DE3434334C2 - - Google Patents

Description

State of the art

The invention is based on a method according to the genus Main claim. So far, layers of solid that can be burned in, e.g. B. conductive layers such as conductor tracks, by hand with a brush, pad printing or screen printing Ceramic or glass substrates applied. Such procedures are sometimes cumbersome and not very efficient, sometimes they are difficult to automate and not very flexible, they leave little Space for individual design. For packaging machines packs with systems that work on the ink-jet principle labeled. Printers are based on the inkjet principle from data processing known droplets from a homogeneous liquid with the help of the piezo effect.

In DE-OS 31 07 079 the use of ink jet printers for partial coating described by contact components with precious metals. It will Precious metal in the form of an organometallic compound or as screen printing paste containing oxide or metal, conductor paste, resistance paste or glass solder on the contact components to locally limited electrical contact surfaces applied. The paste used must however, be finely divided and largely diluted to prevent clogging the nozzle of the inkjet printer. Suspensions that tend to settle, practically cannot with inkjet printers, as standard for fast printing on paper be applied.  

Advantages of the invention

The inventive method with the characterizing features of In contrast, main claim and the device according to the invention have the advantage that suspensions can be used, the tend to stop. Ceramic or glass parts can be made precisely with a defined coating. The process is very flexible and easy to automate and therefore both for laboratory purposes as well as suitable for mass production. It can be use numerous applications, such as applying conductor tracks on ceramic plates or on glass, making conductor tracks in small series, application of conductor tracks on foils, application of all types of cover layers; is ultimately through use of burn-in dyes, the labeling and decoration technical articles or articles made of porcelain or glass as well as tiles. Here arise opposite Handcraft rationalization advantages and compared to printing processes the advantage of an individual design option.

The measures listed in the subclaims are advantageous Developments and improvements to the main claim specified procedure and that specified in the claims Device possible. The use of a is particularly advantageous Handling device or small robot, with which either coating part or the sprayer guided on predetermined paths becomes. A programmable can advantageously be used as the control device Calculator can be used. Serves advantageously as a sprayer a nozzle connected to a storage container, which either with the help of a piezo plate or a solenoid valve Droplet generated.  

drawing

Three embodiments of the invention are in the drawing shown and in the description below explained. It shows

Fig. 1 is a schematic diagram of the entire device and the

Fig. 2 to 4 three embodiments of the sprayer in section.

Description of the embodiments

In Fig. 1, the device for performing the method according to the invention is shown in principle. The device consists of a handling device or small robot 1 , on the swivel arm 2 of which the workpiece 3 to be coated is fastened. A sprayer 4 is set up in a suitable position and is connected via a pipe 5 to a reservoir 6 for the suspension. A control device 7 in the form of a programmable computer is connected via a control line 8 to the small robot 1 , which brings about the necessary movements of the workpiece 3 . The intensity of the spraying process is controlled via a further control line 9 to the spraying device 4 .

FIG. 2 shows an embodiment of the spraying device 4 with the storage container 6 connected. The spraying device 4 consists of a nozzle 10 and a cavity 11 which has a piezo plate 12 as a wall. Voltage pulses are supplied to the piezo plate 12 via electrical lines (not shown), the frequency of which, which is controlled by the control unit 7 , determines the intensity of the coating. The frequency is e.g. B. at 100 Hz. The drop size depends essentially on the level of the applied voltage, is generally set once, the voltage being in the range between 100 and 500 V. A supply part 13 connects to the cavity 11 , to which the connecting line 5 between the spraying device 4 and the storage container 6 is connected. In order to prevent the heavy metal particles from settling in the storage container 6 , either the storage container 6 is equipped with a stirrer 14 or a bypass line 15 is located between the feed part 13 and the container 6 in order to continuously pump the suspension around. In this case there is a pump 16 in line 5 . In order to ensure optimal homogeneity of the suspension, both measures, namely stirrer 14 and bypass line 15 , can also be present.

In the embodiment according to FIG. 3, the suspension is constantly pumped around by means of the pump 16 , the suspension being pressed through the nozzle 10 and injected into an opposite return opening 17 , from where it again arrives in the storage container 6 . If part of the suspension is used for coating, it is divided into droplets in the manner described above by the piezo plate 12 , but at the same time the droplets are charged in the electric field of the electrodes 18 and deflected in a further electric field of the baffle plates 19 , so that the droplets no longer fly into the return opening 17 , but instead as deflected droplets 20 onto the substrate 3 .

