US2058218A

US2058218A - Apparatus for producing vitreous or metallic surfaces

Info

Publication number: US2058218A
Application number: US720943A
Authority: US
Inventors: Duceini Gaetano; Prime R Caredie
Original assignee: Individual
Current assignee: Individual
Priority date: 1934-04-17
Filing date: 1934-04-17
Publication date: 1936-10-20
Anticipated expiration: 1953-10-20

Description

- Oct. 20, 1936. G, DUCC|N| ET AL v 2,058,218

APPARATUS FOR PRODUCING vITREoUs 0R METALLIC SURFAGES l Filed April 17, 1954 2 kStmas-sheet 2 9 e y 3 y l l .IL 1 f.

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Patented Oct. 20,".1936

UNITED STATES APPARATUS FOB PBODUCING VI'I'BEOUS R METALLIC SUBFACES Gaetanonucciniandl'rimokcu'edio, SanFranciaoo. Calif.

Anneau@ anni 11, 1934, sem No. man

' s cnam. (ci. sar-ua) This 'invention relates to an apparatus for producing a vitreous or metallic coating on the surprovements on a so-called spray gun whereby metals and other materials are melted and sprayed on a surface to be coated.

In the operation. ofv spray guns, particularlywhere the material to be melted and sprayed is fed to thev gun in a powder form, considerable l0 trouble has been encountered in regulating and maintaining a uniform feed. This is largely due to the mechanism employed, such as valves, etc.,

which tend to become clogged and also due to the presence of -moistureeither in the air or in`- the vl5 material employed, whichfcauses the powdered material to cake or become lumpy.

The object o f the present invention is generally to improve and simplify the construction and operation of apparatus of the character described,

o and in particular to provide a feeding mechanism whereby material in powder form may be continuously and uniformly fed, readily regulated, moisture entirely eliminated, and caking orA lumping of the powdered material prevented.

25 The invention is shown by way of illustration in the accompanying drawings, in which- Fig. 1 is a central vertical section of the feeding mechanism.

Fig. 2 is a cross section taken on line II-#II of Fig. l. 3o Fig. 3 is a verticallongitudinal section through the spray gun.

Fig. 4 is a diagrammatic view showing the manner in which the spray gun and the feeding' 5 mechanism are connected.

Referring to the drawings in detail, and particularly Figs. 3 and 4, A indicates the head, B the nozzle,and C the handle of a spray gun; the type of gun shown being that in which a powdered or 40 pulverulent material is employed. The material is delivered by a hose line 2. It passes through a regulating valve 3 and a tube 4. This tube connects with the center tube 5 of the spray nomle. This tube is surrounded by a second tube, indi- 45 cated at 6, and this is, in turn, surrounded by an outer tubular housing 1 and a spray nozzle or tip 8. The several tubular members 5, 6, 'I and 8 are spaced apart to form annular passages therebetween, these passages being indicated at 9 and 50 In. Air under pressure is usually delivered to the annular passage I0 and, in this instance, the passage communicates with a duct Il formed inthe handle and this 'is connected with a hose I2 which, in turn, is connected with a suitable source of air supply. A second duct I3 is formed in the handle and this communicates with the annular e 9. Ihe duct i3 is connected with a hose face of various materials and especially to im- I4 and .this is. in turn, connected with a source of gaseous f'uel supply such as natural gas, or whatever fuel is desired. 5

The fuel gas delivered to the passage l discharges outwardly through the tip l at apoint exterior to theinner tube 5,' and a flame is produced which is completely surrounded by air as air is supplied not only with the pulverulent ma- 10 terial discharging through the tubes l and I butA it is also supplied to the annular passage I0. High temperature combustion is thus obtained andthe pulverulent material will obviously have to pass through this zone of high temperature combustion, and if the temperature is properly regulated, the material will become molten and will be sprayed or projected against the surface to be coated. V The .apparatus so far described is of more or less standard construction. The invention in this instance consists in providing a Afeeding apparatusor mechanism whereby a uniform f eed of pulverulent material may be delivered to the combustion zone. To obtain and maintain 'a uniform 25 feed and to provide means whereby the feedmay be regulated so as to readily vary or -increase the amount of pulverulent material is exceedingly important when the nal result is concerned. l 'That is, non-uniformity in the feed will produce 30 a blotchy or lumpy coated surface and this is obviously to be'avoided.

