US2219233A - Drying tumbler - Google Patents

Drying tumbler Download PDF

Info

Publication number
US2219233A
US2219233A US267080A US26708039A US2219233A US 2219233 A US2219233 A US 2219233A US 267080 A US267080 A US 267080A US 26708039 A US26708039 A US 26708039A US 2219233 A US2219233 A US 2219233A
Authority
US
United States
Prior art keywords
drum
air
head
door
opening
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
US267080A
Inventor
Locke Sanford Jay
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
US Hoffman Machinery Corp
Original Assignee
US Hoffman Machinery Corp
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by US Hoffman Machinery Corp filed Critical US Hoffman Machinery Corp
Priority to US267080A priority Critical patent/US2219233A/en
Application granted granted Critical
Publication of US2219233A publication Critical patent/US2219233A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F26DRYING
    • F26BDRYING SOLID MATERIALS OR OBJECTS BY REMOVING LIQUID THEREFROM
    • F26B11/00Machines or apparatus for drying solid materials or objects with movement which is non-progressive
    • F26B11/02Machines or apparatus for drying solid materials or objects with movement which is non-progressive in moving drums or other mainly-closed receptacles
    • F26B11/028Arrangements for the supply or exhaust of gaseous drying medium for direct heat transfer, e.g. perforated tubes, annular passages, burner arrangements, dust separation, combined direct and indirect heating

