US3191574A - Apparatus for dry enameling - Google Patents

Apparatus for dry enameling Download PDF

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US3191574A
US3191574A US214081A US21408162A US3191574A US 3191574 A US3191574 A US 3191574A US 214081 A US214081 A US 214081A US 21408162 A US21408162 A US 21408162A US 3191574 A US3191574 A US 3191574A
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powder
workpiece
agitators
enameling
screen
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Jr John M Robertson
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American Radiator and Standard Sanitary Corp
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American Radiator and Standard Sanitary Corp
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Priority to US214081A priority Critical patent/US3191574A/en
Priority to AT527363A priority patent/AT248578B/de
Priority to GB28887/63A priority patent/GB1049385A/en
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    • CCHEMISTRY; METALLURGY
    • C23COATING METALLIC MATERIAL; COATING MATERIAL WITH METALLIC MATERIAL; CHEMICAL SURFACE TREATMENT; DIFFUSION TREATMENT OF METALLIC MATERIAL; COATING BY VACUUM EVAPORATION, BY SPUTTERING, BY ION IMPLANTATION OR BY CHEMICAL VAPOUR DEPOSITION, IN GENERAL; INHIBITING CORROSION OF METALLIC MATERIAL OR INCRUSTATION IN GENERAL
    • C23DENAMELLING OF, OR APPLYING A VITREOUS LAYER TO, METALS
    • C23D5/00Coating with enamels or vitreous layers
    • C23D5/08Applying enamels non-uniformly over the surface
    • CCHEMISTRY; METALLURGY
    • C23COATING METALLIC MATERIAL; COATING MATERIAL WITH METALLIC MATERIAL; CHEMICAL SURFACE TREATMENT; DIFFUSION TREATMENT OF METALLIC MATERIAL; COATING BY VACUUM EVAPORATION, BY SPUTTERING, BY ION IMPLANTATION OR BY CHEMICAL VAPOUR DEPOSITION, IN GENERAL; INHIBITING CORROSION OF METALLIC MATERIAL OR INCRUSTATION IN GENERAL
    • C23DENAMELLING OF, OR APPLYING A VITREOUS LAYER TO, METALS
    • C23D5/00Coating with enamels or vitreous layers
    • CCHEMISTRY; METALLURGY
    • C23COATING METALLIC MATERIAL; COATING MATERIAL WITH METALLIC MATERIAL; CHEMICAL SURFACE TREATMENT; DIFFUSION TREATMENT OF METALLIC MATERIAL; COATING BY VACUUM EVAPORATION, BY SPUTTERING, BY ION IMPLANTATION OR BY CHEMICAL VAPOUR DEPOSITION, IN GENERAL; INHIBITING CORROSION OF METALLIC MATERIAL OR INCRUSTATION IN GENERAL
    • C23DENAMELLING OF, OR APPLYING A VITREOUS LAYER TO, METALS
    • C23D5/00Coating with enamels or vitreous layers
    • C23D5/04Coating with enamels or vitreous layers by dry methods
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F25REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
    • F25BREFRIGERATION MACHINES, PLANTS OR SYSTEMS; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS
    • F25B39/00Evaporators; Condensers
    • F25B39/02Evaporators

