respectively.
  • a vertically extending wall forming a closed side of a flue, a bottom wall, the ends of the plates being overlapped and secured together, and sections of foraminous material at the open sides of the fines.
  • a series of grain shafts and flue structures between the shafts comprising separate plates dividing the spaces between the shafts into a vertical series of transverse flues, each plate having a vertically extending wall forming a closed side of a flue, a bottom wall, the ends of the plates being overlapped and secured together, and sections of foraminous material, each extending over the open side of one flue and having one end secured between the overlapping ends of adjacent plates.
  • a series of grain shafts and flue structures between the shafts comprising separate plates dividing the spaces between the shafts into a vertical series of transverse flues, each plate having a vertically extending wall forming a closed side of a flue, a bottom wall, the ends of the plates being overlapped and secured together, and sections of foraminous material, each extending over the open side of a flue and over the closed side of another flue and having one 'end secured between the overlapping ends of adjacent plates.
  • a series of grain shafts and flue structures between the shafts comprising separate plates dividing the spaces between the shafts into a vertical series of transverse flues, each plate having a vertically extending wall forming a closed side of a flue, a bottom wall, the ends of the plates being overlapped and secured together, and sections of foraminors material. each extending over the open side of a flue and over the closed side-of another flue.
  • a series of grain shafts and flue structures between said shafts comprising plates dividing the spaces between said shafts into a vertical series of transverse fines and having vertically extending walls closing one side of the flues and bottom walls, sections of foraminous material at the open sides of the flues, and cross strips at the'open sides of the flues respectively and above said bottom walls, said foraminous sections terminating at said strips.
  • a series of grain shafts and flue structures between said shafts comprising plates dividing the spaces between the shafts into a vertical series of tranverse flues, each plate having a vertically extending wall closing one side of a flue and a bottom wall, cross-strips at the open sides and adjacent the bottom walls, the plates having their ends overlapping, and sections of foraminous material extending over the open sides of the flues, and over the vertical walls and being secured between the ends of overlapping plates and to said strips.
  • a series of flue structures each comprising walls for dividing the structure into a vertical series of transverse flues, vertical angle bars at the corners of said structures having flanges projecting from the sides of the structures, bars overlapping the side-flanges of said angle bars to form closed ends for the gpaces between the structures, and means or securing the structures together to form grain shafts between them.

Description

H. U. ELLIS.
GRAIN DRIER.
APPLICATION FILED SEPT. 12, 1914.
Patented Feb. 9, 1915.
4 SHEETSSHEET 1.
H. C. ELLIS.
GRAIN DRIER.
APPLICATION FILED SEPT. 12, 1914.
Patented Feb. 9, 1915.
4 SHEETS-SHEET 2.
H. O. ELLIS.
GRAIN DRIER.
APPLICATION FILED SEPT. 12,.1914.
Patented Feb. 9, 1915.
4 SHEETS-SHEET 3.
H. G. ELLIS.
GRAIN DRIER.
APPLICATION FILED SEPT. 12, 1914.
Patented Feb. 9, 1915.
4 SHEETS-SHEET 4.
all!
nnar' e. rs, or orIIcaeo, ILLINoIs, assumes no ELLIS name & nLEvATon cons, or coaoo, rLmNors, a conronarIoN or WISCONSIN.
GRAIN-DRIER.
nienova Specification of Letters Patent.
Patented Feb. 9, 1915.
Application filed September 12, 1914. Serial No. 861,339.
Driers, of which the following is a full,-
clear, and exact description.
The invention relates to apparatus for drying and cooling grain.
In Letters Patent No. 921,097, granted May 11, 1909, there is disclosed an apparatus in which the grain is disposed in vertical shafts or columns and in which there are pressure and exhaust flues or ducts through which air under pressure is applied to both sides of the grain columns to cause the air to pass lengthwise of the column and then be discharged from both sides thereof into the exhaust lines. In this construction, the fines are formed of sheet metal sha ed to provide vertically extending walls and horizontally extending division walls between the dues, and it was'the practice to provide a continuous screen cloth extending the length of the column. In the practice of the invention. set forth in said Letters Pat out No. 921,097, it has been found that many particles of broken grain would become lodged and accumulate on the horizontal division. walls between the fiues, so that it Was necessary occasionally to blow out the lines and clean them. The dust was usually carried oil through the exhaust flues, but the deposits consisted of particles of grain which were usable.