Definitions

  • This invention pertains to driers or tumblers..
  • the structure is such that the air passes inwardly of the drum at the center of the front head andis withdrawn at the periphery of the opposite head, thus causing a, fanning out of the air as it travels through the cylinder. VThis ensures the circulation and intimate contact between the heated air and goods being treated, as above adverted to.
  • Figure 1 is a vertical sectional view taken on the line I-I of Fig. 2, or longitudinally of the drum;
  • FIG. 2 a front elevation of the machine, portions being broken away and in section;
  • Fig. 3 a vertical sectional view on the line III-III of Fig. 1, showing more particularly the rear head of the drum and the combined supporting frame and air current deilector or control plate; Y
  • FIG. 4 an end elevation of the upper portion of the front end of ,the machine, showing the door employed to close the opening affording in.-
  • FIG. 5 an elevation of the upper porti'on of 5 the rear end of the machine, showing particularly the lmounting of the suction fan, its driving motonand the motor for driving the rotatable shell or drum;
  • Fig. 6 a perspective view of the front frame member and associated elements
  • Fig. 7 a -detail view showing the means employed to secure one ofthe sealing strips to the outer face of the drum.
  • Fig. 8 a detail sectional view showing a modi- 15 ed form of damper or valve controlling the inlet of air from without.the structure for modifying the temperature of the indrawn heated air.
  • the base of the frame comprises a. sheet II having upturned anges, as at I2, which are fastened to vertically disposed front and rear members I3'and I4, respectively.
  • the forward face of the plate I3 extends the full height of the machine and at its upper edge is formed upon a radius coincident with the axis of the drum.
  • An annular member. I1 has its forward edge secured to the inner face of the plate I3 and is welded to the upper edge of each of the iianges I5 and I6.
  • the forward edge of the member I1 40 is cut out, forming a series of notches which, tov gether with the front plate, produce openings I8 through which air is drawn in a manner later to be described.
  • a plate I9 Secured to the anges I5 and I6 and to the lower face of the annular member 45 I1 is a plate I9 having an elongated opening 2l formed therein. Extending inwardly from the lower portion of the plate I9 is a horizontally disposed wall 22 (Figs. 1 and 6), the forward edge whereof is welded to the inner face of the plate I3. There is thus produced a chamber 23 which is in direct communication with the openings I8.
  • the plate I9 has secured v'to its inner face a heating unit comprising an open-ended trunk or bOX 24 in which is mounted a heating unit 25 55 of the coil and n type, or any other suitable air heating element.
  • a heating unit comprising an open-ended trunk or bOX 24 in which is mounted a heating unit 25 55 of the coil and n type, or any other suitable air heating element.
  • the front plate I3 is provided with a Vplurality of openings 26 controllable by a slide damper 21 or the like (see more particularly Fig. 2).
  • the plate I3 has formed therein a circular opening, the axis whereof is coincident with the axis of the drum, and a combined door frame and air deiiector is mounted in the opening and secured to the plate.
  • vIt may -be said to comprise an outer flange 28 (Fig. 4) which is bolted or otherwise secured to the outer face of the member I3, land an inwardly extending collar 29 which is provided in its upper portion with inlet openings 3
  • a door 32 is provided which is of such dimension as to overlie the flange 28 (see Fig. 1) and to make close contact therewith when the door is closed and secured in position.
  • the door is a hinged one and in the form illustrated, the supporting elementA com-prises a Y-shaped casting 33 (Fig. 4) the outer ends of which cooperate with a pintle 34 which is supported by gudgeons or lugs 35 ⁇ extending outwardly from the flange 28.
  • 'I'he casting 33 is provided with a hollow element 36 which stands in line with the center of the door, and'a bolt 31 extends through the door and through the outer wall of the element 36.
  • a spring i38 (Fig. 1) encircles the bolt, and acting against the door and the inner face of the member 36, tends to force the door tightly against the flange 28.
  • a latch 39 pivoted to the -free end of the casting 33 is designed to 'be thrown downwardly into engagement with a fixed keeper 4I which extends outwardly from the door frame.
  • the rotatable drum is mounted between the frame members I3 and I4. It comprises an imperforate cylindrical shell 42 having a forward head 43 which is provided with a circular opening dened by an outwardly extending flange 44, the opening being slightly larger than the diameter of the collar 29 which is in axial alignment therewith. 'Ihe opposite head is denoted by 45 and a series of openings 46 are formed therein adjacent the periphery thereof. In other words, there are several annular series of openings located between the outturned flange 41 of the head 45 which is secured to the cylindrical shell and to a frame member. Said frame member has formed integrally therewith a stub shaft 48 extending outwardly from a series of radiating arms 49 interconnected with a ring 5I which is directly bolted as at 52 against the head 45 of the drum.
  • bolts 53 extend through the outer ends of the members 49, through the head 45, and through the opposite head 43. Not only do these through bolts 53 tie the head together, but they form the support for a series of inwardly or radially extending elements or flights 54 .formed of sheet metal or other suitable material. 'I'hese flights assist in the cascading 320V@- ments above referred to. Where sheet metal is employed, the inner edges or those which contact the shell 42 of the drum, are welded thereto or otherwise suitably secured in place.
  • Plate I4 has inwardly projecting flanges 55 and 56 which extend upwardly to the same height and terminate parallel with the axis of the drum. Secured to the inner face of the plate and to the upper edges of said flanges 55 and 56 is an annular member 51, and the upper portion of the plate I4 is contoured similarly to the upper portion of the forward plate I3, to receive this annular member.
  • the members I1 and 51 form, in effect, ilxed annular ways or tracks against which sealing elements carried by the drum bear.
  • Said elements may take various forms, but in the instant case each one is produced from a strip 58 of heavy felt bent in U-form (Figs. 1 and 7) and held flxedly to the outer face of the drum adjacent the heads thereof by a metallic band 59, the adjacent ends whereof are upturned and a bolt 6I is passed therethrough, whereby the band may be placed under tension, forcing the innermost portion of the felt strip tightly against the drum.
  • the felt employed is quite thick and has a tendency after it is once bent into U-form, to assume its straight or flat condition, hence close contact will be maintained at all times between the annular tracks I1 and 51, whether the drum be stationary or rotating.
