DE2255632A1 - SPRAY GUN FOR ELECTROSTATIC SPRAYING - Google Patents

Description

NORDSON CORPORATION, Jackson & Franklin Sts., Amherst, Ohio, incorporated by law of the State of Hio, United States of America,

Spray gun for electrostatic spraying.

The invention deals with a spray system, especially with an electrostatic spray system

Spray systems are equipped with an electrostatic device with which the percentage of the spray agent that reaches the surface to be sprayed can be increased. It is known that the effectiveness of the system, ie the percentage of the sprayed material reaching the surface to be sprayed, can be significantly increased by electrostatic charging of the atomized spray agent and opposing charging of the substrate to be sprayed. In such systems, an electrical charge is given to the spray that it is passed through a high-voltage field, for example by

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a voltage of more than 50,000 volts applied to an antenna or ring near the spray orifice is generated. This high voltage creates a field or corona around the antenna or ring from which the spray picks up charge. To protect the operator from high voltage and to prevent the formation of sparks or the like in a potentially conductive atmosphere, the electrostatic spray guns are all equipped with a current-limiting resistor in the electrical supply circuit: for the antenna or the ionizing element. This resistor is generally housed in the pistol and placed as close as possible to the charging elements. It is used to drop the current very quickly if the high voltage elements are accidentally touched or grounded by the operator. The larger parts of the system, on which electrical charge can accumulate and which act as large capacitors, are electrically isolated from the high voltage elements and are usually grounded.

Virtually all known electrostatic spray equipment heretofore has only been for use with electric non-conductive paints or sprays. The spraying of electrically conductive paints, water-based paints, for example, have traditionally been considered too dangerous to use Use in electrostatic systems should be seriously considered. Currently judges however, there is considerable interest in water-based paints and their electrostatic spraying, because these paints do not contain any air-polluting solution components of the kind that affect directed public criticism in a special way

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The ability to use both non-conductive and conductive materials in electrostatic spray equipment Spraying has always been considered "extremely desirable viewed and was occasionally carried out in individual experiments. When using electrostatic Systems for spraying electrically conductive materials, such as water-based paints, emerged less favorable results, primarily due to malfunction of the system, and specifically the resistances provided in the system. When resistors failed, there was a considerable decrease in the percentage of the Surface, and finally the expensive resistance collapsed completely. A quick breakdown or burnout of the resistors is very expensive, so that the use the known facilities becomes uneconomical. An example of a spray device in which this rapid destruction of the resistors when spraying Conductive paints occur is in the US patent 3 339 841.

The invention is therefore based in particular on the object of providing an electrostatically operating spray gun ' to create, with which both conductive and non-conductive spray materials can be sprayed without that the resistances undergo a substantial change if not conductive from the spraying. materials switched to the spraying of conductive substances will and vice versa. It is therefore a concern of the invention to provide an electrostatically operating spray gun to create the means for applying conductive spray materials can be used without the resistors in the

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Pistol and other equipment can be destroyed quickly.

This object is achieved according to the invention in that the causes for the malfunction mentioned are eliminated and a correction is made to those circumstances which lead to the extremely rapid destruction of the resistances when an electrostatic spray device is used to spray spray material on Water-based or from electrically conductive spray material is used.

It is known that the use of electrostatic spray equipment to spray is non-conductive Materials of the paint reservoir or tank must be grounded to prevent the slow drainage of electrical Charge through the paint or the spray material into the storage container and build up a dangerous one To prevent potential. When the equipment is used to spray electrically conductive paint or spray material is used, the full electrical charge flows directly through the paint back to the reservoir, so that it is at full electrical potential and must be kept isolated from earth in order to to avoid short-circuiting the circuit across the paint line and the reservoir. It was determined, that when the paint reservoir is insulated from earth, it is more conductive, as is the case with spraying Materials must be the case, a discharge through a corona effect at all corners of the storage container takes place as long as the tank is clean. As soon as the tank gets dirty, there is a voltage drop above the surface of the container due to the impurities. This slow but steady drop in voltage from the reservoir causes a slow

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but steady current flow through the resistor, which is not is sufficient to trigger a safety relay in the electrical circuit, but it is so large that the Resistance is slowly but steadily damaged and destroyed.

