US3073079A - Self-separating finishing machine - Google Patents

Self-separating finishing machine Download PDF

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Publication number
US3073079A
US3073079A US142701A US14270161A US3073079A US 3073079 A US3073079 A US 3073079A US 142701 A US142701 A US 142701A US 14270161 A US14270161 A US 14270161A US 3073079 A US3073079 A US 3073079A
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United States
Prior art keywords
abrading
housing
compartment
finishing material
parts
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US142701A
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English (en)
Inventor
Gunther W Balz
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Roto Finish Co Inc
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Roto Finish Co Inc
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Priority to NL283917D priority Critical patent/NL283917A/xx
Priority to BE623025D priority patent/BE623025A/xx
Application filed by Roto Finish Co Inc filed Critical Roto Finish Co Inc
Priority to US142701A priority patent/US3073079A/en
Priority to US142708A priority patent/US3073080A/en
Priority to AT769962A priority patent/AT244796B/de
Priority to FR911073A priority patent/FR1342922A/fr
Application granted granted Critical
Publication of US3073079A publication Critical patent/US3073079A/en
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B24GRINDING; POLISHING
    • B24BMACHINES, DEVICES, OR PROCESSES FOR GRINDING OR POLISHING; DRESSING OR CONDITIONING OF ABRADING SURFACES; FEEDING OF GRINDING, POLISHING, OR LAPPING AGENTS
    • B24B31/00Machines or devices designed for polishing or abrading surfaces on work by means of tumbling apparatus or other apparatus in which the work and/or the abrasive material is loose; Accessories therefor
    • B24B31/06Machines or devices designed for polishing or abrading surfaces on work by means of tumbling apparatus or other apparatus in which the work and/or the abrasive material is loose; Accessories therefor involving oscillating or vibrating containers