Definitions

  • the present invention relates to an apparatus for dry process enameling and more particularly to an improved apparatus fora programmed and automated dry process enameling.
  • Dry enameling is a process of applying a porcelain enamel coating to a base material such as a metal article or workpiece after the workpiece has first had a relatively thin base coating of porcelain enamel applied thereto by spraying or dipping or other means.
  • the coated workpiece is first heated to a temperature above the fusing point of the enamel in powdered form, referred to herein ,as powder, and thereafter the powder is applied to the heated workpiece so that the powder fuses thereon 'to form the enamel coating.
  • the workpiece such as a metal bathtub or sink is first placed in a furnace where its temperature is raised above the fusing point of the powder. Thereafter the workpiece is removed from the furnace, and workmen manually apply the powder to the heated workpiece in such a manner that an even coating of powder is app-lied and bonded to the workpiece before it cools below the melting point of the. powder.
  • This present method has serious disadvantages, one of which is the necessity for the workmen to apply the powder in a room having a relatively high temperature and also of their working in close relation to the heated workpiece which has a very high initial temperature of the order of 1100" F. to 1600 F. This requires the workmen to wear suitable asbestos aprons, mittens and arm protectors and other protective gear which hinders their movements and which also prevents them from working for more than a few minutes at a time on the dry enameling process.
  • the reheating slows down the enameling process and increases its cost.
  • the present invention relates to an improved means of applying the powder in such a heated an-techamber and uses a programming method and means for a fully automatic control of the enameling process.
  • an object of the present invention is to provide an improved apparatus for dry process enameling.
  • Another object of the present invention is to provide an apparatus for dry enameling using programmed automation.
  • Another object of the present invention is to provide a more rapid apparatus for dry enameling which is automatic and which employs a programmed control or automation.
  • Another object of the present invention is to provide a programmed apparatus for dry enameling adapted for the automatic enameling of irregularly shaped articles.
  • Another object of the present invention is to provide an automatic apparatus for dry enameling operation which is easily adjusted and programmed for use in enameling a wide range of articles of different shapes and sizes.
  • Another object of the present invention is to provide automatic programmed control for a dry process enameling operation carried out in high temperature areas.
  • a further object is to provide an improved remote control operated means for selectively actuating a plurality of powder dispensing means.
  • FIG. 1 is a side elevational view partially in section of the dry enameling apparatus in accordance with the present invention
  • FIG. 2 is a vertical sectional view of the powder transmitter
  • FIG. 3 is a vertical sectional view of the powder transmitter taken along line 3-3 of FIG. 2;
  • FIG. 4 is an enlarged detailed perspective View partially cut away of the powder transmitter
  • FIG. 5 is an enlarged detailed sectional view of the adjustable coupling for the vibrator arms
  • FIG. 6 is an enlarged detailed sectional view of the powder agitating and pressure rods
  • FIG. 7 is an enlarged detailed view of the vibrating solenoid and arm for powder feed in their no-feed relationship
  • FIG. 8 is an enlarged detailed view of the solenoid and arm of FIG. 7 in their powder feeding relationship
  • FIG. 9 is a vertical sectional view of the lower portion of the powder transmitter showing water cooling pipes and fins;
  • FIG. 10 is a sectional view of the transmitter taken along line lit-10 of FIG. 9; I
  • FIG. 11 is a vertical sectional view of the programming control cam system taken along line 11-11 of FIG. 12;
  • FIG. 12 is a sectional view of the cam system taken along line 12-12 of FIG. 11;
  • FIG. 13 is a schematic diagram illustrating the preferred embodiment of the electrical control and programming circuit for the apparatus of FIG. 1;
  • FIG. 14 is a diagrammatic plan view illustrating programming for automation of the enameling operation.
  • FIG. 15 is a diagrammatic vertical sectional view for the programming illustrated in FIG. 14.
  • the dry enameling apparatus 1 comprises a furnace 2 in which the workpiece 3 which is to be enameled is initially heated to a temperature above the melting point of thedry powdered vitrifiable enamel.
  • the workpiece 3 illustrated herein is a lavatory or basin but any article requiring enameling may be similarly handled.
  • the coated workpiece 3 is initially positioned in the furnace 2 by a suitable handling means such as the rail supported lift 4,
  • the furnace is closed by a sliding door 5 and is heated therein to a temperature above the melting point of the powder which typically is between 1100 F. and 1600 F.