  • the rear plate I4 in line with the lower portion of the drum, is provided with an outwardly extendingneck or flange 66 (Fig. 1), to which is secured a fan housing 69 having a suction fan 1I located therein.
  • the fan is driven by an electric motor 12 mounted on a bracket 13 secured to a rigid plate which forms a part of the fan housing.
  • the drum may be rotated at the desired speeddndependently of the action of the fan, or the drum may be allowed to remain stationary while the fan is operating.
  • the door 32 being open, the goods impregnated with water or cleansing uid are introduced through the collar 29 and into the opening dened by the flange 44 in the forward head of the drum.
  • the door is closed and locked, and if the fan be started, suction will be set up through the box-like element 24.
  • the air becoming heated by the unit 25 passes into the chamber 23, thence upwardly through the openings I8 and around and about the collar 29. It then passes into the drum between the periphery of the collar 29 and the inturned flange 44, which are spaced apart, (Fig. 1), and also through the openings 3l in the upper portion of thecollarl 29 and thence directly into Ythe drum.
  • the air is brought into direct contact with the articles or goods being treated adjacent the center of the drum, and cornes into contact therewith throughout the length of the drum and finally passes toward the outer portion of the drum through the openings 46 in the head 45.
  • Air is thus precluded from taking a drect short course through the drum longitudinally thereof but, on the other hand, is caused to fan out from the central opening at the head end of the machine toward and through the openings in the rear head of the drum, which are located adjacent the periphery thereof, thereby bringing the heated air into intimate contact with the articles as they are cascaded from the radial elements or flights 5l.
  • the farming out of the air takes place and maximum contact between the heated air and the cascading articles inheres.
  • the packing interposed between the outer surface of the drum adjacent each end and the annular tracks I'I and 51 shuts off any ingress of air exteriorly of the drum at the forward end of the machine, and prevents the indrawing of air about the rear end of the drum and into the space or chamber formed between the drum head 45, the rear wall Il and the annular track 51.
  • the cylinder must have a rotative speed of between 41 R. P. M. and 43 R. P. M., and this is more or less true regardless of the nature of the goods undergoing treatment. At such speed, the goods fall away from the cylinder ribs and wall at about the l0 or 11 oclock position and fall downwardly toward the center. In other words, at the speed just mentioned as near perfect loosening or cascading of the load inheres as is possible.
  • the temperature of the air which passes through the goods is controlled by opening the cold air damper, be it of the form shown in Figs. 1, 2 and 4, or Fig. 8.
  • a modified 'form of the inlet Valve for controlling the temperature of the heated air passing through the structure is illustrated in Fig. 8.
  • is employed ⁇ to close a single opening 82 formed in the wall I3.
  • a gravitating latch 83 pivoted at 8l is provided in its lower edge with a series of notches 85, 86, adapted to engage the upper edge of the door as the same is moved inwardly against the tension of the spring hinge.
  • the forward end of the latch extendsoutwardly of the w-all I 3 :to a slight extent so that it may be manipulated to release the door and allow it to close under the action of the spring.
  • a shell-'less drier the combination of .two oppositely disposed vertical frames; a drum having an imperforate cylindrical wall and two perforate heads, said drum being located between said frames, said heads together with the respective frames for-ming chambers one adjacent each end of the drum which chambers are in communicaition with the interior of the drum through the perforations in the heads; means associated with one chamber for withdrawing air therefrom; means for heating air, said means being in communication with the other chamber aforesaid; means located exterior-ly of the dr-um adjacent each end thereof for sealing the chambers against the ingress of air from without; and ⁇ means for rotating the drum.
  • a shell-less drier In a shell-less drier, .the combination of a drum and said tracks closing the space between said elements against .the passage of air; means for causing a flow of air through saidv drum, one head of said drum being provided with at least one opening adjacent its center for fthe inflow of air while the opposite head is provided with a series of openings adjacent its periphery whereby the air stream is caused to diverge as it is passed .through the drum in contact with .the goods being cascaded therein.
  • a shell-less drier the combination of a pair of frames standing in spaced relation; a cylindrical drum mounted therebetween, the cylindrical portion whereof is imperforate; means for ⁇ sealing said drum with respect to the frames to prevent the iniiowing of air therebetween; a head at one end of the drum having at least a central opening therein; a head at ⁇ the opposite end of the drum provided with a series of. openings adjacent the periphery thereof and means for drawing air through .the opening in the first named head and outwardly through .the openings in the second rnamed head, whereby the air is caused in its passage to spread 'or diverge and be brought into direct contact with the goods cascaded within the drum as the latter is rotated.
  • a drying apparatus comprising a frame having a drum lrotatably mounted in overhung relation thereto, said drum having an imperforate periphery, and two perforate heads, the head remote from .the drum mounting having its perforation in the form of a central door opening air heating means in communication with the door opening in the drum; stationary means for enclosing the ends of the drum, said means forming a part of said frame and including a door carried by said frame in alignment with the door opening in the drum; means for rotating the drum; means for circulating heated air axially through said drum; and air; sealing means between the drum and frame to prevent the heated air from passing around the outside of said drum.
  • Drying apparatus comprising relatively spaced front and rear frame members, said front member having a door opening therein; a drum including a cylindrical wal-l and forward and rear heads, said drum being located between said members, the cylindrical wall of the' drum being imperforate, the :front drum head having a centra-1 opening in alignmenft with the door opening in said front frame member, and the rear drum head. having a. series of openings in proximity to .the periphery of Ithe head; means for supporting the drum from .the rear frame member in overhung relation thereto; means for rotating 'the drum; sealing means interposed between said