One object of the present invention is to provide an improved drier of the type set forth in said Letters Patent No. 921,097, in. which the division walls are formed to prevent these accumulations and which will cause them, if carried into the lines, to fall back into the grain columns, thus saving the particles for consumption.
Another object of the invention is to improve the construction of driers of this type by providing a drier in which the pressure and exhaust lines are formed of separately built-up sections, including sections of screen cloth, and thereby avoid the necessity of providing a continuous screen cloth extending throughout the height or length of municating with the grain shafts for deflectmg particles of grain forced through the screen back into the grain column, thus keeping the lines clean and saving the grain particles.
In treating wet grain to eliminate the moisture, it is now common practice to force a blast of air through the grain column un der suflicient pressure to force the air through the drier containing the grain. In practice, it frequently occurs that some of the grain becomes cracked or blistered in the drier. This results from the pressure and dryness of the air in those parts of the drier where the blast contacts with the grain initially, and from the uneven heating and drying of the different portions of the kernels, causing uneven and sudden shrinkage of one portion of the kernel before another has been treated. An apparatus for overcoming this deterioration of the grain in the drying process by impregnating the hot air with a small per cent. of moisture sufficient to prevent the cracking-and'blisterihg of the grain, Without materially interfering with the drying process, is set forth in Letters Patent N 0. 1,001,259, granted August 22, 1911, to Wynn E. Ellis.
One object of the present invention is to provide an improved apparatus of this type in e which the air, after having passe through the damp grain, is drawn through the upper portion of a subjacent cooler. By passing the moist air through the upper portion of the cooler, more direct air passages can be employed for returning the air to the blower. This result is attained by providing direct passages through the upper portion of the cooler.
A further object of the invention is to provide a grain drier which is formed of sections having pressure and exhaust flues therein, the sections being assembled so that the spaces between the sections or grain shafts may be easily varied according to the width of the grain column desired.
Lastly, the invention designs to provide a grain drier which is simple in construction, has a large capacity and which may be produced at a low cost.
The invention consists in the several novel teatureshereinafter set forth and more particularly' defined by claims at the conclusion hereof.
In the drawings: Figure 1 is a vertical section of a grain drierand cooler embody-.
ing the invention. Fig. 2 is a section taken on line 22 of Fig. 1. Fig. 3 is a section taken on line 3-3 of Fig. 1. Fig. 4 is a vergrain shafts and the air flues between them.
Fig. 6 is a section taken on line 6-6 of Fig. 5. Fig. 7 is a perspective of the upper portion of the drier, parts being broken away.
The improved apparatus is illustrated as erected in a suitable inclosing structure 10 and comprises a drier 11 in which the grain is subjected to a blast of hot air, and a cooler 12 into which the grain passes from the drier in which the grain is subjected to a blast of cold air. Grain is delivered into the drier from a suitable garner 14, as well understood in the art. .A. suitable valve 15 is disposed below the drier 11, and controls the discharge of material from the drier into the upper end of the cooler. A similar valve 16 controls the discharge of grain from the cooler. By closing these valves, a charge of grain ma be treated as long as desired. Cold air om a compartment 17 formed between horizontalwalls 18 and 19 passes through the cooler 12 to a trunk 20 which leads to the intakes of a blower 21. This blower discharges the blast through a pipe 22 into a trunk 23 which supplies air to the supply flues of the drier 11. In the transit to the drier, the air is heated by a suitable heater 24. The air blast, after passing through the drier, is divided by a wall 25, that portion of the air escaping from the drier above said wall passing to the atmosphere and the portion of the airpassing into the chamber 26 below wall 25 passing through a grating: 27 in the floor 28 into a chamber 29. The air passing into the chamber 29 from the drier is impregnated with moisture, for the purpose of reventing the air-supply to the drier from eing sufliciently dry to blister the grain. This air passes through the upper portion of the cooler to a trunk 20, as hereinafter more fully set forth. 4
The drier 11 comprises a series of vertical grain-shafts 30, each adapted to hold grain in a columnar mass. The sides of these shafts are formed by vertically extending flue structures made up of similar units. Each. of these structures comprises four standards 31 disposed at thecorners thereof and formed of angle iron, one flange 32 of which extends inwardly along the side of one of the grain shafts and the other flange 33 extends crosswise of the shaft. These standards are secured together in spaced relation so that the sides of the flue structures will form the sides of the grain shafts by strips 34 which overlap the flanges 33 of two adjacent fluef structures, bars or plates 35 extending across the ends of said structures and bolts 36 which clamp the strips 34 against the flanges. The standards 31 are thus clamped between bars 35 and the strips 34. An important advantage of this construction is that the drier may be erected with grain shafts of different Widths. It will be manifest that the flue structures may be separated more or less within the limits of the overlap of strips 34 and flanges 35 without varying the construction of the fluestructure or necessitating special construction for each width of shaft desired.- In some instances, narrow grain shafts are desired so that the grain will be more efl'ec tively and quickly dried, while in other instances wider grain shafts are desired. If desired, reinforcing strips 38, welded to strips 34, may be interposed between the flanges 33 ofthe standards of adjacent flue structures. Strips 34 and the standards 31 form endclosures for the grain shafts. Obviously, any number of these flue structures may be thus assembled to form a drier of the desired capacity without variation of the flue structures and by providing bars 35 of the necessary length to secure all of the structures together.