Definitions

  • the present invention relates to abrading machinesand is more particularly concerned with abrading machines of the vibrating type in which unfinished-partsare'commingled with various types of finishing or polishing material in the machine housing, vibrated until the parts have a desired finish or polish, and then discharged therefrom.
  • abrading machines In recent years there has been a tremendous increase in the demand for abrading machines. This has been brought about by several factors. First, with the high cost of labor, a demand has arisen to improve the types of abrading machines presently on the market.- Second, with the introduction of large vibrating type abrading machines, it is possible to complete the finishing operation in a relatively shorter time than was possible with the tumbling barrel type of abrading machines. Moreover, the vibrating type of abrading machines makes it possible to produce a finished or polished surface which is superiorto the finished or polished surface obtainable by the tum- :bling barrel method.
  • Typical operations which are performed by the selfseparating finishing machine according to the invention are, for example, vibrating a mass of unfinished parts and abrasive material for removing burrs and the like, vibrating a mass of partially finished parts and fine abrasive material for improving the surface of the parts, or vibrating a mass of semi-finished parts and burnishing material for imparting a high grade finish or luster to the surface of the parts.
  • Another object of the present invention is to provide an improved self-separating finishing machine which is advantageous over any previously existing machine in numerous ways. 7
  • a further object ofthe present invention is to provide an improved self-separating finishing machine employing adjustable means disposed in the housing for controlling the fiow of finished parts and finishing material from an abrading compartment.
  • Still another object of the present invention resides in an improved self-separating finishing machine having adjustable means which can be regulated from the outside of the housing for controlling the flow of finished parts and finishing material from an abrading compartment.
  • An additional object of the present invention resides in an improved self-separating finishing machine having a foraminous member mounted in a housing at an angle to the vertical axis of an abrading compartment.
  • a still further object of the present invention resides in an improved self-separating finishing machine having a motor and a discharge chute disposed on the same side of the housing.
  • FIGURE 1 is an isometric view of a self-separating finishing machine embodying the present invention
  • FIGURE 2 is a front elevational view of the machine shown in FIGURE 1, inside of a sound insulating box with the front portion removed;
  • FIGURE 3 is a side elevational view of the machine shown in FIGURE 1, inside of the sound insulating box with the side plate removed;
  • FIGURE 4 is a vertical section taken on line IV--IV of FIGURE 2 to show in detail the construction of .the housing in a loading or abrading position with finishing material and unfinished parts 'in an abrading compartment; 7
  • FIGURE 5 is a vertical section taken along line IV- IV of FIGURE 2 to show in detail theconstruction of the housing rotated to a discharge position with finished parts leaving the machine and the finishing material eutering the storage compartment;
  • FIGURE 6 is a section taken along line V I-Vl of FIGURE 4 with portions cut away better to illustrate certain constructional details of the housing, assuming that FIGURE4 shows the complete structure;
  • the housing in shape. necessary. that the housing have a generally elliptical conedby welding together two channel iron beams.
  • FIGURE 7 is a vertical fragmentary section of the housing showing a modified form of the foraminous member which is pivotally or moveably mounted.
  • the improved sellisep'aratingv finishing machine describedherein is capable of receiving finishing material and unfinished parts through an openingin the front of the machine.
  • An induction motor having a pairfiof eccentric members secured to the motor shaft .is integrally secured toa resiliently supported housing of the machine for imparting orbital vibrations thereto. After the parts have been vibrated with finishing material in an abrading compartment of 'the housing for a predetermined period, the housing is rotated to a discharge position. The finished parts and finishing material-thenflow by force of gravity toward a foraminous 3 'member.
  • an adjustable baflie secured to one'wall 'of the abrading compartment controls the flow of finishing material and finished parts to 'theforaminous member and the flow of parts being discharged from the machine.
  • the finishing material passes through the foraminous member, it is "deposited in a storage compartment of the housing.
  • the housing is rotated back to its loading position and the finishing material is returned to the abrading compartmentthrough one or more chutes or ducts which bypass the separating means.
  • a new cycle can then be started by introducing additional unfinished parts into the abrading compartment or chamber.
  • FIGURE 1 shows-a self-separating finishing machine 10 with a housing 11 in an abrading or loading position.
  • I-beams or rails Hand 15 which are welded to the base plate 13 by'suitable means.
  • bers or standards 16, 17, 18 and 19 are welded at their respective end portions 16 17a, 18a and 19a to the base plate 13.
  • the end portions 16a and 17a of vertical Vertical frame memframe members 16 and 17 respectively are also welded to rail 14 while end portions 18a and 19a of vertical frame members 18-and 19 respectively are welded to .rail 15.
  • vertical framemembers or standards 20 and 21 have their end portions. 20a and 214 respectively secured by welding or other suitable means tothe base plate 13 and rails 14 and 15.
  • Cross members are then rigidly secured to the vertical frame members. More specifically, the lower cross member 22 is secured to the upper ends 16b, and 18b of vertical frame members 16 and 18 respectively and lower-cross member 23 is secured to the upper ends 17b .and 19b respectively of vertical frame members 17a nd 19.
  • cross member 24 is secured to the upperends 20b and 21b respectively "of vertical frame members 20 and 21.
  • Each of the vertical frame members and cross members is construct- The securing together of the base plate 13, rails 14 and 15,-vertical frame members 16, '17, 18, 19, 20 and 21,
  • a plurality of coiled helical springs 27 are equally spaced and disposed between lower cross member 22 and an upper cross member and between lower cross member 23 and an upper cross member 26.
  • a plurality of cup-shaped members 28 are positioned and equally spaced along'the top side 220 of cross member 22 and on the top side 230 of cross member 23.
  • Similar cup-shaped members 29 are inverted and secured to the bottom side 250 of cross member 25 and to bottom side 7 26a of cross member 26 and aligned with cup-shaped in FIGURES 1 and.
  • the axis of shaft 44 is in alignment members 28 for supporting the coiled helical springs It is, however, unnecessary to employ coiled helical springs for isolating the vibrations of the housing from the frame 'as various other types of resilient members can be employed. Asbest seen in FIGURES l, 2 and 3, the housing 11 being resiliently supported by a plurality of coiled helical springs 27 is also thereby supported for substantial free movement in space.
  • the housing 11 includes a pair of cylindrical members 31 and 32 welded or secured by suitable means to side plates 61 and 62 respectively.
  • a spindle 33 is .rigidly secured to cylindrical member 31 and a spindle 34 is rigidly secured to cylindrical member 32.