Landscapes

  • Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • Thermal Sciences (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Detail Structures Of Washing Machines And Dryers (AREA)
  • Drying Of Solid Materials (AREA)

Description

S. J. LOCKE DRYING TUMBLER Oct. 22, 1940.
Filed April 10, 1939 4` Sheets-Sheet l Cttornegs oct. 22, 1940. s, J, LOCKE 2,219,233
DRYING TUMBLR Filed April 10, 1939 4 Sheets-Sheet 2 l'mventor SMO/zb MM2, Bg mi@ u um Gttornegs Oct. 22, A1940. s, 1C LOCKE 2,219,233
DRYING TUMBLER Filed April 10, 1959 4 Sheets-Sheet 3 Z6 l'hwentor SMO/@Miam mw mi INM Gttornegf Oct. 22, 1940. s, J, LOCKE 2,219,233
DRYING TUMBLER Filed April 10, 1939 4 Sheets-Sheet 4 Patented Oct. 22., 1940 UNITED STATES DRYING TULIBLEB Sanford Jay Locke, Syracuse, N. Y., assignor to United States Hoffman Machinery Corporation, New York, N. Y., a corporation of Delaware Application April 10, 1939, Serlal No. 267,080
Claims.
This invention pertains to driers or tumblers..
and more particularly to those of the rotary drum type wherein air, preferably heated, is caused to pass longitudinally of the drum and 5 into direct contact with the goods which are cascaded therein due to the rotary movement of vCil opening for the introduction of the goods to be o treated, and, likewise, forming a passage for indrawn heated air; a head at the opposite end having openings therein for the egress of spent air; means for withdrawing such air;` a framework for supporting the drum and motors for rotating the same and exhausting the air therefrom; and sealing means located at each end of the drum, said means cooperating with elements of the supporting frame structure to ensure the desired path of flow of air'through the drum. Such a structure does away with the necessity of a surrounding shell or casing, and
thereby materially reduces the cost of production.A
Again, the structure is such that the air passes inwardly of the drum at the center of the front head andis withdrawn at the periphery of the opposite head, thus causing a, fanning out of the air as it travels through the cylinder. VThis ensures the circulation and intimate contact between the heated air and goods being treated, as above adverted to.
The machine is illustrated in the annexed drawings, whereinf Figure 1 is a vertical sectional view taken on the line I-I of Fig. 2, or longitudinally of the drum;
Fig. 2, a front elevation of the machine, portions being broken away and in section;
Fig. 3, a vertical sectional view on the line III-III of Fig. 1, showing more particularly the rear head of the drum and the combined supporting frame and air current deilector or control plate; Y
Fig. 4, an end elevation of the upper portion of the front end of ,the machine, showing the door employed to close the opening affording in.-
gress to and egress from the tumbler, and also illustrating a damper employed to modify the temperature of the indrawn heated air which passes to the tiunbler;
Fig. 5, an elevation of the upper porti'on of 5 the rear end of the machine, showing particularly the lmounting of the suction fan, its driving motonand the motor for driving the rotatable shell or drum;
Fig. 6, a perspective view of the front frame member and associated elements;
Fig. 7, a -detail view showing the means employed to secure one ofthe sealing strips to the outer face of the drum; and
Fig. 8; a detail sectional view showing a modi- 15 ed form of damper or valve controlling the inlet of air from without.the structure for modifying the temperature of the indrawn heated air.
In the drawings, it will be-seen that the major portion of the machine is produced from sheet metal, the various iixed elements whereof may be welded or otherwise secured throughout to ensure stability.
The base of the frame comprises a. sheet II having upturned anges, as at I2, which are fastened to vertically disposed front and rear members I3'and I4, respectively. At each edge of the front plate I3 there is provided an inwardly extending vertical flange, denoted by I5 and I6, respectively (Figs. 2 and 6), said flanges being 30 of the same height and terminating at their upper ends parallel with the axis of the drum, hereinafter referred to. The forward face of the plate I3 extends the full height of the machine and at its upper edge is formed upon a radius coincident with the axis of the drum.
An annular member. I1 has its forward edge secured to the inner face of the plate I3 and is welded to the upper edge of each of the iianges I5 and I6. The forward edge of the member I1 40 is cut out, forming a series of notches which, tov gether with the front plate, produce openings I8 through which air is drawn in a manner later to be described. Secured to the anges I5 and I6 and to the lower face of the annular member 45 I1 is a plate I9 having an elongated opening 2l formed therein. Extending inwardly from the lower portion of the plate I9 is a horizontally disposed wall 22 (Figs. 1 and 6), the forward edge whereof is welded to the inner face of the plate I3. There is thus produced a chamber 23 which is in direct communication with the openings I8.