Each flue structure comprises a vertical series of sheet metal plates, each having a vertically extending portion or wall 40 forming a closed side of a flue, an inclined Wall 41, forming a dividing wall between vertically adjacent flues, and a vertical flange 42 adapted to overlap the upper end'of a subjacent plate. These plates have their vertical walls alternately disposed on the opposite sides of the structure, to form flues opening alternately into the grain shafts on opposite sides of the structure. An inclined deflector strip 44 extends across the lower portion of the open side of each flue, projects slightly into the adjacent grain shaft and is secured in separated relation to or above the inclined wall 41. A. strip of screen cloth 45 forms the open side of each flue,-extends from each deflector-strip 44 upwardly to the upper end of the vertical wall 40 of each flue and is secured between the overlap between a flange 42 at the lower end of one of the inclined Walls 41 and the upper end of a vertical wall 40 of vertically adjacent plates. Rivets 47 pass through strips 44, the screen-cloth 45 and the flanges 32 of the corner standards at the ends of said strips, and rigidly secure the screen- -walls 40, the upper ends of the screen-cloth 45 and the vertical flanges 42 at the lower ends of inclined Walls 41 and through the flanges 32 of the corner standards, secure inane-rt serve to reinforce or back the screen-clothand prevent it from being bulged by the grain in the shafts. An important attribute of this manner of building the flue structure is that comparatively short pieces of screen cloth may be utilized in lieuof extending a sheet of such cloth from the top to the bottom of the grain shaft to avoid joints between the pieces. Another important attribute of this construction is that the walls 41. are inclined sufficiently to prevent broken grain from accumulating thereon, because any such material carried through the screen-cloth by the air blast and not carried away with the blast will slide down the inclined walls 41 and under deflector-strips 44 back into the grain column. Furthermore, each flue structure being composed essen-- tially of sheet metal strips and comparatively small pieces of screen cloth, can be secured to the corner standards with facility, and the height of the structure may be built up to any height desired, Channel-bars 54 hold the upper ends of corner standards 31 in spaced relation and ll-shaped top-strips 55 direct the grain into the shafts between the flue-structures. The outer side of each end. flue-structure is closed by an imperforate sheet 40.
Cross-bars 35 are alternately disposed on the opposite ends of the shaft to close the exhaust lines at that end at which the supply chamber is disposed and to close the pressure fiues at that end at which the exhaust chamber is located. These bars 35 are of sufficient height to close two rows of fiues having their opposite sides opening into adjacent grain shafts respectively. The pressure dues for each of the grain shafts are oppositely disposed at the sides thereof, and the exhaust lines are correspondingly disposed so that the air blast will pass into the grain column at both sides thereof and will be directed Vertically between the Walls 40 of the intermediate flues. Resultantly, the air blast passes into the grain column at both sides thereof and thence vertically through the column at the adjacent exhaust fines, as indicated by arrows in Fig. 5. The closed sidesof the lines for one shaft serve as division walls for'dir'ectin'gthe blast vertically in the adjacent grhinshaft; As aresult of this formation, the'vertical series of lines between the shafts open" alternately into the shafts respectively,% 'and have closed or imperforate walls at OIIG'SIdG which form the division walls for directing the blast vertically in the adjacent lines, and the pressure and exhaustflues for one shaft are separated or spaced apartby the intermediate flues for the adjacent shafts, thus making it possible to'utilize all the space between the grain shafts for flues.