  • An enclosure or antechamber 6 is provided adjacent the furnace 2 in which the automatic dry enameling operation is carried out after the furnace 2 has heated the workpiece 3 to a suitable dryenameling temperature.
  • the workpiece 3 is moved from the furnace 2 into the antechamber 6.
  • the antechamber 6 is heated by a suitable means so that its temperature is kept well above that of the surrounding room to reduce the cooling rate of the workpiece 3 and to cause it to remain above the melting point of the enameling powder for an appreciable period during which the automatic dry enameling operation is carried out.
  • the anteohamher for example, may be held at about 1600 F.
  • the heated workpiece 3 When the heated workpiece 3 has been moved to the heatedantechamber 6, it is mounted on the movable workpiece holder indicated generally at 7 in a suitable basketor other mounting 8 provided at the top of the workpiece holder 7 to permit the articles to be removably but firmly held in position in the workpiece holder '7 during the enameling operation.
  • the preferred embodiment of the workpiece holder 7 comprises a rigid base 9 which mounts a rotatable support shaft 10 positioned in spaced bearings 11. During the enameling operation the support shaft 10 is rotated at a constant speed by the drive motor 12 which is coupled to the support shaft 1% by suitable gearing 13.
  • This powder transmitter 14 as will be described more fully below, selectively controls the application of the powder to the workpiece 3 under the control of an automatic programming device indicated generally at 15.
  • the powder transmitter 14 has its lower powder transmitting surface divided into a series of adjacent but separate compartments 16 (FIG. 4) and the transmission of powder from each of these compartments is individually controlled so that the powder may be transmitted from any desired number and pattern of these compartments and for any portion of the period during which the workpiece 3 is revolving beneath the transmitter '14.
  • the powder transmission from the individual compartments 16 is controlled by the programming device 15.
  • the program of powder transmission for a particular workpiece 3 is first determined and the program is then set-up in the programming device 15. This permits the program to be automatically repeated each time that a new workpiece 3 is moved into U the antechamber '6 for the enameling operation.
  • the programming device includes a programming member which in the preferred embodiment comprises a rotating cam shaft 17 Whose rotational position is exactly synchronized with the rotational position of the support shaft 10 through the intermediation of a servo-control including the selsyn 1 8 which is mechanically coupled for rotation with support shaft 10 and electrically coupled by cable 22 to selsyn 19.
  • Selsyn 19 is coupled to the cam shaft 17 by the gears 20 and '21, The selsyn 1-9 and the cam shaft 17 when thus connected will exactly follow the rotational movement of the workpiece 3 on the support shaft 10 in the usual manner for such a servo-system.
  • Other couplings such as a mechanical coupling may be used to synchronize the movement of the shafts 10 and 17.
  • the powder transmitter 14 is mounted above the moving workpiece 3 in the heated antechamher 6.
  • the preferred embodiment of the transmitter 14 provides a group of adjacent and separate compartments from which the powder is selectively transmitted.
  • a large number of compartments 16 are provided such as about 40, although the number of compartments may be varied in accordance with the size and shape of the workpiece being enameled.
  • FIG. 4 The layout of these compartments is illustrated generally in FIG. 4 wherein a powder transmitter 14 is illustrated having separate compartments arranged in rows in an offset arrangement.
  • the preferred embodiment of the powder transmitter 14 which will now be described with particular reference to FIGS. 2 through 10 provide a means for selectively transmitting powder downwardly from any number of the separate compartments 16 in any combination and in any controlled time sequence.
  • the means at the transmitter 14 for this selective transmission of the powder will first be described and thereafter the means for providing the selectively automated transmission at the programming means 15 and for the set-up of the automated program will be described.
  • the individual compartments 16 are provided within a generally rectangular panlike container having vertical sidewalls 26 and having its bottom formed by a mesh or screen 27.
  • Vertical spacers 28 arranged at right angles on the screen 27 form the compartment dividers.
  • the mesh size of the screens which form the bottom of each individual compartment is chosen so that the enamel powder being used will not pass downwardly through screen until the powder is forced therethrough by a combined vibration and pressing action. Accordingly, the passage of powder from each individual compartment 16 is controlled by providing a vibrator with-in the compartment 16 which may be selectively operated by the automatic control and which will be now described in detail.
  • the individual vibrators 29 which control the transmission of the powder from each of the compartments 16 are best illustrated in FIGS, 2-4.