The plate I9 has secured v'to its inner face a heating unit comprising an open-ended trunk or bOX 24 in which is mounted a heating unit 25 55 of the coil and n type, or any other suitable air heating element. In order to temper the air which is drawn into the drum from the chamber 23, that is, to add cold air in regulated quantities to the air passing from the heating unit 25, the front plate I3 is provided with a Vplurality of openings 26 controllable by a slide damper 21 or the like (see more particularly Fig. 2).
The plate I3 has formed therein a circular opening, the axis whereof is coincident with the axis of the drum, and a combined door frame and air deiiector is mounted in the opening and secured to the plate. vIt may -be said to comprise an outer flange 28 (Fig. 4) which is bolted or otherwise secured to the outer face of the member I3, land an inwardly extending collar 29 which is provided in its upper portion with inlet openings 3| for the indrawn heated air.
To close the outer end of the collar 29 through which the articles to be treated are introduced and withdrawn, a door 32 is provided which is of such dimension as to overlie the flange 28 (see Fig. 1) and to make close contact therewith when the door is closed and secured in position. The door is a hinged one and in the form illustrated, the supporting elementA com-prises a Y-shaped casting 33 (Fig. 4) the outer ends of which cooperate with a pintle 34 which is supported by gudgeons or lugs 35 `extending outwardly from the flange 28. 'I'he casting 33 is provided with a hollow element 36 which stands in line with the center of the door, and'a bolt 31 extends through the door and through the outer wall of the element 36. A spring i38 (Fig. 1) encircles the bolt, and acting against the door and the inner face of the member 36, tends to force the door tightly against the flange 28.
When the door is closed, with the parts in the position indicated in full lines in Fig. 4, a latch 39 pivoted to the -free end of the casting 33 is designed to 'be thrown downwardly into engagement with a fixed keeper 4I which extends outwardly from the door frame. By throwing the latch upwardly, the door may be readily unlocked and swung clear of the opening which it normally closes, and may thus afford full access to the drum which stands in line with the opening.
The rotatable drum is mounted between the frame members I3 and I4. It comprises an imperforate cylindrical shell 42 having a forward head 43 which is provided with a circular opening dened by an outwardly extending flange 44, the opening being slightly larger than the diameter of the collar 29 which is in axial alignment therewith. 'Ihe opposite head is denoted by 45 and a series of openings 46 are formed therein adjacent the periphery thereof. In other words, there are several annular series of openings located between the outturned flange 41 of the head 45 which is secured to the cylindrical shell and to a frame member. Said frame member has formed integrally therewith a stub shaft 48 extending outwardly from a series of radiating arms 49 interconnected with a ring 5I which is directly bolted as at 52 against the head 45 of the drum.
In addition to fastening said frame member by the bolts 52, longer bolts 53 extend through the outer ends of the members 49, through the head 45, and through the opposite head 43. Not only do these through bolts 53 tie the head together, but they form the support for a series of inwardly or radially extending elements or flights 54 .formed of sheet metal or other suitable material. 'I'hese flights assist in the cascading 320V@- ments above referred to. Where sheet metal is employed, the inner edges or those which contact the shell 42 of the drum, are welded thereto or otherwise suitably secured in place.
Plate I4 has inwardly projecting flanges 55 and 56 which extend upwardly to the same height and terminate parallel with the axis of the drum. Secured to the inner face of the plate and to the upper edges of said flanges 55 and 56 is an annular member 51, and the upper portion of the plate I4 is contoured similarly to the upper portion of the forward plate I3, to receive this annular member.