  • Spindle 33 is journaled in a bearing 35 which is inserted in a bearing support member 37 and spindle 34 is journaled in a bearing 36 which is'inserted in a bearing support member 38.
  • Bearing support members 37 and 38 are respectively 35 :rigidly secured by welding or other suitable means to the top portion 25d of cross member 25 and to the top portion 26d of cross member 26.
  • spindles 33 and 34 for rotatahly supporting the housing 11.
  • a through shaft 39 as shown in FIGURES 4 and 5 may be employed in one form of the invention. I find advantage in using spindles 33 and 34 since noobstruction is created inside of the housing 11.
  • a flexible coupling 41 is disposed between spindle 33 and the rotary mechanism 40.
  • the flexible coupling comprises a central member 42 of resilient material such as rubber or the like. Cylindrical end members 43a and 43b are secured to the central member 42 by vulcanizing. Of course, it is not necessary to have the central member 42 vulcanized to the inner side walls of cylindrical members 43a and 43b.
  • the resilient centraI member 42 can be secured to cylindrical end members 43a and 43b frictionally by applying pressure against the; resilient material.
  • the housing 11 may be rotated from the loading or abrading position sion thereof.
  • the operating lines and controls for the cylinder 49 are not shown since they are conventional. It must be understood, however, that it is not necessary that the means for rotating the housing from the loading position to the discharge position comprise a pneumatic cylinder 4?.
  • various other means such as a hydraulic cylinder, a power-driven winch, a geared motor, or the like can be employed for rotating the housing from the loading position to the discharge position.
  • One end of the cylinder 49 is provided with a lug 50 pivotally secured by a pin 51 to a side plate 52 which is secured by suitable means such as welding to the inside portion of vertical frame member 2-8.
  • crank arm 55 The other end of the cylinder 4% is provided with a piston rod 49a having a lug 53 pivotally secured by a pin 54 to one end of a crank arm 55.
  • the central portion of crank arm 55 extends through a slot 56 (see FIGURE 1) in the upper and lower channel portions 24a and 24b of cross member 24.
  • the other end of crank arm 55 is disposed between bearing support members 47 and 48 and rigidly secured to the shaft 44 by a key 53 inserted in a slot of shaft 44.
  • any substantial longitudinal movement of lug 53 with respect to the cylinder 49 exerts a rotary motion to shaft 44 stressing the central member 42 of flexible coupling 41 which in turn develops a torque and rotates spindle 33 and thereby rotates housing 11 to the discharge or transfer position.
  • the housing can be rotated back to its original abrading or loading position.
  • the whole machine 10 including the housing 11 and frame 12 is enclosed in a sound insulating box 59' having an opening at60 for loading and unloading the machine.
  • the box also confines the dust escaping from the housing during the abrading, finishing or polishing operation.
  • the housing 11 having side plates 61 and 62 is provided with a rounded bottom 63 of semi-cylindrical form defining the bottom of an abradingor finishing chamber v64 having an opening adapted to receive finishing and/or polishing material and unfinished parts.
  • a lower forward wall 65 extends upwardly from one end of the rounded bottom 63 and is an exten-
  • An opening v66 is provided in the lower finishing and/or polishing material and unfinished parts into the abrading compartment or chamber.
  • a loading chute 67 is secured to the forward wall 65 by welding or other suitable means.
  • a lower rear wall 68 extends upwardly as illustrated in FIG- the other end of rounded bottom 63.
  • forward and rear walls 65 and 68 are respectively secured to side plates 6-1 and 62 by welding or the like.
  • the abrading chamber 64 is defined by rounded bottom 63, forward wall 65, rear wall 68 and the lower portions of side plates 61 and 62.
  • the upper portion of the housing 11 as viewed in FIGURE 4 has a rounded top 73, an upper forward wall upper rear wall 78 extending from the other end of the rounded top '73.
  • the side portions of forward and rear wall 75 and 78 respectively are secured to side plates 61 and 62 by welding or the like.
  • a storage chamber or compartment 74 is defined by the rounded top 73, forward wall 75, rear wall 78 and the upper portions of side plates 61 and 62.
  • An opening 79 having a detachable cover plate 80 secured thereover is provided in the central top portion of the rounded top 73 for removing finishing material from the 75 extending from one end of the rounded top and an the motor so that the rotor shaft axis is in storage compartment when the housing is rotated to the discharge position (see FIGURE 5).
  • a foraminous member 81 is disposed in the cover plate for removi-ng fines, scraps, or burrs from finishing material by selective passage therethrough when the housing is rotated to the discharge position.
  • a foraminous member 82 -. is disposed transversely in housing 11 between the abrading chamber 64 and the storage chamber 74.
  • the foraminous member may be secured to frame 83 by suitable means.
  • the term foraminous member .as used herein denotes, a member having openings or perforations for classification of parts and finishing material, for example, a grate or screen of any type, illustratively having wires or rods either parallel or at an angle to each other, whether or not reticulated.
  • the housing while in abrading position has the foraminous memer 82 disposed at an angle of less than 180 to a longitudinal plane bisecting the lower half of the abrading compartment 64 into substantially equal sections.
  • the housing must be rotated to a discharge position rather slowly for maximum efiiciency of the separation step and to prevent a part of the finishing material from flowing out of the housing with the finished parts.
  • an induction motor or prime mover having a pair of not shown eccentric members secured to the rotary shaft is fastened by bolts 97 and nuts 98 to motor mounting bracket @9 welded to the outer rounded bottom 63 of housing 11 for imparting orbital vibrations to the housing in various positions of rotation and also to the mass of unfinished parts and finishing material in the abrading compartment.
  • the electrical connections to the motor are not shown since they are conventional. It will be understood that it is not necessary that the motor be an induction motor.
  • the motor can be any type of electric motor or fluid motor, that is, any power means which generates a vibratory motion, such as an electromechanical vibrator, an air-driven motor, a liquid-driven motor, or the like.
  • the longitudinal plane of the abrading compartment 64 is not vertically disposed when the housing is in the abrading position, then the motor 95 is preferably mounted to the housing with the rotor shaft axis in the vertical plane as well as in spaced parallel relationship to the longitudinal axis of the abrading compartment so that the mass of finishing material and unfinished parts still moves in an orbital manner.
  • an inspection plate 88 ismounted over an opening 71 definedby the inner sides of plate members 84, 85, 86 and 87 which are fixedly secured to side plates 61 and 62 and to lower and upper forward walls 65 .and 75 (see FIGURES 1, 2, 4 and of the drawings).
  • 'A plurality of threaded lugs 90 welded to plate members 84, 85, 86 and 87 extend through openings in the inspection plate and are preferably provided with suitable nuts 89 for fastening the inspection plate to 'thehousing.
  • the front portion 83a of the frame 83 as