  • the powder agitating and pressing portion in the preferred embodiment comprises a series of parallel generally half-round rods 30 (FIG. 6) having their opposite ends 31 attached to a pair of spaced arms 32. These rods 30 when activated provide a dual function of simultaneously agitating the powder 33 within each compartment 16 and also of actively forcing the powder downwardly through the openings of the screen 27 due to their half-round shape which provides a camming or squeezing action on the powder 33 which sifts downwardly between the rods 30 and the screen 27.
  • the pressing of the powder 33 through the screen 27 by the rods 30 tends to press the powder in a temporary lumped or pseudo-coarseness which prevents disturbance of the falling powder by air currents but which still permits the lumps to break-up readily when they strike the workpiece 3.
  • This vibrating means provides for the selective vibration of the rods 30 in any desired number of the compartments 16 to provide for the transmission of the powder from the powder transmitter 14 in the desired pattern and for the desired periods of time as the workpiece 3 is rotated.
  • a single driving or power source is used for vibrating the rods 3t) in the compartments 16 and this source is selectively connected to only the vibrator rods 30 in the compartments from which powder is to be transmitted.
  • the vibrator drive comprises a reciprocating drive rod 34 slidably mounted at the top of the transmitter 14 and which is given its reciprocating motion by being coupled by crank arm 35 and eccentric coupling 36 to a drive shaft 37 supported in suitable bearings 38 at the top of the transmitter 14.
  • the drive shaft 37 is driven'through a pulley 39 and belt 40 from a drive motor 41 (FIG. 1)
  • the rotating shaft 37 thus causes a continuous oscillation or reciprocating movement of a vibrator support frame 43 which is slidably mounted on a bearing surface 44 on the upper portion of the heated antechamber 6 and which moves back and forth in the directions of the arrows 45 (FIG. 2).
  • Each pair of support arms 32 for a set of vibrator rods 30 is releasably coupled to this reciprocating vibrator support frame 43 through the intermediation of a sup port lever 46 pivotally mounted on a stationary frame 47 at 48 and having its upper end connected through a link 4% to a movable armature 59 of an electric solenoid 51.
  • Each of the armatures 50 are slidably mounted Within the solenoid 51. In the absence of an energizing current in each solenoid 51, the armature 5t and its connected support rod 46 remain stationary as the solenoid 51 is moved back and forth with a reciprocating motion corresponding to the movement of the vibrator support frame 43 on which it is mounted as illustrated in FIG. 7.
  • FIG. 5 illustrates the adjustable connection between the support arms 32 and the support lever 46 whereby the height of the rods 36 above the screen 27 is adjusted.
  • the arms 32 are connected by adjustable bolts 52 and 53 through adjustment plate 54. The lowering of the arms 32 toward the screen 27 increases powder flow.
  • the preferred embodiment of the powder transmitter 14 uses an over supply system best illustrated in FIGS. 2 and 4.
  • This system includes a series of generally horizontal powder supply tunnels 56, one of which passes over each row of powder compartments 16 as best seen in FIG. 2. Powder is continuously transported through this tunnel from an inlet 57 to an outlet 58 by means of a supply screw 59. These screws 59 are continuously driven during the operation of the powder transmitter 14 by being coupled by suitable gears 60 to a powder supply motor 61.
  • Apertures 62 are provided in the bottom of each tunnel 56 with one aperture being positioned above each powder compartment 16 so that a continuous supply of powder drops downwardly into the compartment 16.
  • the supply screw 59 is driven at a sufficient speed to supply powder to each compartment 16 at a greater rate than the maximum dispensing rate. This insures a constant supply of powder in each compartment 16 at all times. When a particular compartment 16 becomes full, the screw 59 will carry the extra powder being supplied to a powder take-off tunnel 63 from which it may be returned by a suitable channel to the powder inlet 57.
  • a water cooling system is preferably provided comprising a series of interconnected water cooling tub-es 65' which project downwardly around the lower edge of the transmitter 14 6 as illustrated in FIGS. 2 and 3. A continuous supply of coolant is passed through these tubes.
  • FIGS. 9 and 10 Another embodiment of the cooling means is illustrated in FIGS. 9 and 10 wherein a more effective cooling is obtained by mounting a series of fins 66 on hollow tubes 67.
  • the fins 66 and tubes 67 arepositioned at right angles and are arranged to outline the rectangular zone below each compartment 16. Coolant is passed through the tubes 67 by providing connecting passageways between the tubes 67 and the coolant tubes 65.
  • These fins 66 and tubes 67 effectively cool the hot atmosphere surrounding the lower portion of the transmitter compartments 16 to prevent melting or softening of the powdered enamel as it lies in the compartment 16.