The flue structure set forth is utilized in the drier and the cooler. To provide a di rect return for the moist air in chamber 29,
the upper portion of the cooler above the wall 19 is provided with direct passages 56 therethrough. Below the wall 19 the flue structures of the cooler are the same as those employed in the drier. The direct passages 56 in the cooler are formed by extending the screen-cloth 57 continuously from the uppermost pressure flue to the top of the cooler.
Channel bars 58 are secured between the screen-cloth to support it andv direct flues 56 open at both ends extend transversely through the cooler. As a result, the suction blower 21 will draw cold air from the chamber 17 through the pressure and exhaust lines in the cooler and Will draw some moist air from chamber 29 directly through the dues 56. This moist air, and air which has passed through the cooler 12, will be mixed in trunk 20 and will pass into the eyes of suction blower 21 which will force that air through the heater 24 and trunk 23 into the.
pressure dues of the drier 11.
-Valves 59 are pivoted to the inlet end of the cooler adjacent the direct lines 56 to regulate the supply of moist air taken from the drier, so that moist air, inthe necessary quantity to prevent the hot air being forced to the pressure fines of the drier, will not blister or crack the grain. Valves 59 may be opened more or less and secured in assigned .position by bolts 59 which are adapted to pass throughslots in arcuate bars 59* to ifrary the amount of moist air supplied to the an. i
In operation, the dust in the grain in the drier will be carried oil by the air, but the broken grain and heavier particles, as well as very small grain, which may be forced through the screen-cloth 45, will fall on the inclined bottoms 41 of the fines, from which it will pass back into the grain shafts. In this manner accumulation of these particles and choking of the fines will be avoided, and, if at any time the blast should prevent these particles from passing back into the grain shafts, the fines will discharge the accumulation whenever the blast has stopped and the grain shafts are emptied.
. The invention thus exemplifies a flue structure for grain driers or coolers in which the division walls which divide the flue structure into a vertical series of flues are inclined to prevent accumulation of grain, and which are in effect self-cleaning. The invention also exemplifies an improved flue structure which is made up of plates and short sections of screen-cloth which can be readil assembled. The invention also exempli es an improved apparatus in which the flue structures may be readily built with vertical grain shafts of different widths. The invention also exemplifies an improved cooler which is provided with direct air passages for the moist air from the drier.
The invention is not to be understood as restricted to the details set forth, but may be varied within the scope of the appended claims without departing from the spirit of the invention.
Having thus described the invention, what I claim as new and desire to secure by Letters Patent, is:
1. In apparatus ofthe charater described, the combination of a series of grain shafts and flue structures between said shafts comprising plates dividing the spaces between said shafts into a vertical series of transversely extending flues and having vertically extending walls formed to close one side of a flue and inclined bottom walls for directing material passing into the flue back into a grain shaft.
2. In apparatus ofthe character described, the combination of a series of grain shafts :and flue structures between said shafts, comprising separate plates dividing the spaces between said'shafts into a vertical series of transverse flues and each plate forming a vertically extending wall to form a closed side of aflue and an inclined bottom wall for directing material passing int'o the flue back into a grain shaft.
3. In apparatus of the character described, the combination of a series of grain shafts and flue structures between said shafts, comprising separate plates dividing the spaces between the shafts into a vertical series of transverse flues, each plate having a ver-' tically extending wall ,to form a closed side of a flue and an inclined bottom wall for directing material passing into the flue back into a grain shaft, the ends of the plates being overlapped and secured together.
4. In apparatus of the character described, thecombination of a series of grain shafts, flue-structures between said shafts comprising plates dividing the spaces between the grain-shafts into a vertical series of transverse flues and having vertically extending walls to close one side of the flues and an inclined bottom wall for directing material passing into the flue back into a grain-shaft, and means for closing one end of each flue.
5. In apparatus of the character described, the combination of a series of grain shafts and flue structures between said shafts comprising plates, dividing the spaces between the shafts into a vertical series of transverse flues and having vertically extending walls to close one side of a flue and inclined bottom walls for directing material passing into the flue back into a grain shaft, the alternating inclined bottom walls of the flues being dlsposed to discharge the material into the grain shafts at the opposite sides of the flue structure respectively.