  • FIGURES 4 and 5 of the drawings is provided I with a plurality of threaded lugs 91 which extend through apertures in the inspection plate 88. Suitable nuts 92 "are-provided for securing the front portion 8300f the frame to-the plate 88. Y
  • Adischarge chute .77 is connected to the rear portion nuts 89 and 92 and removing the inspection plate 88 from the housingll. If it is desired to remove the frame 83 from the housing, this can be accomplished by removing additional nuts 94 which secure the rear end of the frame to the bottom portion 77a of discharge chute 77.
  • the housing 11 is rotated to thedischarge position and the parts are ready to be discharged from the housing. As best viewed in FIGURE 5,
  • finished parts 69 and finishing material 70 flow by gravity and by the orbital vibrations imparted to the housing downwardly along the inside rear wall 68 toward the fotraminous member 82.
  • the finishing material passes through the member 82 and is deposited on a bafile 101 interposed between the bottom of the storage compartment 74 and the member 82.
  • the jfinishing material continues to move down over the end of the bafile 101 and into the storage chamber 74 while the finished parts fiow along the foraminousmember 82 and out of the discharge chute -77.
  • the discharge chute 77 and the motor 95 are disposed on the same side of the housing, as clearly shown in FIGURES 4 and 5 of the drawings, in order that the orbital vibrations of the motor can be more effectively imparted to the finished parts as'theyflow out of the machine.
  • finishing material 70 and the perforations of the foraminous member 82 it is possible for the finished parts to be discharged too rapidly from the housing or that the finished parts be inadequately. separated from the finishing material and some of the finishing material discharged with the parts from the housing.
  • the space or opening between the can control the surface area. of the foraminous member exposed to the finishing material and also the rate at which the finished parts are discharged from the machine. It is not necessary to have an adjustable bafile provided with slots for regulating the opening between the abrading chamber and the separating member. Other means of adjustment can be employed.
  • the foraminous member 182 can be adjustably moved or pivoted with respect to the lower rear wall 168 as illustrated in FIGURE 7 of the drawings.
  • a cylindrical member 172 is secured to the end of frame 183 and journaled in detachable bearings 181 for pivotal movement.
  • the lugs 191 on the other end of the frame are inserted in elongated slots provided in the inspection plate for adjustably securing the frame 183 thereto with nuts 192.
  • a not shown deck is interposed in the housing between the foraminous member and the storage compartment for collection of finished parts as they flow through member 82.
  • One end of the deck communicates with the discharge chute 77 for discharging parts from the housing.
  • the finishing material flows toward one end of member 82 and is guided into a not shown chute for discharge into the storage compartment 74.
  • the bafile 101 extending inwardly from the rear central portion of the housing prevents the finishing material fromflowing back through the member 82.
  • baffie 101 is actually an extension of the lower chute por- 9 tion 77a, and is secured to side plates 61 and 62 by welding or the like.
  • the bent portion 101a of baffie 101 reinforces the bafile and prevents the flow of finishing material 70 toward the bottom portion of the foraminous member when the housing is rotated from the discharge position to the abrading position;
  • a riser 104 having inclined side members 105 and 105a (see FIGURE 6) is disposed in the space defined below baffle 101, the inside of rear wall 78 and the inside portions of side plates 61 and 62.
  • the finishing material 70 flows from the bottom of the storage compartment 74 upon the riser 104. Due to the inclined surfaces of side members 105 and 105a of riser 104, the'finishing material 70 is directed into ducts 102 and 103.
  • the bottom wall 106 of duct 102 and the bottom wall 107 of duct 103 as shown in FIGURE 6 actually are extensions of rear wall 78.
  • Duct 102 is defined by upper wall 108, inner Wall 109, bottom wall 106 and by a portion of side plate 62.
  • Duct 103 is defined by lower wall 107, upper wall 110, inner wall 111 and by a portion of side plate 61.
  • the ducts 102 and 103 extend into the abrading chamber beyond the adjustable baffie 112 and, when the housing 11 is rotated to the loading position, the finishing material flows from the storage compartment 74 into ducts 102 or 103 and is transferred into abrading chamber 64.
  • suitable cut-out portions are provided in the bafile 102, the foraminous member 82 and the adjustable baffle 112 for the purpose of providing passageways for receiving ducts 102 and 103.
  • the loading chute 67 and the discharge chute 77 are disposed on opposite sides of the housing.
  • the housing can be loaded and unloaded from the same position, since the loading chute 67 is adjacent to' the opening 60 when the housing 11 is in the loading position, and when the housing is rotated to a discharge position, the discharge chute 77 is adjacent to the opening 60.
  • unfinished parts and finishing material are inserted into an opening in the housing as by means of a loading chute when the housing is in a loading-position and deposited into the abrading chamber.
  • the opening through which parts are introduced may optionally be closed during subsequent operations.
  • a vibratory orbital motion is imparted to the housing and to the mass of unfinished parts and the finishing material.
  • orbital vibrations are imparted to the housing and to the mass of finishing material and unfinished parts.
  • the rotary mechanism can be automatically or manually energized for rotating the housing .to the dis-. charge position whereby the finishing material and the finished parts by force of gravity and the influence of the orbital vibrations imparted to the housing are deposited on the foraminous member.
  • the flow of finished parts and finishing material from the abrading chamber to the foraminous member can be controlled by altering the position of the adjustable baffle with respect to the foraminous member, thereby'controlling the rate at which the parts are discharged from the machine as well as the surface area of the foraminous member which is in contact with the finishing material.
  • the rotary mechanism is reversed for rotating can the housing back to its loading or abrading position.
  • the finishing material flows down a rear wall of the storage chamber, toward a riser and is directed into one or more ducts which bypass the foraminous member and quickly transfer the finishing material into the abrading compartment.
  • a bafiie is also suitably disposed in the storage compartment for preventing the flow of finishing rnaterial toward the bottom surface of the forminous member. The likelihood of finishing material flowing through the foraminous member is negligible.
  • Finished parts and finishing material may, if desired,
  • the parts pass through the foraminous member onto the not shown deck or the like communicating with the exterior of the housing and the finishing material flows down the foraminous member into the not shown chute leading into the storage compartment.
  • the finishing material being larger than the perforations in the forminous member, is transferred to the abrading compartment 64 by ducts 102 and 103 or, less conveniently, by manually discharging the finishing material from the storage compartment through opening 79 and then reinserting it into the abrading compartment through the loading chute after the housing is rotated to the loading position.