In order to correct these circumstances and this extraordinarily rapid destruction of the resistor when used to switch off the equipment for spraying electrically conductive materials, the invention provides before, a housing made of dielectric material around the tank or the storage container of the spray material to arrange. This housing prevents a voltage drop in relation to the atmosphere around the tank a corona discharge when the tank is clean and / or a potential drop due to the impurities compared to earth if the tank is dirty. When the tank and equipment for spraying are not electric Conductive materials are used, the dielectric housing is bypassed around the tank and the tank is grounded by having part of the dielectric The coating is removed and the electrically conductive part of the tank is connected directly to ground.

The invention is also based on the object to provide an electrostatic spray gun that is better sealed and better electrically insulated, than was previously possible. Most of them are manually operated. electrostatic spray guns have a valve on the face of the gun that allows the passage of the Liquid through the nozzle located next to the valve by actuating the located on the rear of the gun Handle control ti · A trigger pin extends from the handle to the valve * Bei

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Electrostatic spray guns consists of this trigger pin or at least a section of around 7 cm in length from this, made of dielectric material (for example from one of the usual plastics). The dielectric portion of the trip pin is usually at least 7-8 cm long, so that about equal electrical distance along the surface of the trigger pin from the electrically conductive section the gun down to the non-conductive or grounded Handle section of the pistol is present. This 7-8 cm gap is used for safe use the equipment is considered to be the least necessary, via which the electrical charge via dust or other Contaminants on the surface of the spacer could flow. One of the substances that commonly soils or contaminates this spacer surface, is the liquid spray material with which the spray equipment is working.

By this 8 cm clearance area of the trigger pin Protecting contamination from the spray material is usually a static seal around the pen arranged. A commonly used embodiment of this static seal consists of a bellows-like seal, one end fixed to the valve stem and the opposite end fixed to the dielectric Body is fixed by the plunger is movable. Such seals are for example in the U.S. Patents 3,583,632 and 3,339,841. While these seals do quite well against penetration of paint or other liquid! Spray in and over protect the surface of the dielectric portion of the drawbar from the front of the gun, they cannot prevent contaminants from entering from the rear of the gun. It has

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however, the effectiveness of the electrical Distance along the surface of the tie rod due to leakage of solvent from the rear or from Handle portion of the pistol is affected in front of the valve tappet. This leak occurs when the gun in a catcher for the solvent or the spray material is hung or brought, which is usually between the individual work sections occurs. To prevent this backward leakage of liquid contaminants forward along the valve stem To prevent, according to the invention, a second type of static bellows seal in the vicinity of the proposed the rear end of the trigger rod, the two seals being separated by an electrical isolation path or distance that is & wa 8 cm long are. This double bellows arrangement ensures that liquid impurities do not enter and that the Iso * - section. can not contaminate the surface from any side of the pull rod. For the sake of simplicity Assembling are the double bellows, the tie rod, the surrounding and separating dielectric spacers or sleeves and a portion of the valve as well as a

I-

Spring for. Closing the valve in a cartridge assembly which can be easily inserted and removed from the pistol. -

Another aspect of the invention is that a about 8 cm long electrical insulating body or an equivalent seal between an electrical conductive portion of the gun and an exposed surface of the gun is maintained. One of the pieces of equipment on which it is difficult the 8 cm distance must be maintained if the gun is used to spray electrically conductive materials exists in the hose connection between

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your dielectric or non-conductive coloring or Spray material hose and the dielectric barrel of the gun. Because of the difficulty of getting a sufficient To maintain insulation clearance at this point, it is common practice to weld the hose to the gun usually by a twist welding technique. It turned out that this permanent connection of the Hose with the gun can be avoided and nonetheless the same non-conductive electrical Properties of the connection can be maintained by having conical pipe threads on the hose and be formed on the receiving nipple for the hose on the gun. When this conical pipe thread are connected, the two dielectric elements are pressed together and coupled so well that that they act as the only solid body made of plastic or dielectric material, at least as far as that electrical conductivity, across the surface between the two, is taken into account. This threaded pipe connection has the advantage that an 8 cm insulation distance is no longer necessary and permanent welding of the two parts no longer needs to be carried out together.

