DE1246478B - Device for electrostatic spray painting - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

Int. Cl .:

BOSb

GERMAN

PATENT OFFICE

EDITORIAL

German class:

Number:
File number:
Registration date:
Display day:

75 a-22

1246478
G30523Ib / 75a
20th September 1960
3rd August 1967

The invention relates to a device for electrostatic spray painting, in which one side of a High-voltage source with an outwardly constructed from insulating material, in particular pneumatic actuated spraying device and the other side is connected to the workpiece and where the spraying device with a storage container for the coating material through a supply line made of an insulating material connected is. in which a grounded wire electrode is provided at a distance from the sprayer is.

There is already a device for electrostatic spray painting known in which in one fixed distance from the supply line a grounded wire is provided, through which a negligible small current flows away. This arrangement serves to protect the operator from the high voltage protection. In other known devices, devices, for example one, are correspondingly long dimensioned insulated line to the earthed storage tank, provided in order to divert the current to prevent entirely.

The invention has the task of providing a device of the type mentioned at the beginning where the derivation is used to adjust the spray device to the requirements of the used To be able to adjust the color material exactly, so that so far as unsuitable for electrostatic Paint materials applicable to paint sprayers can be used.

For this purpose, the invention provides that a distance adjustment for the wire electrode as well as on this a Stromrneßgerät is provided.

This arrangement according to the invention advantageously allows metallic and water-soluble ones Colors that have been found to be unsuitable for other electrostatic devices are more satisfactory Way to charge.

In a preferred embodiment it is provided that the grounded wire as a wire helix and in their area the feed is designed as a helical channel. The training be made so that the helical channel to the spray device in a narrowing, made of insulating material Existing chamber opens at the narrow end of a tubular insert of the spray device conductive material sits, which is provided within the chamber with a sharp, circular edge is.

Furthermore, it can be provided that the insert is connected to a conductive channel which is used for Sprayer leads.

Device for electrostatic
Spray coating

Applicant:

General Motors Corporation,
Detroit, me. (V. St. A.)

Representative:

Dr. W. Müller-Bore and Dipl.-Ing. H. Gralfs,
Patent attorneys,

Braunschweig, Arn Bürgerpark 8

Named as inventor:

Frank Aloysios Croskey,
New Baltimore, Mich .;

Paul John Rissman, Dearborn, Mich. (V. St, A.)

. - - 1 1 1. - ''

Claimed priority:
V. St. v. America September 21, 1959
(841140),

of April 6, 1960 (20 453) -

The invention is described below, for example, with reference to the drawing; 1 shows a schematic representation of a device according to the invention for electrostatic spray painting,
Fig. 2 partially enlarged in section a part of the device,

Fig. 3 is a section along the line 3-3 of Fig. 2,

FIG. 4 shows an enlarged section along the line 4-4 of FIG. 3,
Fig. 5 is a section along the line 5-5 of Fig. 3,

6 shows, partly in section, a further device according to the invention,

7 shows a part of the device shown in FIG. 6, partly in section on an enlarged scale.

According to Fig. 1, the device is provided with a conventional, grounded conveyor 10 for workpieces 11, a conventional pneumatic spray device 12, which hangs down from a bracket 13 arranged above, and a high voltage source 14 , the negative pole of the spray device through

709 619/193

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a line 15 is connected and the other pole of which is grounded. The coating material, usually paint ₃ , is fed to the spray device from a storage container 16 via a shut-off valve 17, a feed line 18 and a device 19 which, as will be described below, is provided to adjust the charge transferred to the paint. The spray device 12 is provided with a conventional regulating needle 20 (Fig. 5) for the paint, which is controlled in the conventional manner by high pressure air which is supplied from a high pressure air source 21 via a pipe 22 in which a shut-off valve 23 is located. The air for atomizing the paint is supplied from a source 25 and supplied via a pipe 26 in which a shut-off valve 27 is also provided.

The practical design of the spray device 12, hereinafter referred to as the pistol, is shown in FIGS. 2 and 5 shown. The gun, a common, commercially available pneumatic spray gun, has a metallic body 29 around which a housing 30 made of "epoxy synthetic resin" is cast. The Hochspamiungszufiihrleitiing 15, the paint supply line 18, the lines 26 and 22 for the atomizing air and the high pressure air as well as the air outlet line 32, which is opened to allow a return movement of the control needle 20 under the action of a spring, not shown, are tightly enclosed by the housing, in order to keep the escape of electrons at these points of the pistol as little as possible. The housing is provided with an opening 33 through which the nozzle 34 of the spray gun protrudes.

In order to protect certain parts of the pistol from the synthetic resin during casting, supports made from ModeUierton are used; a support 36 (Figs. 2 and 5) surrounds the side control port of the gun with which the correct fan width is set prior to casting; a support 37 (Fig. 2) protects the mounting hole of the spray gun and prevents synthetic resin from entering the high voltage socket 38; a support 39 (Fig. 5) is used to protect the actuation bolt in the pistol and finally a support 40 (Fig. 2) protects the adjustment device for the regulating needle of the pistol.