The members I1 and 51 form, in effect, ilxed annular ways or tracks against which sealing elements carried by the drum bear. Said elements may take various forms, but in the instant case each one is produced from a strip 58 of heavy felt bent in U-form (Figs. 1 and 7) and held flxedly to the outer face of the drum adjacent the heads thereof by a metallic band 59, the adjacent ends whereof are upturned and a bolt 6I is passed therethrough, whereby the band may be placed under tension, forcing the innermost portion of the felt strip tightly against the drum. The felt employed is quite thick and has a tendency after it is once bent into U-form, to assume its straight or flat condition, hence close contact will be maintained at all times between the annular tracks I1 and 51, whether the drum be stationary or rotating.
'Secured to the outermost face of the rear wall I4 are two vertically disposed angle plates 62 and 63, standing in parallelism (Fig. Secured to the opposed faces of these plates are short length angle plates, 64 and 65, respectively, which latter form the support for a spider frame in which is mounted the bearing for the stub shaft 43. The shaft ex.ends outwardly of the bearing, as indicated in dotted lines in Fig. 1, and an electric motor 61 drives the shaft through a worm and Worm gear. Any suitable mounting may be employed, but the presence of the relatively long angle irons 62 and 63, together with the shorter members 64, 65, tends to stiifen the rear plate so as to properly support the weight of the drum and the goods which may be placed therein.
The rear plate I4, in line with the lower portion of the drum, is provided with an outwardly extendingneck or flange 66 (Fig. 1), to which is secured a fan housing 69 having a suction fan 1I located therein. The fan is driven by an electric motor 12 mounted on a bracket 13 secured to a rigid plate which forms a part of the fan housing.
By employing two motors, the drum may be rotated at the desired speeddndependently of the action of the fan, or the drum may be allowed to remain stationary while the fan is operating. It
l is thought that the operation of the machine will be evident from the foregoing description, but a brief rsum will be given.
The door 32 being open, the goods impregnated with water or cleansing uid are introduced through the collar 29 and into the opening dened by the flange 44 in the forward head of the drum. When the apparatus is sufficiently charged, the door is closed and locked, and if the fan be started, suction will be set up through the box-like element 24. The air becoming heated by the unit 25, passes into the chamber 23, thence upwardly through the openings I8 and around and about the collar 29. It then passes into the drum between the periphery of the collar 29 and the inturned flange 44, which are spaced apart, (Fig. 1), and also through the openings 3l in the upper portion of thecollarl 29 and thence directly into Ythe drum.
It will thus be seen that the air is brought into direct contact with the articles or goods being treated adjacent the center of the drum, and cornes into contact therewith throughout the length of the drum and finally passes toward the outer portion of the drum through the openings 46 in the head 45. Air is thus precluded from taking a drect short course through the drum longitudinally thereof but, on the other hand, is caused to fan out from the central opening at the head end of the machine toward and through the openings in the rear head of the drum, which are located adjacent the periphery thereof, thereby bringing the heated air into intimate contact with the articles as they are cascaded from the radial elements or flights 5l. In other words, the farming out of the air takes place and maximum contact between the heated air and the cascading articles inheres.
The packing interposed between the outer surface of the drum adjacent each end and the annular tracks I'I and 51 shuts off any ingress of air exteriorly of the drum at the forward end of the machine, and prevents the indrawing of air about the rear end of the drum and into the space or chamber formed between the drum head 45, the rear wall Il and the annular track 51.
By way of example, it has been found that with a 36" diameter machine; the cylinder must have a rotative speed of between 41 R. P. M. and 43 R. P. M., and this is more or less true regardless of the nature of the goods undergoing treatment. At such speed, the goods fall away from the cylinder ribs and wall at about the l0 or 11 oclock position and fall downwardly toward the center. In other words, at the speed just mentioned as near perfect loosening or cascading of the load inheres as is possible.
The temperature of the air which passes through the goods is controlled by opening the cold air damper, be it of the form shown in Figs. 1, 2 and 4, or Fig. 8.