The main advantage of this electrostatic spray system is that it can spray both electrically conductive and non-conductive materials are equally well suited. Furthermore, this system has the advantage over known systems greater operational reliability when spraying electrically conductive and non-conductive materials, namely mainly because of the better protected insulation distance along the surface of the tie rod. Furthermore, the Gun can be disconnected from the hose for cleaning and maintenance without compromising safety.

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must be sacrificed or a dangerous tension itself can build up in use.

The invention is described below with reference to the attached Drawings described. Show in detail:

Fig. 1 is an exploded view of a hand-operated electrostatic air spray gun embodying the features of the invention;

Fig. 2 is an end view of the pistol of Fig. 1;

Fig. 3 is a cross-section along the line 3-3 of ' - Fig. 2; and

Fig. 4 is a cross-section along line 4-4 Fig. 2.

The pistol 10 shown in the drawings is a air operated electrostatic spray gun in which a stream of air meets a stream of liquid to atomize the liquid. The invention is true described on an air pistol, but is not limited to it, but also encompasses all others electrostatic spray guns or spray systems.

The gun 10 has an electrically conductive metal handle 11, an electrically insulating barrel 12 and an insulating nozzle arrangement 13. Color or other Spray material, for example of the type of a lacquer, a coating compound or a varnish (all of which are referred to here as colors in general) the gun is made of

fed to a storage container or tank 14. A high voltage source supplies the gun with voltage from a power supply unit 15.

The handle 11 consists by and large of one Metal casting and has an air inlet 16, a release operated Air flow control valve 17, an outlet

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2755632

solver 18 to control the valve 17 on. Farther an adjustable air valve 20 is provided in the pistol handle to adjust the shape of the "fan" of the how to control the sprayed material from the gun which is explained in more detail below.

The air inlet opening 16 opens into one in general vertical air duct 21, which communicates with a transverse, counter-drilled air valve duct 22. Of the Air duct 22 is in turn with two air lines 23,24, which in turn communicate with channels 25,26 through the barrel 27 of the gun.

The air valve 17, which controls the air flow through the inlet channel 21 into the runner channels 25, 26, has a lever-operated pin 28, a pin retainer 30, a piston 31 and an adjustable stop 32 which limits the piston travel. One end of the pin 28 rests against the trigger Έ, while the opposite end of the pin is received by a central opening in the piston 31. The retainer 30 is screwed into the handle and serves as a guide for the pen. An O-ring seal, not shown, between the pin 28 and the retainer 30 prevents air leakage from the air duct 22. A compression spring 33 is arranged between the piston 31 and the stop 32. This spring acts on an elastic seal 34 at the end of the piston against a shoulder in the channel 22 so that the air valve 17 is held in a normally closed position.

The fan control valve 20 has a single valve piston which is inserted into a counter-threaded end of the channel is screwed in. Its end is kept conical and can engage in a conical seat that is attached to the air

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channel 23 is formed to the flow of air through the Limiting or preventing the channel.

The barrel 12 consists of electrical insulation material, for example conventional plastics, and has a body portion 27 through which two air lines or channels 25, 26 extend, and furthermore comprises a spray material throughput control channel 35 and an electrical throughput control channel 36 . The spray material throughput control channel 35 is traversed by an inclined channel 37 through which the spray material is fed to the channel 35 from a throughput control line 38. The opposite or lower end of this tube 38 is held by the handle 1.1 by a clamp 40. ■ '■■' ■■ '' ■■ '". · ■■■ -.