The gun is provided with a metallic high-voltage socket 38 into which a at the end of the Line 15 seated plug 42 grips into it. A conventional high-voltage coaxial cable is used as the line 15 used, which is provided with a ground shield 43. The shield ends outside the Housing 30, while the end of the conduit 15 engages through a nylon tube 44 into the gun to which the end of the shield 43 is attached. The nylon tube 44 is just like the feed lines for air and paint, it is tightly enclosed by the housing so that the electrons can escape at these points on the gun to be kept as low as possible.

The nozzle 34 protrudes from the opening 33 of the housing and allows a fan-shaped jet of paint to exit when the needle 20 is withdrawn (FIG. 5) and atomizing air is supplied to the gun at preferably about 0.7 kg / cm ^2. The atomizing air is fed to an air nozzle 47 which surrounds the nozzle 34 and protrudes through the opening 33 in the housing. The air nozzle is made of a highly dielectric material to prevent electrons from escaping close to the metallic nozzle

34 limit. This will reduce the risk of sparks from the pistol.

The line 26 for the atomizing air is at its outer end facing the gun a nylon tube 48 is provided which is molded into the housing 30 and connected to the inlet of the gun for the atomizing air is connected. The line 22 for the high pressure air is at its outer end also provided with a nylon tube 49 which is also molded into the housing 30 and has the high pressure inlet the gun is connected. This will cause an electron leak from the gun kept as low as possible via the air supply line.

The paint supply line 18 is provided at its outer end with a nylon tube 50, one end of which is connected to the paint inlet nipple 51 of the gun and which protrudes from the housing. A metallic coupling piece 52, which is screwed into a counterbore in the other end of the tube 50, carries a metallic sleeve 53 and a second nylon tube 54. The sleeve 53 has a bore 55 which is small in relation to the bore 56 of the tube 50, while the tube 54 is provided with a bore 58 which is somewhat larger than the bore 55. At its inner end, the tube 54 is connected by a coupling 59 to a metal housing 61 which forms part of the in FIG. 1 represents the control device 19 shown. The main part of the paint supply line 18 is also connected to the housing 61 and communicates with the nylon tube 54 through a channel 62 in the housing.

In the housing 61 a rotatable metallic drum 64 is mounted, which can be rotated with a knob 66 which is mounted on a shaft 65. The drum 64 carries a wire conductor 67 (Figs. 2 and 4). The wire 67 enters the bore 58 of the nylon tube 54 through a stuffing box 68 and can be moved in the axial direction relative to the sleeve 53 by turning the control knob 66. The housing 61 is grounded through a micro-ammeter 70 (FIG. 1).

In operation, the color column acts between the nipple 51 and the sleeve 53 and between the opposite end of the sleeve 53 and the wire 67 as a conductor for electron dissipation from the gun to the positive side of the voltage source. By adjusting the position of the wire 67 the size of this lead can be regulated.

When the apparatus is in operation, the gun is preferably charged to 45 kV and the electron dissipation measured by the microammeter is set to 100 microamps. Since the main length of the paint supply line 18 is made of dielectric material and the paint itself has a high resistance, the grounding of the housing 61 effectively prevents any leakage through the pipe 18 to the. Paint reservoir.

With the device described above it is possible to electrostatically spray almost all metallic and non-metallic as well as water-soluble coating materials. If z. B. a synthetic enamel paint is diluted with a solvent in the ratio of about 1.421 solvent to 3.7851 paint, you get an electron emission of about 100 microamps at a distance of 34.93 mm between the upper edge of the

1 24

Sleeve 53 and the nipple 51 when the wire 67 is flush with the lower end of the sleeve. if the current is only 40 microamps, the paint spray works with the mixture described above satisfactory in front of you. However, if the current drain increases above 150 microamps, then the nylon tube 50 heats up, and after a few hours of operation the paint forms a layer of pigment around the inner feed chamber in the spray gun. To reduce the current drain, the Wire 67 is wound around the drum until a reading of approximately 100 microamps is obtained. If the bore 58 is smaller than 1.32 mm, it can become clogged when metallic paints are used. With a hole of this size 142 to 170 g of paint are sprayed off per minute, the one results in a good paint application of about 2 to 3 μ thickness on the workpiece.

The apparatus shown in Figures 6 and 7 is provided with a conventional spray gun 70 which is mounted within a hollow, molded housing 71 made of epoxy resin. The housing has a rear cover 72, which can be removed from the housing in order to be able to remove the pistol, and a projection 73 which is fastened to a carrier 74 by means of a screw 75.

The atomizing air is supplied to the gun through tubing 76, the end of which is made of nylon exists, which extends through "the Mntere cover 72 of the housing and is tightly enclosed by this is. The high pressure air for actuating a conventional needle valve 78 (FIG. 7) is the Gun supplied via a pipe 79, the end of which is also designed as a nylon tube, the reaches through the cover and is tightly enclosed by this'.