  • finishingmaterial is used generically to designate materials used to impart all types of finishes including those finishes acquired 'with abrading material as well as with polishingmaterial and present embodiments herein specifically set forth be considered in all respects as illustrative and not restrictive, reference being made to the appended claims rather than the foregoing description and drawings to indicate the scope of the invention, which is to be understood as being limited only by the scope of the appended claims.
  • a self-separating finishing machine comprising an abrading compartment having an opening for receiving finishing material and unfinished parts when said abrading compartment is in a first position of rotation, a
  • a self-separating finishing machine comprising an abrading compartment having an opening adapted to rement is in a second position of rotation, said abrading compartment and said storage compartment being rotatable as a unit about a horizontalaxis, a foraminous member disposed between said compartments for separating parts from finishing material, means bypassing, said member for delivery of finishing material from said storage compartment to said abrading compartment when said abrading compartment is returned-to said first position of rotation, means disposed between said member and said abrading compartment for controlling the flow of parts and finishing material flowing toward said member, and, power means for imparting a vibratory motion to said compartments in at least an abrading position of rotation.
  • a self-separating finishing machine In a self-separating finishing machine, the combination of an abrading compartment having an opening for receiving finishing material and unfinished parts when said abrading compartment is in .a first position of rotation, a storage compartment communicating with said abrading compartment for receiving finishing material from said abrading compartment when said abrading compartment is in a second position of rotation, means I disposed between said compartments for separating parts from finishing material, means bypassing said first mentioned means for delivery of finishing material from said storage compartment to said abrading compartment when said abrading compartment is returned to said first position of rotation, adjustable means disposed in said machine for controlling the flow of parts discharged from said machine, and power means for imparting a vibratory motion to said compartments in at least one position of rotation.
  • a self-separating finishing machine the combination of a housing mounted for rotation on a horizontal axis, an abrading chamber in' said housing having an opening for receiving finishing material and unfinished parts, a storage chamber in said housing at least partially opposed to saidabrading chamber and having an opening for receiving finishing material from said abrading ,chamber, a foraminous member mounted insaid housing for. separating finishing material from finished parts,
  • 'means disposed in saidabrading chamber .for directing the finishing material and parts toward saidmember when said housing is rotated through anangle, a discharge chute for ejecting parts from said housing, means bypassing said member for delivery of said finishing material from. said storage chamber to said abrading chamber when said housing is returned to a prerotation position, and power means for imparting a vibratory motion to said housing in at least one position of rotation.
  • a self-separating finishing machine comprising a housing mounted for rotation on a horizontal axis, an abrading chamber in saidhousing having an opening for receiving finishing material and unfinished parts, a
  • a storage chamber in said housing having an opening for receiving finishing material from said abrading chamber, a foraminous member mounted in said housing for separating finishing material from finished parts, means .disposed in said abrading chamber for directing the finishing material and parts toward said member when said housing is rotated through. an angle, adjustable means disposed in said housing for varying the flow of parts and finishing material toward said member, a
  • a self-separating finishing machine comprising a housing rotatably mounted on a horizontal axis, an abrading chamber in said housing having an Opening for receiving finishing material and unfinished parts, a storage chamber in said housing partially opposite said abrading chamber and having an opening for receiving finishing material from said abrading chamber, a foraminous member mounted in said housing for separating finishing material from finished parts, means disposed in said abrading chamber for directing the finishing material and finished parts toward said member when said housing is rotated to a discharge position, a discharge chute for ejecting finished parts from said housing, a baffie disposed in said storage chamber for preventing the return of finishing material from said storage chamber to said abrading chamber through said member, means bypassing said member for delivery of said finishing material from said storage chamber to said abrading chamber when said housing is in a loading position, and power means for imparting a vibratory motion to said housing in at least one position of rotation.
  • a self-separating finishing device comprising an abrading compartment and a storage compartment attached to and communicating with each other mounted for substantial free movement in space and rotatable as a unit, a foraminous member disposed in said device between adjacent openings in said abrading and said storage compartments, adjustable means provided in said device for varying the opening of said abrading compartment with respect to said member, and power means for imparting a vibratory motion to said abrading compartment in at least an abrading position of rotation.
  • a self-separating finishing device comprising an abrading compartment and a storage compartment attached to and communicating with each other mounted for substantial free movement in space and rotatable as a unit, a foraminous member disposed in said device between adjacent openings in said abrading and said storage compartments, adjustable means provided in said device for varying the opening of said abrading compartment with respect to said member, a duct mounted in said device for return vof finishing material from said storage compartment to said abrading compartment, and
  • a self-separating finishing device comprising an abrading compartment and a storage compartment attached to and communicating with each other mounted for substantial free movement in space and rotatable as a unit, a foraminous member disposed in said device between adjacent openings in said abrading and said storage compartments, adjustable means provided in said device for varying the opening of said'abrading compartment with respect to said member, a bafiie disposed in said storage compartment for preventing the return of finishing material from said storage compartment to said.
  • abrading compartment through said member a duct mounted in said device for return of finishing material from said storage compartment to said abrading compartment, and power means for imparting a vibratory motion to said compartments in at least one position of rotation.
  • a self-separating finishing device comprising an abrading compartment and a storage compartment attached to and communicating with each other mounted for substantial free movement in space and rotatable as a unit, a faraminous member mounted in said device for pivotal movement between adjacent openings in said abrading and storage compartments for controlling the flow of parts'and finishing material discharged from a'ra'ting parts from 13 said abrading compartment, and power means for imparting a vibratory motion to said compartments in at least one position of rotation.