  • the automatic control system for selectively controlling the activation of the compartments will now be described-and thereafter a typical programming operation for setting up the automatic control for automatically enameling a typical workpiece will be described.
  • the workpiece 3 is mounted on a rotating shaft 10 which is continuously driven by a suitable drive motor 12.
  • the drive motor 12 will rotate the workpiece 3 continuously through one or more complete revolutions as desired.
  • the enamel powder will be applied to the moving workpiece 3 from the powder transmitter 14 under the control of the automatic control which will now be described.
  • the automatic control includes the programmer 15 in which a series of switches 69 are mounted at least one of which is coupled to each of the above described solenoids 51 to control the powder transmission from the compartment 16 associated with that solenoid.
  • the programmer 15 has a series of switches controlled by associated cams.
  • the control cams 70 are mounted on a common drive shaft 17 housed in a suitable enclosure 71 and having one end operatively coupled to the selsyn 19 by the gears 26.
  • the selsyn 19 is connected in the usual way as illustrated in PEG. 13 to a related selsyn 18 mounted adjacent to the workpiece supporting shaft 10 and coupled thereto by the gears 72.
  • the selsyns are coupled to a suitable power source indicated at '73 through switch 68 (FIG. 13).
  • the various drive motors described above are also coupled to the power sources 73 or 74 through suitable control switches as illustrated in FIG. 13.
  • FIG. 13 shows a programmer 15 coupled to six transmitter control solenoids 51.
  • the number of solenoids 51 controlled by this system may be increased or decreased as desired by the addition of similar cams, switches and connections.
  • each of the solenoids 51 are fixedly mounted on a single reciprocating or vibrating solenoid support frame 43 so that when the vibrator motor 41 is energized, the solenoids 51 all vibrate continuously backwards and forwards.
  • Each individual solenoid 51 is only mechanically coupled to its associated powder transmission rods when a control current is passed through the solenoid to look its armature in a stationary position.
  • a series of cam controlled switches 69 are illustrated for selectively energizing the solenoids under the control of the cams 70 and an alternatively operated manual control system with manually operated switches is also illustrated.
  • a switch 76 is used to switch control from the cam controlled switches 69 to the manual switches 75.
  • the manual switches 75 are used during the initial programming to setup and check the powder transmitting sequence during the design of the cams 70 for a particular workpiece as will be more fully described below.
  • each of the solenoids 51 is selectively energized by being coupled to the power source 74 through a common line switch '77 and through a power line 78 which is removably connected to the solenoid by one of the switches 75, and a multi-gang switch 79.
  • the multigang switch 79 is provided to selectively connect the six solenoids 51 to one or the other of two sets of six cam operated switches 69 or six manual switches 75. This permits the control to be switched from one program to another by the operation of the gang switch in perfecting the control pattern or in passing from one workpiece to another or in passing from one portion of a workpiece to another portion during the enameling operation.
  • each of the solenoids 51 will be electrically energized when the switch 76 is set for manual operation and whenever the related manual switch 75 is closed.
  • the manual switches 75 will be closed whenever it is desired to transmit powder to the moving workpiece from its associated powder compartment 16.
  • each of the switches 65 will be controlled by its related cam 71) to energize the connected solenoids 51 and thus transmit powder from its related powder compartment 16 when the cam '79 causes the switch to close in accordance with the predetermined program for that particular cam.
  • FIGS. 14 and 15 illustrate a wash basin 86 which will be mounted on the workpiece support 8 in the manner described above during the enameling operation and which will be rotated through one or more complete revolutions while thus mounted.
  • Various compartments 16 of the powder transmitter 14 will be selectively activated to apply a uniformly thick coating of enamel on the surfaces of the basin 80 during these revolutions.
  • the basin 30 is mounted so that the axis of rotation of the support shaft 10 generally bisects the angle formed by the sides of the basin.
  • the plan view of the basin (FIG. 14) shows the impact area at the basin level of the powder from six selected powder compartments 16 arranged in a generally pieshaped arrangement.
  • the support shaft 10 is mounted at an angle with the vertical to cause the various surfaces of the basin to be generally level as they pass through these impact areas and thus as close as possible to a plane normal to the path of the dropping powder.
  • the shaft 10 is tilted at about a 45 degree angle.
  • the front surface 81 of the basin 3! and the rear surface 82 will be relatively level as they pass through the powder impact areas a, b and c.