The gun 70 is made of metal and can be powered by a high voltage DC power source 81 a coaxial cable 82 which plugs into a socket 83 encased in nylon 84 for a high voltage cable lies. The enclosure passes through the cover 72 of the housing through and is tightly enclosed by this.

The nozzle 86 of the gun protrudes through an opening 87 in the housing in which a neoprene ring 88 is attached. This ring prevents and prevents corona loss from the metal nozzle during operation further that a cleaning agent enters the housing 71. The shape of the nozzle 86 differs somewhat that of a conventional pistol, as a sharp edge is provided around the injection opening, which results in a small metallic ionization surface. The nozzle 86 is from a nozzle 90 for the atomizing air which is made of a dielectric material.

The paint or other coating material is fed to the gun through a tube 91. This At its end located on the pistol, the tube has an elongated, cylindrical nylon part 92, which has a bore 93 and a counterbore 94. An insert 95 is made in the recess 94 a dielectric material is used which has a narrowed, helical channel 96, weleher starts from the bore 93 and leads to the base of a conical chamber 97, which in a nylon insert 98 attached to the 478

from the bore 93 facing away from the end of the Aussenlaing 94 is inserted. The helical channel 96 is considerably longer than the bore 93 or the chamber 97 ,, while the cross-section is much smaller.

A part 100 made of metal, which protrudes into the conical chamber 97, is provided with a bore hole which ends in a sharp, circular edge at the end closest to the bore 93. The part 100 sits in a bore in the end of a brass part 102 in which a channel 103 is formed for the paint. The channel 103 communicates with a passage 104 in the gun in connection, which leads to the nozzle 86 for the coating agents IS material. In order to reduce deposits, the part 100 is provided with a plurality of secondary openings 105 between the chamber 97 and the bore 101.

In the bore 93 lies a resilient wire helix 108, the wire diameter of which is smaller than that of the helical channel 96 and that screwed into the narrowed helical channel is. The helix 108 can be rotated with a device to make it helical Channel more or less. This device has a control rod 109 made of metal, which can be rotated in a DichtungsgHedllO at the end of the nylon part 92, and is still provided with a manually operated control button 111 at the outer end of the rod.

A part 2 of the rod in the bore 93 is flattened on one side and protrudes through a correspondingly shaped opening in a part 113 through which the end of the wire 108 is attached is. When the knob is rotated, part 113 is also rotated. One rotation of the part 113 causes the wire 108 to move along in the helical channel 96, in which case the part 113 slides along the rod.

An electric brush 115 mounted in the seal member 110 contacts the control rod 109 sliding and is grounded by a line 116. Because the entire body of the gun from the voltage source 81 is charged to a high negative potential, the metal part 100 also becomes charged as it is connected to the gun through the brass part 102.

In operation, the color column acts in the conical chamber 97 and the helical channel 96 downstream of wire 108 as a conductor for electron dissipation from the sharp edge of the End of the borehole 10 to the positive side of the voltage source via the brush 115. On this In this way, the coating material is charged before it reaches the nozzle 86.

The magnitude of the current flowing through the coating material can be adjusted by adjusting the Wire 108 can be regulated. A coating material that has a continuous flow of at least 40 microamps can be charged satisfactorily within limits, while a coating material that has a continuous current of 100 microamps or more leads, will be charged very satisfactorily. In the latter case, the helical wire 108 should emerge from the helical channel 96 be moved out until the current is reduced to about 2 microamps before atomization begins. Once the atomization has started,

Claims (4)

the current increases because of the current flowing through the atomized 2. Patent claims: 1. Device for electrostatic spray painting, in which one side of a high-voltage source is connected to an outwardly made of insulating material, in particular pneumatically operated spray device and the other side is connected to the workpiece and in which the spray device with a storage container for the coating material through a supply line from a IsoHstoff is connected, in which a grounded wire electrode is provided at a distance from the spray device, characterized in that a distance adjustment (64 to 66; 109, 111) and an ammeter (70) is provided for the wire electrode (67; 108). 2. Device according spoke 1, characterized in that the grounded wire (108) as a wire helix and in its area the feed tion are designed as a helical channel (96) . 3. Apparatus according to claim 2, characterized in that the helical channel (96) towards the spraying device opens into a narrowing chamber (97) made of IsoUerstoff, at the narrow end of which a tubular insert (100) of the spraying device made of conductive material is seated , which is provided within the chamber (97) with a sharp, circular edge. 4. Apparatus according to claim 3, characterized in that the insert (100) is connected to a conductive channel (102 to 104) which leads to the spray device (70). Considered publications:
German patent application E3780IVc / 75c (published 11/27/1952); Swiss Patent No. 321226;
French Patent No. 1164409;
U.S. Patent No. 2,739,838;
Australian Patent No. 221445. For this purpose 2 sheets of drawings 709 619/193 7.67 © BnndesdruokereiBerIin