  • a self-separating finishing device comprising an abrading compartment and a storage compartment attached to and communicating with each other mounted for substantial free movement in space and rotatable as a unit, a foraminous member disposed in said device between adjacent openings in said abrading and said storage compartments and moveable with respect to one of said openings for controlling the flow of finishing material into said "storage compartment, and power means for imparting a vibratory motion to said compartments in at least one position of rotation.
  • an abrading compartment having an opening ⁇ for receiving finishing material and unfinished parts when said abrading compartment is in a firstposition of rotation
  • a storage compartment communicating with said abrading compartment for receiving finishing material from said abrading compartment when said abrading compartment is in a second position of rotation
  • a fora-minous member disposed between said compartments forsepsaid member for delivery of finishing material from said storage compartment to said abrading compartment when said abrading compartment is returned to the first position of rotation
  • adjustable means disposed between said member and said abrading compartment for controlling the fiow of parts and finishing material received by said member, said last mentioned means for controlling the flow of parts and finishing material being adjustable externally of said abrading compartment, and power means for imparting a vibratory motion to said compartments in various positions of rotation.
  • a self-separating finishing device comprising an abrading compartment and a storage compartment attached to and communicating with each other mounted for substantial free movement in space and rotatable as a unit, a foraminous member disposed in said device between adjacent openings in said abrading and said storage compartments, adjustable means provided in said device for varying the opening of said abrading compartment with respect to said member, said last mentioned means including means for adjustment externally of said abrading compartment, and power means for imparting a vibratory motion to said unit in at least one position of rotation.
  • a self-separating finishing machine comprising a housing including means defining an abrading chamber and means defining a storage chamber, a separating means disposed between said chambers, a means mounted on said housing having an eccentric member for imparting vibratory movement to said housing, a filling chute communicating with said abrading chamberand adapted to receive finishing material and unfinished parts, means disposed in said abrading chamber for directing finishing material and finished parts toward said separating means, a baflie disposedin said storage chamberforlpreventing return of said finishing material through saidseparating means, a duct communicating with saidstorage chamber and said abrading chamber for returning said finishing material to said abrading chamber, a discharge chute connected to said housing for discharging finished parts, and means for rotating said housing to transfer and abrading positions.
  • a self-separating finishing machine comprising a housing including means defining an abrading chamber and means defining a storage chamber, a separating means disposed between said chambers, a motor mounted on said housing having an eccentric member for imparting vibratory movement to said housing, a filling chute communicating with said abrading chamber and adapted to receive finishing material and unfinished parts, means disposed'in said abrading chamber for directing finishing finishing material, means bypassing material and finished parts toward said separating means, adjustable means provided in said machine for varying the flow of finishing material and finishedparts toward said separating means, a bafiie disposed in said storage chamber for preventing return of said finishing material through said-separating means, means communicating with said storage chamber and said abrading chamber (for returning said'finishing material into said abrading chamber, a discharge chute connected to said housing for discharging finished parts, and means for rotating said housing to discharge and abrading positions.
  • a self-separatingfinishing machine the combination of a housing mounted for rotation on a horizontal axis, an abrading compartment in said housing provided with an opening adapted to receive finishing material and unfinished parts, a storage compartment in said housing provided withan opening adapted to re ceive finishing material from said abrading compartment when said housing is rotated toa discharge position, a foraminous member disposed in said housing for separating said finishing material from said parts and in a plane forming an acute angle with a longitudinal plane of said abrading compartment, a motor mounted to said abrading compartment for imparting vibrations thereto and having its rotary shaft axis in the longitudinal plane of said abrading compartment, and means for rotating said housing from an abrading position to the dischargeposition.
  • a self-separating finishing machine the combination of a housing mounted for rotation on a horizontal axis, an abrading compartment in said housing provided with an opening adapted to receive finishing material and unfinished parts, a storage compartment in said housing provided with an opening adapted to receive finishing material from said abrading compartment when said housing is rotated to a discharge position, a foruminous member disposed in said housing for separating said finishing material from said parts and in a plane forming an acute angle with abrading compartment, a motor secured to said abrading compartment for imparting vibrations thereto and having its rotary shaft axis in substantial spaced parallel relationship to the longitudinal plane of said abrading compartment, and means for rotating said housing from an abrading position to the discharge position.
  • a self-separating finishing machine the combination of a housing mounted for rotation on a horizontal axis, an abrading compartment insaid housing provided with an opening adapted to receive finishing ma terial and unfinished parts, a storage compartment; in said housing provided with an opening'ada-pted to receive finishing material from 'said abrading compartment when saidhousing is rotated to a discharge position, a formlnous member mounted in said housing for separating said finishing material from said parts and disposed at an angle'to a longitudinal plane of said abrading compartment, a motor secured to said abrading compartment for imparting vibrations thereto and having its rotary shaft axis'in substantial spaced parallel relationship .to a longitudinal axis ofjsaid abrading compartment, and means for rotating said "housing from an abrading position tothe discharge position.
  • a self-separating finishing machine the combination of a housing mounted for rotation on a horizontal axis, an abrading compartment in said housing provided "with an opening adapted to receive finishing material and unfinished parts, a storage compartment in said housing provided withran opening adapted to receive finishing material from ,saidf'abrading compartment when said housing is rotated to ya discharge position, a foraminous member for separating said finishing material from said parts anddisposed in said housing at an angle to the vertical axis of said abrading compartment when said housing is in an abrading position, a motor secured to said abrading compartment for imparting vibrations thereto and having a longitudinal plane of said 15 its rotary shaft axis substantially normal to the vertical I axis of said abrading compartment, and means for rotating said housing from the abrading position to the dis charge position.