  • the positioning of the 3' rear surface 82 as it passes through the impact area is indicated by the dot-dash lines.
  • each point on the rotating basin 3% will describe a true circle in a plane perpendicular to the shaft 10. With respect to the plane of the impact areas which are parallel to the horizontally positioned enamel powder compartments 16, however, the path of each point on the rotating basin 8! will describe an ellipse.
  • the corner 83 of the basin will describe an ellipse 84 when its path is projected onto a plane parallel to the plane of the compartments 16.
  • the ellipses 84, 85 and $6 of FIG. 14, therefore, show the paths taken by various portions of the basin as it rotates and as these portions pass through the impact areas a, b and c.
  • compartments 16 For the basin 3t illustrated in FIGS. 14 and 15, a typical arrangement of compartments 16 is illustrated for use in programming the automatic enameling. This consists of the generally pie-shaped arrangement including one compartment for area a, two compartments for areas b, and three compartments for areas 0. A single compartment is used for area a since this compartment lies above the central portion of the basin where surface speed is the least.
  • Certain portions of the workpiece may have steeper slopes with respect to the falling powder than others as they pass through the impact areas.
  • an additional compartment 16 may be activated above the path of this portion for a short interval to add the necessary powder.
  • compartments 16 are continuously operated during the entire revolution of the workpiece, they may be all controlled by a single switch 69.
  • this program may be preserved for future use while the apparatus is used for a different workpiece through the removal of the entire cam shaft 17 and its attached earns 70 from the enclosure 71 and by storing this particular cam shaft for later reuse.
  • the program controlled by this particular cam shaft can be run again at any time by merely inserting this particular cam shaft 17 in the programmer 15.
  • the above described antechamber 6 utilizes a rotating workpiece holder 7 since this takes advantage of the somewhat symmetrical shape of most articles which are to be enameled and since it also provides for the movement of all surfaces of the workpiece beneath the powder transmitter in a convenient path in a minimum space. It is clear that other paths may be used for the workpiece using the general principles described above.
  • An elongated workpiece, for example, such as a bathtub might. be moved along a straight path with the rotation of the cam shaft being synchronized so that one revolution corresponds to a complete passage of the tub along the straight path. In this case, the cams would be similarly activated to provide a higher density on the portions of the tub which are inclined at sharper angles to the direction of powder flow.
  • the support tracks for the tub would be sloped to rock the tub about both a longitudinal and a lateral axis to reduce the slope of the end and side portions to thereby present these portions on a more level plane with respect to the falling frit.
  • the apparatus of the present invention provide a significant improvement in dry process enameling wherein the enameling may be both automatically performed and alsoperformed in a high temperature zone. This increases the speed at which the enameling may be carried out'asit eliminates hand operations and the necessity for reheating the workpiece which is being enameled. It also provides for a continuous fully automatic enameling process so that there is a reduction in the number of personnel required for the operation.
  • the apparatus is relatively simple to use both in setting up an automatic program and in performing the automated enameling of a succession of workpieces.
  • the new apparatus is also particularly well adapted for the automatic dry process enameling of articles having irregular shapes and for the application of an enamel coating to such objects with a uniform coating thickness.
  • the apparatus and process are also rapidly interchanged for the automatic enameling of a variety of different shapes and once a program has been set up for a particular shape, this program may be stored and reused at any time. This makes it particularly easy to change back and forth between different articles in accordance with the demand for them.
  • Apparatus for applying enamel powder onto a workpiece comprising a plurality of discrete zones, a perforate member underlying said discrete zones, means maintaining said perforate member in a stationary position, supply means overlying said perforate member supplying enamel powder to said discrete zones, said perforate member having openings sized so as not to pass enamel powder therethrough when the perforate member and the enamel powder immediately above the perforate member are in a static condition, agitators positioned in each of said zones, said agitators being operable to force enamel powder through the perforated member, a drive means, release means releasably connecting each of said agitators to said drive means so that said agitators may be actuated to force powder through the portions of the perforate member associated with the actuated agitators while the portions of the perforate member underlying the remaining agitators retain the powder in its associated zone, a