In the present instance the feeding mechanism or apparatus is best illustrated in Figs. 1 and 2. It consists of an inner cylindrical container I S. to which is secured a bottom plate I8. Formed in the bottom plate is a transverse passage I1 in which is formed a valve seat I8. Connected with one end of the passage is a manifold I9 to which compressed air is delivered from a suitable source 40 of supply by a hose or the. like not shown. Projected through the opposite end of the transverse passage is a threaded stem 20 on the inner end of winch is formed a valve 2|. By rotating the stem through means of the handle shown. the valve may be vmoved to or away from the seat and theamount of air passing through the passage .II can berregulated. Connected with thetransverse passage is an

elbow member

2,2 and connectedwith said elbow is a helically wound 5o pipe 23 which is perforated throughout its length as shown at 24. Thel pipe extends to a point adjacent the upper end of the cylindrical container i5 and it iscapped so that all air passing by the valve 2l and entering the helical passage 55 will be discharged through the perforations, hence if the container islled with a pulverized material it will be kept in a constant state of turbulence due to the fact that air is being lintroduced into the body of pulverulent material at all points from the top to the bottom and radially into the pulverulent material. A'swirling action is at the same time produced and caking or clogging of the material will obviously be prevented as the lair does not only maintain the proper turbulence but it is also heated as will hereinafter be described so as to lower its relative humidity and thereby produce a drying action if there is any moisture present in the material.

Secured to the bottom section of the inner cylindrical container I5 is a jacket 25, and mounted in said jacket is a helically wound pipe 26, the lower end of which is connected with the other branch of the manifold I9. Air is accordinglyV supplied by the manifold not only to the inner helically wound pipe but also -to the lexterior pipe and the air passing therethrough will also become heated as will hereinafter be described.

Forming a closure for the upper end of the jacket and the inner container I5 is a cover member 21 which may be secured in any suitable manner and formed in the cover is a filling opening 28 which may be closed by a screw cap or the like indicated at 29. The cover member 21 is provided with an outlet 30 and this is connected with a T-tting 3|, one end of the T-tting being connected through a valve 321 with the upper end of the helically wound pipe 26. The other end of the T-fitting is connected with a hose 2 which, as previously stated, is`connected with the valve 3 and the pipes 4 and 5.

Mounted below the bottom section I6 and suitably secured thereto is an electric heating unit 34. Any type of resistance unit or other unit may be employed and current may be supplied through the wires indicated at 35. This heating unit heats the bottom section I6 upon which the pulverulent material rests and obviously heats the air passing through the passage I1, and by conduction the manifold I9 and also the lower end of the jacket 25 and the inner container i5. The lower region of the container may be maintained at practically any temperature desired, and if the pulverulent material deposited in the container carries any moisture it will be rapidly driven oi'f. Furthermore, if the compressed air delivered to the manifold contains any moisture the heating of the air will lower the relative humidity so that a dampeningor iznoistening eiect will be entirely eliminated.

The apparatus here illustrated was particularly constructed for the purpose of applying a coating of vitreous or metallic material on dierent kinds of surfaces, and particularly to apply a glass coating. Where it is desired to glaze a surface, powdered glass will be introduced into the container through the iilling opening 2S and when it is substantially lled the cap will be applied. Current is switched onto the heating unit 345 and in a short time suicient heat will be developed to thoroughly dry the powdered glass and drive oi any moisture contained. Air may then be turned on and the Valves 2@ and 32 regulated. Part of the air will thus pass directly through the pulverized material or powdered glass within the 'container' and part of the air will pass through the helical coil 26 and the valve 32. The amount of air passing through the pulverized or ground glass is regulated by the valve 2l. hs