6. In apparatus of the character described, the combination of a series of grain shafts and flue structures between said shafts comprising separate plates dividing the spaces between said shafts into a vertical series of transverse flues, each plate having a vertically extending wall to form a closed side of a flue and an inclined bottom wall for directing material passing into the flue back mto a grain shaft, the alternating inclined bottom walls of the flues being disposed to discharge the material into the grain shafts at the opposite sides of the flue-structure respectively.
7. In apparatus of the character described, the combination of a series of grain shafts and flue-structures between said shafts comprising separate plates dividing the spaces between'the shafts into a vertical series of transverse flues, each plate having a vertically extending wall to form a closed side of a flue and an inclined bottom wall for directing material passing into the flue back into a grain shaft, the alternating inclined bottom walls of the flues being disposed to discharge the material into the grain shafts at the opposite sides of the flue structure respectively, the ends of the plates being overlapped and secured together.
8. In apparatus of the character described, the combination of a series of grain shafts, flue structures between said shafts comprising plates dividing the spaces between the grain-shafts into a vertical series of transverse flues and having vertically extending --walls to form a closed side of a flue and an inclined bottom wall for directing material passing into the flue back into a grain shaft, the alternating inclined bottom walls of the flues being disposed to discharge the material into the grain shafts at the opposite sides of the flue structure respectively, and
closing one side of the flues and an inclined bottom wall for directing material passing into the flue back into a grain shaft, and foraminous material extending over the other sides of the flues.
10. In apparatus of the character described, the combination of a series of grain shafts and flue structures between said shafts comprising plates dividing the spaces between the shafts into a vertical series of transverse flues and having vertically extending walls closing one side of the flues and inclined walls for directing material passing into the flue back into a grain shaft, and sections of foraminous material extendmg over the open sides of the lines and over the vertical walls.
11. In apparatus of the character described, the combination of a series of grain shafts and flue structures between said shafts comprising separate plates dividing the spaces between the shafts into a vertical series of transverse flues, each plate having a vertically extending wall forming a closed side of a flue and an inclined'bottom wall for directing the material passing into the flue back into a grain shaft, and sections of foraminous material extending over the open sides of the flues, the ends of the plates being overlapped, the foraminous material being secured between the overlapped ends of the plates.
12. In apparatus of the character described, the combination of a series of grain shafts and flue structures between said shafts comprising separate plates dividing the spaces between the grain-shafts into a vertical series of transverseflues, each plate having a vertically extending wall forming a closed side of a flue and an inclined bottom wall for directing material passing into the flue back into a grain shaft, and sections of foraminous material extending over the open sides of the flues, the ends of the plates being overlapped, the foraminous sections extending over the vertical walls and between the overlapping ends of the plates.
13. In apparatus of the character described, the combination of a series of grain shafts and flue structures between the shafts comprising separate plates dividing the spaces between the shafts into a vertical series of transverse flues, each plate having a vertically extending wall forming a closed side of a flue and a bottom wall, the ends of the plates being overlapped and secured together.
14. In apparatus of the character described, the combination of a series of grain shafts and flue structures between the shafts comprising separate plates dividing the spaces between the shafts into a vertical series of transverse lines, each plate having a vertically extending wall forming a closed side of a flue and a bottom wall, the ends of the plates being overlapped, and secured together, the closed sides being alternately disposed at the sides of the grain shaft respectively. i
15. In apparatus of the character described, the combination of a series of grain shafts and flue structures between the shafts, comprising separate plates dividing the spaces between the shafts into a vertical series of transverse flues, each plate having a. ,li
a vertically extending wall forming a closed side of a flue, a bottom wall, the ends of the plates being overlapped and secured together, and sections of foraminous material at the open sides of the fines.
16. In apparatus of the character described, the combination of a series of grain shafts and flue structures between the shafts, comprising separate plates dividing the spaces between the shafts into a vertical series of transverse flues, each plate having a vertically extending wall forming a closed side of a flue, a bottom wall, the ends of the plates being overlapped and secured together, and sections of foraminous material, each extending over the open side of one flue and having one end secured between the overlapping ends of adjacent plates.
17. In apparatus of the character described, the combination of a series of grain shafts and flue structures between the shafts, comprising separate plates dividing the spaces between the shafts into a vertical series of transverse flues, each plate having a vertically extending wall forming a closed side of a flue, a bottom wall, the ends of the plates being overlapped and secured together, and sections of foraminous material, each extending over the open side of a flue and over the closed side of another flue and having one 'end secured between the overlapping ends of adjacent plates.