  • control means operatively connected to said release means and said means to move said workpiece to automatically and selectively operate any one or more of said agitators in accordance with the motion of the workpiece so that the actuated agitators apply a substantially even coating of powder to said workpiece.
  • Apparatus for applying enameling powder in dry form to a heated workpiece comprising a plurality of discrete zones arranged in juxtaposed rows, a screen underylin g said discrete zones, means maintaining said screen ina stationary position, supply means overlying said screen supplying enameling powder to said discrete zones, said screen having openings sized so as not to pass enameling powder therethrough when the screen and the enameling powder immediately above the screen are in a static condition, an agitator in each of said zones, said agitators comprising movable elements overlying and closely adjacent said screen, said movable elements being operable to force enameling powder through the screen, drive means for said agitators operable to actuate any one of said agitators to force powder through the portions of the screen associated with the actuated agitators while the portions of the screen underlying the remaining agitators retain the powder in its associated zone, a workpiece support underlying said screen,- rneans to move said workpiece, and control means operatively coupled to said drive meansand said drive
  • agitators comprises a pair of spaced arms and said control elements comprise a plurality of generally parallel rods having their opposite ends attached to said spaced arms, said rods when actuated providing a squeezing action on the powder which sifts the powder downwardly between the rods and the screen forcing the powder through the openings of the screen.
  • Apparatus for applying enameling powder in dry form to a heated workpiece comprising a plurality of juxtaposed discrete zones, a screen underlying said discrete zones, means maintaining said screen in a stationary position, supply means supplying powder to said discrete zones, said screen having openings sized so as not to pass enameling powder therethrough when the screen and the enameling powder immediately above the screen are in a static condition, an agitator in each of said zones, said agitators comprising movable elements overlying and closely adjacent said screen, said movable elements being operable to agitate the powder and actively force the powder through the screen by a squeezing action, a drive means for said agitators, release means releasably connecting each of said agitators to said drive means so that any one of said agitators may be selectively actuated to actively force powder through the portions of the screen associated with the actuated agitators while the portions of the screen underlying the remaining agitators retain the powder in its associated zone, a workpiece support underlying said
  • Apparatus for selectively dropping enameling powder in a predetermined pattern onto a heated workpiece comprising a plurality of discrete zones arranged in juxtaposed rows, a screen underlying said discrete zones, means maintaining said screen in a stationary position, supply means overlying said screen supplying enameling powder to said discrete zones, said screen having openings sized so as not to pass enameling powder therethrough when the screen and the enameling powder immediately above the screen are in a static condition, vibrating means positioned in each of said zones, said vibrating means comprising movable elements overlying and closely adjacent said screen, said movable elements being operable to force enameling powder through the screen by a combined vibrating and pressing action, a drive member for said vibrating means, a clutch means releasably connecting each of said vibrating means to said drive members so that any one of said vibrating means may be selectively actuated to force powder through the portions ofthe screen associated with the actuated vibrating means while the portions of the screen underlying the remaining vibrating means retain the powder in
  • Apparatus for selectively dropping enameling powder in a predetermined pattern onto a heated workpiece comprising a plurality of separate and contiguous discrete zones arranged in juxtaposed rows, a screen underlying said discrete zones, means maintaining said screen in a stationary position, supply means overlying said screen continuously supplying enameling powder to said discrete zones, said screen having openings sized so as not to pass enameling powder therethrough when the screen'and the enameling powder immediately above the screen are in a static condition, vibrating means overlying said screen positioned in each of said zones, said vibrating means comprising spaced arms and a .plurality of rods attached to said spaced arms, said plurality of rods being disposed closely adjacent said screen, said plurality of rods being operable to force enameling powder through the screen by a combined vibrating and pressing action, a common drive member for said vibrating means, a clutch means releasably connecting each of said vibrating means to said common drive member so that any one of said vibrating means may be selectively a