As can be seen most clearly from Fig. 4, the Air flow through channel 26 of the barrel through one pressurized valve 17 controlled while the air flow in the channel 25 through the valve 20 of the handle is set. A channel (not shown) communicates on the end face of the running body 27 ^ through the nozzle between the air flow channel 26 and the channel 41 of the nozzle arrangement 13. This latter channel 4l is located between a fluid nozzle 42 and an air nozzle 43. It is on its end face open so that it has an air ring channel 44 around the " Forms not shown spray material discharge opening of the nozzle 42. From the ring channel 44 exiting air meets on the flow of spray material that emerges from the opening of the nozzle 42 and atomizes the flow at least approximately. There can also be additional openings on the one with the channel 26 connected air nozzle 43 can be provided to the spray material flow finer to atomize. Furthermore, two are not

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illustrated openings for the fan shape in two horns 45 of the air nozzle 43 arranged, which communicate via a channel of the air nozzle 43 with the channel 25 of the barrel 27 « An adjustment of the valve 20 controls the flow rate of the air discharged from the nozzle horns and thus controls the extent of the fan formed by the atomized spray material.

The throughput of the spray material through the spray material nozzle 42 is controlled by a valve 46 which is located on the end face of the channel 35 is arranged. This valve has a metal seat 47 in a recess 48 and a movable one Needle valve 50 open. At its end face, the needle valve 50 has a needle 51, which is in a axial opening of the seat 47 is added and the valve closes tightly and the passage of the injection material prevented in and through the nozzle arrangement 13. The movable needle valve 50 forms the end portion of a Cartridge 52. On the opposite side, this cartridge is attached to the trigger 18, so that in addition to control the air flow through the gun of the Trigger or trigger controls the spray material throughput through the gun. The connection of the trigger with the Air valve 17 and a retainer plunger 53 of the cartridge 52 is designed such that the air valve 17 always opens and introduces an air stream before the control valve 46 opens for the throughput of the spray material.

The valve control cartridge 52 comprises the movable needle valve 50, a tappet arrangement composed of two rods 54,55, which are connected via a guide 56, and a surrounding seal consisting of two bellows seals 57 and 58, which are kept apart by a spacer sleeve 60. The cartridge also has a compression spring 61 between the seal 57 and the needle valve 50.

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The rod 54, the bellows seals 57 and 58, the guide 56 and the spacer sleeve 60 are all made of electrically non-conductive material.

The end of the rod 54 is in a threaded opening screwed into the rear of the needle valve 50. There is one next to the end of the screw Shoulder 62 which cooperates with a shoulder at the rear end of the needle valve 50 such that one end 63 of the bellows seal 57 is locked or securely attached to the valve stem. The opposite end of this bellows seal 57 is through that Compression spring 61 pressed against the front end of the sleeve 60. Furthermore, around the periphery of the bellows seal formed an annular groove which receives an O-ring seal 64.

At its rear end is the foremost pole

54 screwed into a displaceable guide 56. This guide and the spacer sleeve 60 in which they is displaceable, consist of electrically non-conductive material, so that there is an electrical insulation between the two results. At its rear end, the guide 56 has a threaded opening that the threaded end face of rod 55 receives. The back end of this rod is with the trigger 18 connected via a trigger holding element 53, the recessed portion 66 in a vertical The trigger 18 slot is seated. A backward movement of the trigger thus leaves the holding element 53, the rod

55 and the internally connected elements 54 and 56 of the valve lifter move backward with it and pull the needle valve 50 in its open position against the action of the spring 61.

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The rear end or shoulder 67 of the guide 56 acts with a shoulder 6Θ on the end face of the rod 55 together and places the front end 70 of the bellows seal 58 against a relative movement with respect to the valve tappet fixed. The rear end 71 of this bellows seal 58 is from a rear shoulder 72 of the spacer sleeve 60 pressed against the foremost, flat surface or end face 73 of the pistol handle 11, so that the rear end of the bellows seal 58 is fixed against a relative movement with respect to the body 27.