The modified 'form of the inlet Valve for controlling the temperature of the heated air passing through the structure is illustrated in Fig. 8. Instead of employing a slide, as heretofore described, controlling the openings leading in to the casing, a spring hinged door 8| is employed `to close a single opening 82 formed in the wall I3.
A gravitating latch 83 pivoted at 8l is provided in its lower edge with a series of notches 85, 86, adapted to engage the upper edge of the door as the same is moved inwardly against the tension of the spring hinge. The forward end of the latch extendsoutwardly of the w-all I 3 :to a slight extent so that it may be manipulated to release the door and allow it to close under the action of the spring.
From the foregoing description it will be seen that there is produced at one end of the rotatable drum a chamber into which heated air is drawn and caused to pass into the drum adjacent the axis thereof, or in other words remote from the cylindrical wall of the drum, then longitudinally through the drum and .through the openings in what may be termed the exhau-st end or head of the drum and into fthe chamber formed outwardly thereof and thence to the exhaust fan. The
articles being treated are of course cascaded' What is claimed is:
1. In a shell-'less drier, the combination of .two oppositely disposed vertical frames; a drum having an imperforate cylindrical wall and two perforate heads, said drum being located between said frames, said heads together with the respective frames for-ming chambers one adjacent each end of the drum which chambers are in communicaition with the interior of the drum through the perforations in the heads; means associated with one chamber for withdrawing air therefrom; means for heating air, said means being in communication with the other chamber aforesaid; means located exterior-ly of the dr-um adjacent each end thereof for sealing the chambers against the ingress of air from without; and` means for rotating the drum.
2. In a shell-less drier, .the combination of a drum and said tracks closing the space between said elements against .the passage of air; means for causing a flow of air through saidv drum, one head of said drum being provided with at least one opening adjacent its center for fthe inflow of air while the opposite head is provided with a series of openings adjacent its periphery whereby the air stream is caused to diverge as it is passed .through the drum in contact with .the goods being cascaded therein.
3. In a shell-less drier, the combination of a pair of frames standing in spaced relation; a cylindrical drum mounted therebetween, the cylindrical portion whereof is imperforate; means for `sealing said drum with respect to the frames to prevent the iniiowing of air therebetween; a head at one end of the drum having at least a central opening therein; a head at `the opposite end of the drum provided with a series of. openings adjacent the periphery thereof and means for drawing air through .the opening in the first named head and outwardly through .the openings in the second rnamed head, whereby the air is caused in its passage to spread 'or diverge and be brought into direct contact with the goods cascaded within the drum as the latter is rotated.
4. A drying apparatus comprising a frame having a drum lrotatably mounted in overhung relation thereto, said drum having an imperforate periphery, and two perforate heads, the head remote from .the drum mounting having its perforation in the form of a central door opening air heating means in communication with the door opening in the drum; stationary means for enclosing the ends of the drum, said means forming a part of said frame and including a door carried by said frame in alignment with the door opening in the drum; means for rotating the drum; means for circulating heated air axially through said drum; and air; sealing means between the drum and frame to prevent the heated air from passing around the outside of said drum.
5. Drying apparatus comprising relatively spaced front and rear frame members, said front member having a door opening therein; a drum including a cylindrical wal-l and forward and rear heads, said drum being located between said members, the cylindrical wall of the' drum being imperforate, the :front drum head having a centra-1 opening in alignmenft with the door opening in said front frame member, and the rear drum head. having a. series of openings in proximity to .the periphery of Ithe head; means for supporting the drum from .the rear frame member in overhung relation thereto; means for rotating 'the drum; sealing means interposed between said
US267080A 1939-04-10 1939-04-10 Drying tumbler Expired - Lifetime US2219233A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US267080A US2219233A (en) 1939-04-10 1939-04-10 Drying tumbler