  • ayseZf-separating finishing machine including a housing journaled on a horizontal axis within a frame for rotation from a loading position to a discharge position, an'abrading compartment in said housing having an opening adapted to receive finishing material and unfinished parts, a storage compartment in said hou'sing hav-' ing an opening adapted to receive finishing material, and means for imparting vibratory movement to said housing in at least one position 'of rotation, the combination of a foraminous member mounted in said housing for separating finishing material from parts, a first bafile disposed in said abrading compartment for controlling the flow of finishing material and parts toward said member, a second bafile mounted in said housing for preventing the return flow of finishing material from said storage compartment through said member, and a' duct communicating with said abrading compartment and said storage compartment for transferring finishing material from said storage compartment to said abrading compartment and bypassing both said second bafiie and said member.
  • a self-separating finishing machine comprising a frame, a housing journaled on a horizontalaxis within said frame for rotation'from a loading position to a discharge position, an abrading compartment in said housing having an opening adapted to receive finishing material and unfinished parts, a storage compartment in said housing partially opposite said abrading compartment and'having an opening adapted to receive finishing material, a foraminous member mounted in said housing for separating finishing material from parts, a first bafiie disposed in said abrading compartment for controlling the flow of finishing materiakand parts toward said member,
  • said first baflle being an extension of one wall of said abrading compartment, a second baflie' mounted in said storage compartment for preventing the return flow of finishing material through said member, a duct com- W municating with said abrading compartment and said storage compartment for transferring finishing material from said-storage compartment to said abrading compartment and bypassing both said second baffie and said member,
  • the combination-of elements including a housing journaled on'a horizontal axis within a frame for rotation from a loading position to a discharge position, an abrading compartment disposed in said housing and being adapted'to receive finishinglmaterial and unfinished parts through a first opening in said housing, a storage compartment disposed in said housingand adapted toreceive finishing material from said abrading compartment when said housing is rotated to the discharge position, a foraminous membe r disposed in said housing between said abrading compartment and said 'storagecompartment for separating finishingmaterial from parts when said housing is rotated to a discharge position andcooperating with a second opening in said housing for discharging parts from said housing when said housing is in a discharge position of rotation, means for imparting vibratory movement'to 7 said housing in at least one position of rotation, and means for rotating said housing frorn'the loading position to the discharge position, the relationship of said elements being such'as'to allow loading of parts into said housing and dischar
  • a self-separating finishing machine comprising a' frame, a housing journaled on a horizontal axis within said frame for. rotation from a loading position to a discharge position, an abrading compartment disposed in said housing and having an opening adapted to receive finishing material and unfinished parts, a storage compartment disposed in said housing and having an opening adapted to re;eive finishing material from said abrading compartment when said housing is rotated to the discharge position, a first chute mounted on a first side of said housing and communicating with said opening in saidabrading compartment, a foraminous member disposed in said housing between said abrading compartment and said storage compartment for separating finishing material from parts when said housing is rotated to the discharge position, a second chute mounted on a second side of said housing and communicating with said memberfor discharging parts from said'housing when said housing is rotated to the discharge position, means for imparting vibratory movement to said housing in at least one position of rotation, and means for rotating said housing from the loading position to the discharge position for loading of parts into said housing and
  • a self-separating finishing machine the combination of a housing journaled on a horizontal axis within a frame for rotation from a loading position to a discharge position, an abrading compartment disposed in said housing and having an opening adapted to receive finishing material and unfinished parts, a storage compartment disposed in said housing and having an opening adapted to receive finishing material from said abrading compartment when said housing is rotated to the discharge position, a first chute mounted on a first side of said housing and communicating with said opening in said abrading compartment, a foraminous member disposed in said housing between said abrading compartment and said storage compartment for separating finishing material from parts when said housing is rotated to the discharge position, a second chute mounted on a second side of said housing and communicating with said member for discharging parts from said housing when said housing is rotated to the discharge position, said first chute and said second chute being generally diametrically disposed relative to said housing, means for imparting vibratory movement to said housing in at least one position of rotation, and means for rotating said housing from the loading position to
  • said foraminous member has its major plane at an angle of less than to a longitudinal plane dividing said abrading compartment into two substantially equal sections.
  • a self-separating finishing machine having a parts exit comprising an abrading compartment having an opening for receiving finishing material and unfinished parts when said abrading compartment is in a first position of rotation, a storage compartment communicating with and partially opposite said abrading compartment for' receiving finishing material from said abrading co'mpartment when said abrading compartment is in a second position of rotation, said abrading compartment and said storage compartment being rotatable as a unit about a horizontal 17 axis, a foraminous member disposed between said compartments for separating parts and cooperating with said parts exit for discharging parts from said machine, and power means for imparting 2.
  • a self-separating finishing machine having a parts exit comprising an abrading compartment having an opening for receiving finishing material and unfinished parts when said abrading compartment is in a first position of rotation, a storage compartment communicating with and at least partially opposite said abrading compartment from finishing material for receiving finishing material from said abrading com partment when said abrading compartment is in a second position of rotation, said abrading compartment and said storage compartment being rotatable as aunit about a horizontal axis, a foraminous member disposed between said compartments for separating parts from finishing material, means bypassing said member for delivery of finishing material from said storage compartment to said abrading compartment when said 'abrading compartment is re- 18 turned to said first position of rotation, said foraminous member cooperating with said parts exit for exit of parts from said machine, and power means for imparting a vibratory motion to said abrading compartment.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Crushing And Pulverization Processes (AREA)
US142701A 1961-10-03 1961-10-03 Self-separating finishing machine Expired - Lifetime US3073079A (en)