All individual parts of the valve control cartridge 52 are made of insulating material with the exception of the needle valve 50, the spring 61, the rearmost rod 55 and the carrier holding element 53. As a result, the non-conductive individual parts of the cartridge form an electrical one Distance insulation between the electrically conductive elements on the forehead of the gun and the metallic ones conductive elements, especially the handle, on the rear part of the pistol.

By defining the forehead of both. Sleeve seals on the valve stem and the rear end of the seals against relative movements with respect to the Body portion 27 becomes a static seal through each of the boot seals at one end of the valve lifter educated. The front cuff prevents backflow of paint or contaminants Via the valve tappet assembly and the rearmost collar similarly prevents forward flow via the valve stem assembly from an area in the vicinity of the actuator. Often used are the pistols placed in a storage container with solvent when not in use or during

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Work breaks to prevent the paint from getting in
the gun hardens and the lines clogged
Without the boot seal 58 at the rear of the valve stem, solvent can enter and
flow along the plunger to the front and thereby form an electrical current path that the electrical installation between the electrically conductive
and non-conductive components of the machine destroyed

The spray material nozzle 42 consists of electrically non-conductive material and is screwed into a bore 74 on the end face of the body 27. Its axial channel (not shown) or its bore opens backwards into the bore 74. The rear one
Part of the bore 74 in turn communicates with the central opening of the valve 47 via a channel 75, so that spray material flowing through the opening of the valve seat 47 can enter through the axial channel in the spray material nozzle 42 and flow through it. The axial
The channel in the nozzle 42 ends in a discharge opening of small diameter for the flow of solids or the
Coating material jet.

The air nozzle 43 also does not consist of electrical conductive material. It is screwed onto a threaded section of the barrel and has Luftkaaale that connect the openings in the horns 45 with the air duct 25 for fan control of the barrel.

A liquid or a fluid is the
Spray material channel 35 is supplied to the gun via an inclined channel 37 from the storage container or tank 14. This tank is connected to the electrically non-conductive fluid line 76 via an electrically non-conductive fluid line
Flow control tube 38 connected, which is in a hose

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connector 77 opens. This connection piece 77 has conical pipe threads 78, which on his End face are formed and are received by conical pipe threads on the interior of the channel 37. The pipe threads are V-shaped in cross-section in contrast to the normal machine threads, in which usually the bottom of the V is taken away. Because the pipe threads are beveled from one end to the other and have a V-shaped cross-section when assembled, the two do not form screwed conductive plastic pipe elements of the connector an almost complete liquid seal, which, so far The electrical conductivity affected by the seal will have approximately the same dielectric properties when the two parts of the coupling are off are made from a piece of non-conductive material. This threaded pipe coupling therefore makes a Rotary welding of the hose to the non-conductive body of the gun is superfluous, in contrast to the technique practiced so far. The tube 38 is secured in the coupling 77 by a non-conductive nut 80 held.

An antenna 81 protruding from the opening of the injection molding nozzle 42 is supplied with electric charge. she comes from a power supply unit 15, which is connected to the antenna via an insulated cable 82, an aluminum disc 83, a Spring 84 and a washer 85 via a resistor and an electrical line 87, a washer 88 and a spring 90 is connected. The end of the spring 90 terminates at the antenna 81.

The cable 82 is a standard flexible coaxial cable, the electrically conductive core of which is covered by an insulating jacket, a grounded shield and an insulating sleeve around

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give is. This cable is on the gun with a usual connector 91 attached. The electrically conductive one Core of the cable together with the insulating jacket extends up in and through the plug a non-conductive hose 92. This hose fits into the handle of the pistol and protrudes from the Front. It takes an aluminum disc 83 making contact with an electrical conductor in the cable and with a spring 84, the washer and the resistor 86 produces. The electrical conductor 87 is embedded in the non-conductive barrel 27 of the gun and · carries an electrical charge from the end of the resistor to the end of the spring 90. The spring 90 is surrounded by a non-conductive antenna holder 93 which fits into the spray material nozzle 42. On his The end face of the antenna section 81 of the spring 90 extends out of the antenna holder 93 and through the spray material opening on the face of the nozzle 42. '■ - ■■■ ·'.