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US267080A US2219233A (en) 1939-04-10 1939-04-10 Drying tumbler

Publications (1)

Publication Number Publication Date
US2219233A true US2219233A (en) 1940-10-22

Family

ID=23017230

Family Applications (1)

Application Number Title Priority Date Filing Date
US267080A Expired - Lifetime US2219233A (en) 1939-04-10 1939-04-10 Drying tumbler

Country Status (1)

Country Link
US (1) US2219233A (en)

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2486058A (en) * 1945-03-16 1949-10-25 American Machine & Metals Air drying tumbler for laundry
US2521712A (en) * 1946-06-07 1950-09-12 Nineteen Hundred Corp Tumbler type hot-air drier having a casing bulkhead
US2655735A (en) * 1950-09-26 1953-10-20 Traube Abraham Drying machine
US2722057A (en) * 1950-12-09 1955-11-01 Ralph G Pugh Clothes dryer
US2751688A (en) * 1953-06-19 1956-06-26 Pennsylvania Range Boiler Co Laundry dryers
US2768451A (en) * 1954-03-12 1956-10-30 Purkett Mfg Company Laundry pre-drying, shakeout and conditioning tumbler
US5906435A (en) * 1993-09-13 1999-05-25 Continental Products Corporation Particulate drum mixer with scoop section and seal assembly with bladder

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2486058A (en) * 1945-03-16 1949-10-25 American Machine & Metals Air drying tumbler for laundry
US2521712A (en) * 1946-06-07 1950-09-12 Nineteen Hundred Corp Tumbler type hot-air drier having a casing bulkhead
US2655735A (en) * 1950-09-26 1953-10-20 Traube Abraham Drying machine
US2722057A (en) * 1950-12-09 1955-11-01 Ralph G Pugh Clothes dryer
US2751688A (en) * 1953-06-19 1956-06-26 Pennsylvania Range Boiler Co Laundry dryers
US2768451A (en) * 1954-03-12 1956-10-30 Purkett Mfg Company Laundry pre-drying, shakeout and conditioning tumbler
US5906435A (en) * 1993-09-13 1999-05-25 Continental Products Corporation Particulate drum mixer with scoop section and seal assembly with bladder

Similar Documents

Publication Publication Date Title
US2108084A (en) Drying apparatus
US2543579A (en) Drier
US2262186A (en) Laundry drying machine
US2486058A (en) Air drying tumbler for laundry
US2861355A (en) Laundry drying machines
US2372790A (en) Drier
US2843945A (en) Domestic appliance
US2589284A (en) Drier
US2521712A (en) Tumbler type hot-air drier having a casing bulkhead
US2751688A (en) Laundry dryers
US2830385A (en) Clothes dryer
US1358599A (en) Clothes-drying machine
US2219233A (en) Drying tumbler
US2048743A (en) Clothes drying apparatus
US2460422A (en) Clothes drier
US3584394A (en) Triangular vane for a split drum dryer
US2809442A (en) Laundry drying machine
US2648142A (en) Clothes drier
US3858330A (en) Condenser apparatus
US3601903A (en) Tumbler dryer
US3902254A (en) Laundry system with drying tumbler
US2029117A (en) Drying machine
US1213999A (en) Drying apparatus.
US3852892A (en) Rotary drum dryer
US3645010A (en) Clothes drier