Priority Applications (6)

Application Number Priority Date Filing Date Title
NL283917D NL283917A (pt) 1961-10-03
BE623025D BE623025A (pt) 1961-10-03
US142701A US3073079A (en) 1961-10-03 1961-10-03 Self-separating finishing machine
US142708A US3073080A (en) 1961-10-03 1961-10-03 Multi-stage self-separating finishing machine
AT769962A AT244796B (de) 1961-10-03 1962-09-28 Einrichtung zum Schleifen von Werkstücken
FR911073A FR1342922A (fr) 1961-10-03 1962-10-02 Machine de finissage à séparation automatique

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US142701A US3073079A (en) 1961-10-03 1961-10-03 Self-separating finishing machine

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US3073079A true US3073079A (en) 1963-01-15

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US142701A Expired - Lifetime US3073079A (en) 1961-10-03 1961-10-03 Self-separating finishing machine

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US (1) US3073079A (pt)
AT (1) AT244796B (pt)
FR (1) FR1342922A (pt)
NL (1) NL283917A (pt)

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3134207A (en) * 1961-10-05 1964-05-26 Ultramatic Equipment Co Inc Vibratory finishing machine
US3191348A (en) * 1963-03-01 1965-06-29 John F Rampe Apparatus for orbital finishing
US3300908A (en) * 1964-11-05 1967-01-31 John F Rampe Apparatus for orbital finishing
US3315417A (en) * 1964-05-25 1967-04-25 Donald E Roberts Vibratory finishing apparatus
US3633744A (en) * 1968-02-26 1972-01-11 Prerovske Strojirny Np Arrangement for classifying of liquid suspensions

Citations (11)

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Publication number Priority date Publication date Assignee Title
US228803A (en) * 1880-06-15 Ash-sifter
US1048026A (en) * 1911-09-18 1912-12-24 Malcom P Bates Ore-separator.
US2138550A (en) * 1938-01-15 1938-11-29 Anglo American Mill Corp Mixing apparatus
US2143610A (en) * 1934-05-19 1939-01-10 Ig Farbenindustrie Ag Apparatus for treating solids with physical and chemical reactants
US2290036A (en) * 1940-11-14 1942-07-14 Udylite Corp Machine for treating articles in bulk
US2319391A (en) * 1940-09-14 1943-05-18 Udylite Corp Automatic bulk treating machine
US2359944A (en) * 1942-12-16 1944-10-10 Howard Engineering & Mfg Compa Tumbling mill
US2519060A (en) * 1944-11-10 1950-08-15 Earl Hovey C Washing machine
US2843979A (en) * 1955-11-23 1958-07-22 Lupo Joseph Tumbling barrels and screens therefor
US2918926A (en) * 1957-01-30 1959-12-29 Simplicity Eng Co Washing and degreasing apparatus
US2997814A (en) * 1958-04-23 1961-08-29 Bell Intercontinental Corp Machine for precision finishing of parts by controlled vibration

Patent Citations (11)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US228803A (en) * 1880-06-15 Ash-sifter
US1048026A (en) * 1911-09-18 1912-12-24 Malcom P Bates Ore-separator.
US2143610A (en) * 1934-05-19 1939-01-10 Ig Farbenindustrie Ag Apparatus for treating solids with physical and chemical reactants
US2138550A (en) * 1938-01-15 1938-11-29 Anglo American Mill Corp Mixing apparatus
US2319391A (en) * 1940-09-14 1943-05-18 Udylite Corp Automatic bulk treating machine
US2290036A (en) * 1940-11-14 1942-07-14 Udylite Corp Machine for treating articles in bulk
US2359944A (en) * 1942-12-16 1944-10-10 Howard Engineering & Mfg Compa Tumbling mill
US2519060A (en) * 1944-11-10 1950-08-15 Earl Hovey C Washing machine
US2843979A (en) * 1955-11-23 1958-07-22 Lupo Joseph Tumbling barrels and screens therefor
US2918926A (en) * 1957-01-30 1959-12-29 Simplicity Eng Co Washing and degreasing apparatus
US2997814A (en) * 1958-04-23 1961-08-29 Bell Intercontinental Corp Machine for precision finishing of parts by controlled vibration

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3134207A (en) * 1961-10-05 1964-05-26 Ultramatic Equipment Co Inc Vibratory finishing machine
US3191348A (en) * 1963-03-01 1965-06-29 John F Rampe Apparatus for orbital finishing
US3315417A (en) * 1964-05-25 1967-04-25 Donald E Roberts Vibratory finishing apparatus
US3300908A (en) * 1964-11-05 1967-01-31 John F Rampe Apparatus for orbital finishing
US3633744A (en) * 1968-02-26 1972-01-11 Prerovske Strojirny Np Arrangement for classifying of liquid suspensions

Also Published As

Publication number Publication date
NL283917A (pt)
AT244796B (de) 1966-01-25
FR1342922A (fr) 1963-11-15

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