This system can be used either electrically to spray or spray conductive or non-conductive paint or spray material. If that System with electrically conductive paints or sprays, such as paints based on water, is used the paint reservoir 14 is kept insulated from earth by insulating bodies 94.95 and by removing a ground line 96. With such an insulation, the electrical charge cannot through the electrically conductive material back to the Tank or reservoir flow and then drain over the edges of the tank towards the earth. An electric one Insulation material or electrically insulating

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Housing surrounds the tank and prevents corona discharge from the tank: and also prevents the tank from getting dirty and then load over the dirt or drain the pollution to ground. This dielectric insulation prevents a small, but constant current is drawn from the paint reservoir and consequently the resistor 66 is damaged will.

If the system is used to spray non-conductive materials, a screw connector 98 is inserted into the Housing 97 removed and a new plug 100 inserted. This rieue plug 100 is equipped with a spring-loaded, equipped above sensor, so that it has good electrical contact with the electrically conductive Storage tank 14 in the housing 97 produces. The opposite end of the probe has a Earth line 96 connected. If non-conductive material is to be sprayed, the earth line prevents it a backward leakage of electrical charge through the paint and its collection on the tank. If, on the other hand, this charge can build up over a longer period of time without a ground line is provided on the reservoir, it can be very dangerous because the reservoir is like a condenser acts and can be charged to a high voltage.

One advantage of the system described above is that it can be easily switched between spraying «From electrically conductive to electrically non-conductive material. It also proves to be advantageous that it is very easy to dismantle and reassemble for maintenance, cleaning or repair purposes.

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can be put together. The fluid control cartridge with the double boot seals and the insulating shield around them easy insertion and removal because of its compact, combined design »is advantageous also that not welded items can be used to the electrically non-conductive To connect the hose to the non-conductive body, which also makes removal and installation much easier.

Various changes can be made to the above-described embodiment of the invention by the Fabhmann without thereby deviating from the concept on which the invention is based . ■■■■■.

Overall, an electrostatic spray system has been described, with the either electrically conductive Substances or electrically non-conductive substances can be sprayed. The system includes an apparatus for mechanical atomization and electrostatic charging of the coating material before its Precipitation on an object to be sprayed, the device being improved by an Storage tank and an insulation system to isolate the tank from earth distinguishes, if the system is used to spray electrically conductive materials. There is also a ground wire for connection of the tank with earth provided if the tank is equipped for spraying non-conductive materials is. The system of the present invention also includes an improved spray gun having an improved electrical insulation between the electrically conductive parts of the pistol and their non-conductive parts

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Share on. In particular, an improved connection between the gun and a supply hose is provided, without a permanent welding of the two would be necessary in order to have an effective electrical Maintain isolation distance between the hose and the gun. Finally is still to mention the improved cartridge for sealing the valve stem of the pistol.

The patent application filed at the same time by Applicant with the designation "Device for electrostatic spraying of electrically conductive material" (N 47) is incorporated by reference insofar as this is necessary for an understanding of the present invention should.

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Claims (3)