the air discharges from the helical coil 24 it enters directly into the mass of pulverized or ground glass and thereby maintains it in a swirling or turbulent condition and as the air escapes through the discharge opening 30. a certain amount o! pulverized glass will discharge with it, the quantity of glass discharging depending entirely upon the regulation .of the valve 2I as the larger the volume of air passing through the larger will be the amount of ground glass discharging, and as the relativevhumidity of the air has been materially reduced due to the heating of the same any danger ofmoistening the pulverized material is entirely obviated and a continuous feed can be insured. The material discharges through the hose line 2 and may be further regulated by the valve 3 and it finally discharges through the pipes 4 and 5 directly intov the flame or combustion zone where it is melted and projected against the surface to be coated.

Any vitreous material may be employed and, in fact, almost any metallic material in powder form. A uniform smooth coating is insured due to the constant flow of the pulverulent material and the nicety of regulation that is insured.

While the feeding apparatus shown in Fig. 1 is particularly described for use. in connection with a spray gun, we wish it understood that it may also be employed for sand blasting and similar purposes as a uniform feed of sand or similar material is also in that instance of importance, and while certain features of the invention have been more or less specifically described and illustrated we wish it understood that various changes may 'be resorted to within the scope of the appended claims. Similarly, that the materials and ni'sh of, the several parts employed may be such as the manufacturer may decide, or varying conditions or uses may demand.

Having thus described our invention, what we l. An apparatus for feeding and regulating the claim and desire to secure by Letters Patent is:

ow of pulverized material comprising a container for the reception of the pulverized material, a helically wound tube extending substantially from end to end of the container, .means for delivering air under pressure to said tube, a plurality of perforations formed in the tube and discharging the air radially and inwardly into the body of the pulverized material to maintain said material in a turbulent condition, said container having an outlet through which the air discharges and said disc air carrying pulverized material with it, and means for regulating the ow 'of air and thereby the quantity of pulverized material discharging therewith.

2. An apparatus for feeding and regulating the fiow of pulverized material comprising a container for the reception of the pulverized material, a helically wound tube extending substantially from end to end of the container, means for delivering air under pressure to said tube, a

plurality of perforations formed in the tube anclv discharging the air radially and inwardly into the body of the pulverized material to maintain said material in a turbulent condition, said container having an outlet throughwhich the air discharges and said discharging air carryng pulverized material with it, means for regulating the ow of air and thereby the quantity of pulverized material discharging therewith, and means for heating the pulverized material and the air passing through it.

3. An apparatus for feeding and regulating the 75 ow of pulverized material comprising a container for the reception of the pulverized material, a helically wound tube extending substany tially from end to end of the container, means for delivering air under pressure to said tube, a plurality of perforations formed in the tube and discharging the air radially and inwardly into the body of the pulverized material to maintain said material in a turbulent condition, a discharge conduit connected with the container into which the air discharges, said discharging air carrying pulverized material with it, and means for regulating the flow of airand thereby the quantity of pulverized material discharging therewith.

4. An apparatus for feeding and regulating the ow of pulverized -material comprising a container for the reception of the pulverized material, a helically wound tube extending substantially from end to end of the container, means for delivering air under pressure to saidtube, a -plurality of perforations formed in the tube and discharging the air radially and inwardly into the body of the pulverized material to maintain said material in a turbulent condition,a discharge conduit connected with the container into which the air discharges, said discharging air carrying pulverized material with it, means for regulating the ow of air and thereby the quantity of pulverized material discharging therewith, a. conduit for deliverlng additional air to the discharge conduit.

the ilow of said secbody of the pulverized material to maintain said material in a turbulent condition, a discharge conduit connected with the container into which the air discharges, said discharging air carrying pulverized material with it, means for regulating the ow of air and thereby the quantity of pulverized material discharging therewith, a conduit for delivering additional air to the discharge conduit, means for regulating the ow of said secondary supply of air, and means for heating the pulverized materialand the air employed for the discharge and conveyance of the pulverized material.

GAETANO DUCCINI -PRmO R. CABEDIO.