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  • Mechanical Engineering (AREA)
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  • Metallurgy (AREA)
  • Organic Chemistry (AREA)
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  • Application Of Or Painting With Fluid Materials (AREA)
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US214081A 1962-08-01 1962-08-01 Apparatus for dry enameling Expired - Lifetime US3191574A (en)

Priority Applications (3)

Application Number Priority Date Filing Date Title
US214081A US3191574A (en) 1962-08-01 1962-08-01 Apparatus for dry enameling
AT527363A AT248578B (de) 1962-08-01 1963-07-02 Verfahren und Vorrichtung zum Aufbringen eines Überzugsmaterials
GB28887/63A GB1049385A (en) 1962-08-01 1963-07-22 Method and apparatus for dry enamelling or like treatment

Applications Claiming Priority (1)

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US214081A US3191574A (en) 1962-08-01 1962-08-01 Apparatus for dry enameling

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Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3401628A (en) * 1964-07-02 1968-09-17 American Can Co Method of electrostatically coating recessed surfaces
US3570451A (en) * 1966-09-19 1971-03-16 Porcher Ets Enameling apparatus
US3649327A (en) * 1969-08-27 1972-03-14 Ferro Corp Endless furnace and the method of utilizing same for dry process, vitreous enameling
US3802384A (en) * 1972-05-05 1974-04-09 Ferro Corp Dry process enamel apparatus for bathtubs
US3942470A (en) * 1974-04-08 1976-03-09 Ferro Corporation Dry process enamel apparatus for bathtubs
US5127359A (en) * 1989-11-24 1992-07-07 Nishikawa Kasei Co., Ltd. Holding apparatus for work to be coated
US5224994A (en) * 1991-01-15 1993-07-06 Westinghouse Air Brake Company Apparatus and method for liquid treatment of article surfaces

Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US707490A (en) * 1902-05-13 1902-08-19 Carl H Zwermann Enamel-sifting apparatus.
US710443A (en) * 1902-04-23 1902-10-07 Paul Dupont Machine for mechanically enameling baths or other metal objects.
US1395798A (en) * 1920-10-20 1921-11-01 William C Catlett Planter
US1748543A (en) * 1925-07-22 1930-02-25 Baker Perkins Co Inc Flour duster
US2702655A (en) * 1951-03-01 1955-02-22 Henry And Henry Inc Motor operated liquid measuring dispenser
US2804764A (en) * 1954-10-29 1957-09-03 Mohasco Ind Inc Apparatus for dyeing yarns and fabrics
US3132038A (en) * 1960-01-29 1964-05-05 American Radiator & Standard Method and means for dry enameling

Patent Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US710443A (en) * 1902-04-23 1902-10-07 Paul Dupont Machine for mechanically enameling baths or other metal objects.
US707490A (en) * 1902-05-13 1902-08-19 Carl H Zwermann Enamel-sifting apparatus.
US1395798A (en) * 1920-10-20 1921-11-01 William C Catlett Planter
US1748543A (en) * 1925-07-22 1930-02-25 Baker Perkins Co Inc Flour duster
US2702655A (en) * 1951-03-01 1955-02-22 Henry And Henry Inc Motor operated liquid measuring dispenser
US2804764A (en) * 1954-10-29 1957-09-03 Mohasco Ind Inc Apparatus for dyeing yarns and fabrics
US3132038A (en) * 1960-01-29 1964-05-05 American Radiator & Standard Method and means for dry enameling

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3401628A (en) * 1964-07-02 1968-09-17 American Can Co Method of electrostatically coating recessed surfaces
US3570451A (en) * 1966-09-19 1971-03-16 Porcher Ets Enameling apparatus
US3649327A (en) * 1969-08-27 1972-03-14 Ferro Corp Endless furnace and the method of utilizing same for dry process, vitreous enameling
US3802384A (en) * 1972-05-05 1974-04-09 Ferro Corp Dry process enamel apparatus for bathtubs
US3942470A (en) * 1974-04-08 1976-03-09 Ferro Corporation Dry process enamel apparatus for bathtubs
US5127359A (en) * 1989-11-24 1992-07-07 Nishikawa Kasei Co., Ltd. Holding apparatus for work to be coated
US5224994A (en) * 1991-01-15 1993-07-06 Westinghouse Air Brake Company Apparatus and method for liquid treatment of article surfaces

Also Published As

Publication number Publication date
GB1049385A (en) 1966-11-23
AT248578B (de) 1966-08-10

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