18. In apparatus of the character described, the combination of a series of grain shafts and flue structures between the shafts, comprising separate plates dividing the spaces between the shafts into a vertical series of transverse flues, each plate having a vertically extending wall forming a closed side of a flue, a bottom wall, the ends of the plates being overlapped and secured together, and sections of foraminors material. each extending over the open side of a flue and over the closed side-of another flue.
19. In apparatus of the character de scribed, the combination of a series of grain shafts and flue structures between said shafts comprising plates dividing the spaces between said shafts into a vertical series of transverse fines and having vertically extending walls closing one side of the flues and bottom walls, sections of foraminous material at the open sides of the flues, and cross strips at the'open sides of the flues respectively and above said bottom walls, said foraminous sections terminating at said strips.
20. In apparatus of the character described, the combination of a series of grain shafts and flue structures between said shafts comprising plates dividing the spaces between the grain shafts into a vertical series of transverse flues, each plate having vertically extending walls to form a closed side of a flue and a bottom wall for a flue,
foraminous sections at the open sides of the flues and cross strips at the open sides of the flues respectively and above said bottom walls, said foraminous sections extending over a vertical wall of one flue and over the open side of another. I
21. In apparatus of the character described,.the combination of a series of grain shafts and flue structures between said shafts comprising plates dividing the spaces between the shafts into a vertical series of transverse fines and having vertically extending walls closing one Eside of the flues, and inclined bottom walls for directing material passing into the flue back into a grain shaft, and strips extending across the open sides of the flues and above said bottom walls.
22. In apparatus of the character described, the combination of a series of grain shafts and flue structures between said shafts comprising separate plates dividing the spaces between the shafts into a vertical series of transverse flues, each plate having a vertically extending wall closing one side of a flue and an inclined bottom wall for directing material passing into the flue back into a grain shaft, and strips extending across the open sides of the fiues and above said bottom walls, andhaving inclined, de-
fleeting portions in the grain shafts.
23.' In apparatus of the character described, the combination of a series of grain shafts. and flue structures between said shafts comprising plates dividing the spaces between the shafts into a vertical series of transverse flues, each plate having a vertically extending wall closing one side of a flue and bottom wall, cross-strips adjacent the bottom walls'at the open sides of the flues, and sections of foraminous material extending over the open sides of the flues,
secured to said strips and extending over the vertical walls.
24. In apparatus of the character described, the combination of a series of grain shafts and flue structures between said shafts comprising plates dividing the spaces between the shafts into a vertical series of tranverse flues, each plate having a vertically extending wall closing one side of a flue and a bottom wall, cross-strips at the open sides and adjacent the bottom walls, the plates having their ends overlapping, and sections of foraminous material extending over the open sides of the flues, and over the vertical walls and being secured between the ends of overlapping plates and to said strips.
25. In apparatus of the character described, the combination of a series of flue structures each comprising walls for dividing the structure into transversely extending flues, vertical angle bars at the corners of said structures and having flanges projectmeans overlapping said flanges to form closed ends for the spaces between the structures, and means for seeming the structures together to form grain shafts between them.
26. In apparatus of the character described, the combination of a series of flue structures each comprising walls for dividing the structure into a vertical series of transverse flues, vertical angle bars at the corners of said structures having flanges projecting from the sides of the structures, bars overlapping the side-flanges of said angle bars to form closed ends for the gpaces between the structures, and means or securing the structures together to form grain shafts between them.
27. In apparatus of the character described, the combination of a series of flue structures each comprising walls for dividing the structure into transverse flues, angle bars at the corners of said structures having flanges projecting from the sides of the structures, vertical bars overla ping said flanges of said angle bars to orm closed ends for the spaces between the structures, and cross-bars at the ends of the structures, and means for securing the vertical bars to said cross bars to form grain shafts between the structures.
28. In apparatus of the character described, thev combination of a drier, a cooler below the drier into which the grain is discharged from the drier,'means for forcing the air through the drier, flues extending through the cooler, means for conducting a portion of the air which has passed through the drier to said flues in the cooler and means for conducting air from saidflues to the forcing means. v
29. In apparatus of the character described, the combination of a drier, a cooler below the drier into which the grain is discharged from the drier, means for forcing air through the drier, flues extending directly through the cooler so the air will not pass through the grain in the cooler, and means for conducting a portion of the air which has passed through the drier to said flues, and means for conducting air from said flues to the forcing means.