Expectations IJ marked electrostatic spray device ^ c for a spray gun (10) with an electric non-conductive body (27), a spray material channel. (35.37 ...) in the body that goes into an outlet port opens through a storage tank (14) from which the spray material can be fed to the spray material channel a valve (50) for opening and closing the outlet port, by an electrical circuit with which electrical charge can be transferred to the material to be sprayed when it emerges from the outlet opening, with the electrical circuit has an electrical resistance (86), as well as by an electrically non-conductive housing (97) surrounding the storage tank, with which an electrical discharge into the atmosphere can be prevented from the surface of the storage tank, when electrically conductive spray material is sprayed with the device. 2. Apparatus according to claim 1, characterized in that the storage tank is connected to a ground line (96,100) can be grounded when electrically non-conductive spray material is sprayed with the device. 3. Device according to claim 1 or 2, characterized in that that there is an electrically non-conductive line (38) from the storage tank to the spray material channel extends and has a non-conductive coupling (77,78,80). is connectable to the Spritzg.ütleitung, and that the coupling has two elements provided with conical pipe threads, one of which is on the line • 30982 1/0298 and the other sits on the Spritzgutkanal, wherein the elements connected by screwing together have essentially the same electrical conductivity as a Have a piece of solid non-conductive material. 4. Device according to one of the preceding claims, characterized in that the valve has a plunger (53) with an electrically extending into the channel has non-conductive portion for controlling the opening and closing of the valve, and that the plunger is surrounded by seals (57,58) in the channel. 5. Device according to one of the preceding claims, characterized in that the electrical resistance with one end via a first electrically conductive line (84, 82, 91) to a high-voltage power supply unit (15) is connected and at its other end via a second electrically conductive line (87,88,90) with a device (81) for emitting electrical charge is connected to the spray material. 6. Device according to one of the preceding claims, characterized in that the valve has a stationary one Has valve seat (48) and a displaceable valve element (51) which is connected to the valve stem is. 7. Device according to one of the preceding claims, characterized in that the seal has two spaced ends has static sealing elements, each of which at one point with respect to a relative movement is fixed with respect to the device and at another point with respect to relative movement to the body (27), 3098 2 1/0 2 38 8. Device according to one of the preceding claims, characterized in that a spring (61) between the movable valve element and one of the static sealing elements is arranged and the valve in a Closed position pushes. · 9. Device according to one of the preceding claims, characterized in that the movable valve closure element (51) and at least a portion of that extending rearwardly from the valve closure member Valve tappets are combined to form a separate assembly cartridge, the cartridge on the body (27) is releasably attached. 10. The device according to claim 9, characterized in that that the cartridge comprises the spring (61) and the two sealing elements (57,58). '■ 11. Device according to one of the preceding claims, characterized in that the valve tappet-. of one Spacer sleeve is surrounded. 12. Device according to one of claims 9 to 11, characterized characterized in that the cartridge is arranged between the two sealing elements and separating them ;: Has spacer sleeve (60) and a guide element (56), which the two sections of the valve stem separates and connects, the guide element being displaceable in the sleeve. 13. Apparatus according to claim 11 or 12, characterized in that the spacer sleeve (60) and the guide element (56) made of electrically non-conductive material exist. 3098/1/0: p 14. Device according to one of the preceding claims, characterized in that the spring (61) between the movable valve closure element (51) and a the sealing elements (57) is arranged. 15. Device according to one of the preceding claims, characterized in that the first sealing element at one point against relative movement with respect to the valve stem and is fastened at another point in relation to relative movement with respect to the body in such a way that that a backflow of the spray material is prevented via the valve tappet. ' 16. Device according to one of the preceding claims, characterized in that the second sealing element at one point against relative movement with respect to the valve stem and at another point against relative movement is fixed with respect to the body and is arranged behind the first sealing element in such a way that that ingress of contaminants forward along the valve stem is prevented. 17. A method for electrostatic spraying, in which a spray gun (10) has an electrically non-conductive Body (27) with a spray material channel (35, 37 ...) ending in an outlet opening (42), furthermore with a storage tank (14) for feeding the spray material to the spray material channel, a valve (50) for opening and closing the outlet opening (42), as well as with an electrical resistor (86) comprising an electrical Circuit, with which an electrical charge can be impressed on the material to be sprayed when it emerges from the opening characterized in that to prevent incorrect behavior of the electrical resistance during spraying 309821/0: ?. 98 electrically conductive spray material of the ^ storage tank with an electrically non-conductive housing (97) is surrounded to cause an electrical discharge into the atmosphere from the surface of the storage tank impede. 3 0 9 8 2 1/0298 Read more