30. In apparatus of the character described, the combination of a drier, a cooler below the drier into which the grain is discharged from the drier, the drier and cooler comprising grain shafts and transverse flues, means for forcing the air through the drier, fines extending directly through the cooler through which air will pass without passing through the grain therein, means for conducting air which has passed through the drier to said direct flues, and means for conducting air from said flues to the forcing means.
31. In apparatus of the character de below the drier into scribed, the combination of a drier, a cooler below the drier into which the grain is discharged from the drier, means for forcing the air through the drier, flues extending directly through the cooler, means for conducting a portion of the air which has passed through the drier to said direct fiues, means for conducting air from said flues to the forcing means, and valves for regulating the flow of air through said fiues.
In. apparatus of the character described, the combination of a drier, a cooler which the grain is dis-
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Cited By (12)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2441357A (en) * 1938-07-30 1948-05-11 Joseph Hibbert & Company Ltd Apparatus for drying and cooling fabrics
US2546733A (en) * 1946-12-12 1951-03-27 Enestvedt Odean Single-vaned rotary discharge assistant operable in a side outlet of a container for granular material, and a weighted apron engaging said vane in its outermost position
US2764819A (en) * 1952-09-04 1956-10-02 Zander & Ingestroem Method for drying granular material
DE1067372B (en) * 1952-09-03 1959-10-15 Zander & Ingestroem Method of drying grain
US3238637A (en) * 1961-12-22 1966-03-08 Massey Ferguson Inc Grain dryer
US3406463A (en) * 1966-08-05 1968-10-22 Andersen Arthur Arnold Grain drier
US3747225A (en) * 1971-12-01 1973-07-24 E Alms Anti-pollution screen for agricultural dryer and method of removing pollutants
US4142302A (en) * 1977-03-16 1979-03-06 Primus David R Multiple bin heat recycled grain drying
US4555858A (en) * 1981-10-21 1985-12-03 "Oktober 6" Mezogazdasagi Termeloszovetkezet Method and device for low energy consumption or granular products or the like containing moisture fixed or deposited at the surface with a constant yield
US20150260455A1 (en) * 2014-03-12 2015-09-17 Ceres Method for filtering an air flow in a grain dryer
EP3421914A1 (en) * 2017-06-29 2019-01-02 SUEZ Groupe Vertical dryer
US10591212B2 (en) * 2014-03-12 2020-03-17 Ceres Device and method for drying grain

Cited By (13)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2441357A (en) * 1938-07-30 1948-05-11 Joseph Hibbert & Company Ltd Apparatus for drying and cooling fabrics
US2546733A (en) * 1946-12-12 1951-03-27 Enestvedt Odean Single-vaned rotary discharge assistant operable in a side outlet of a container for granular material, and a weighted apron engaging said vane in its outermost position
DE1067372B (en) * 1952-09-03 1959-10-15 Zander & Ingestroem Method of drying grain
US2764819A (en) * 1952-09-04 1956-10-02 Zander & Ingestroem Method for drying granular material
US3238637A (en) * 1961-12-22 1966-03-08 Massey Ferguson Inc Grain dryer
US3406463A (en) * 1966-08-05 1968-10-22 Andersen Arthur Arnold Grain drier
US3747225A (en) * 1971-12-01 1973-07-24 E Alms Anti-pollution screen for agricultural dryer and method of removing pollutants
US4142302A (en) * 1977-03-16 1979-03-06 Primus David R Multiple bin heat recycled grain drying
US4555858A (en) * 1981-10-21 1985-12-03 "Oktober 6" Mezogazdasagi Termeloszovetkezet Method and device for low energy consumption or granular products or the like containing moisture fixed or deposited at the surface with a constant yield
US20150260455A1 (en) * 2014-03-12 2015-09-17 Ceres Method for filtering an air flow in a grain dryer
US10591212B2 (en) * 2014-03-12 2020-03-17 Ceres Device and method for drying grain
EP3421914A1 (en) * 2017-06-29 2019-01-02 SUEZ Groupe Vertical dryer
WO2019002605A1 (en) * 2017-06-29 2019-01-03 Suez Groupe Vertical dryer

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