FIG. 4 shows a third embodiment in which the suspension is not broken up into individual droplets by means of a piezo plate, but by a valve 21 which closes and opens at short intervals and which is preferably controlled magnetically. This requires a certain pressure of the suspension, which can be generated either as a gas pressure in the reservoir or by a pump. In this embodiment, too, a constant movement of the suspension is ensured by means of a stirrer 14 and / or pump 16 and bypass line 15 .

As already indicated above, the suspensions can be different around those of metals, for example platinum, act on conductor tracks or other conductive coatings to apply on ceramics or glass. Here are commercially available Platinum plastics or platinum powder with likewise commercial thinners diluted so far that the viscosity suspensions in the range of 0.001 to 0.1 Pa · s lies. The same applies in principle to the use of stovable dyes, e.g. B. in the form of colored Oxides, such as those used for labeling and decorating technical articles and utensils made of porcelain and glass and tiles can be used. The Most favorable setting of the viscosity also depends on the Dimensioning of the nozzle is usually an inside diameter has from 50 to 100 microns. The optimization the ratio of nozzle diameter to viscosity must therefore can be determined by experiment.

After applying the coatings, the substrates made of ceramic or glass for one for each solid baked at a suitable temperature.

Claims (11)

1. A method for applying suspensions of baked-on solids to ceramic or glass substrates by spraying a liquid jet containing solids into droplets, a spraying device ( 4 ) and the substrate ( 3 ) to be coated being arranged such that they can move relative to one another and the movement of the spraying device ( 4 ) or the substrate ( 3 ) and the intensity of the spraying process of the spraying device ( 4 ) can be controlled by a control device ( 7 ), characterized in that the solid suspension of the nozzle ( 10 ) is fed from the storage container ( 6 ) so that settling of the solids from the suspension

• a) stirring in the storage container ( 6 ) and / or
• b) constant pumping over a bypass line ( 15 ), which branches off in front of the nozzle ( 10 ) or in front of the valve ( 21 ), is avoided.

2. The method according to claim 1, characterized in that the solid suspension of the nozzle ( 10 ) from the reservoir ( 6 ) by means of a pump ( 16 ) or by means of gas pressure in the reservoir ( 6 ) is supplied. 3. The method of claim 1 or 2, characterized in that the solid suspension parts in the injection device (4) by a closing in short distances and opening valve (21) into droplets and this invention by the fine nozzle (10) of the actuation of the valve ( 21 ) are thrown onto the substrate. 4. The method according to claim 1, characterized in that the spraying device ( 4 ) or the substrate ( 3 ) is attached to a handling device ( 1 ) and the relative movement to one another is accomplished by actuating the handling device ( 1 ). 5. The method according to claim 1, characterized in that in the spraying device ( 4 ) the solid suspension divided by the pressure surges generated by a piezo plate ( 12 ) into droplets and these through the fine nozzle ( 10 ) through according to the control of the piezo plate ( 12 ) are thrown onto the substrate ( 3 ). 6. The method according to claim 1, characterized in that in the spraying device ( 4 ) the solid suspension are divided into droplets by the pressure surges generated by a piezo plate ( 12 ), that the solid suspension can be guided into a return opening ( 17 ) and that through a electrostatic loading device ( 18 ), which is controlled by the control device ( 7 ), and by means of deflection plates ( 19 ) to which a voltage is applied, droplets are directed onto the substrate ( 3 ) by electrostatic deflection, while the undeflected droplets are directed through the return opening ( 17 ) can be returned to the storage container ( 6 ). 7. The method according to any one of the preceding claims, characterized in that that as a solid for the solid suspension, a metal powder or a stovable dye powder is used.   8. Device for performing the method according to one of claims 1 to 7, with

• a) a spraying device ( 4 ) which produces a fine, intermittent jet of liquid, with a connected reservoir ( 6 ),
• b) a handling device ( 1 ) with which either the substrate ( 3 ) to be coated or the spraying device ( 4 ) is guided on predetermined tracks, and
• c) a controller ( 7 ) which controls both the handling device ( 1 ) in its movement and the spraying device ( 4 ) in its intensity, characterized in that
  • a) the storage container ( 6 ) has a stirrer ( 14 ) and / or that
  • b) a bypass line ( 15 ) and a pump ( 16 ) are provided in the main line ( 5 ) between the storage container ( 6 ) and the droplet-producing component ( 12 , 21 ).

9. The device according to claim 8, characterized in that the spraying device ( 4 ) has a piezo plate ( 12 ) which, after the piezo effect, divides the solid suspension into droplets by pressure surges and these in accordance with the control of the piezo plate ( 12 ) from a fine nozzle ( 10 ) hurls out onto the substrate. 10. The device according to claim 8, characterized in that the spraying device ( 4 ) has a piezo plate ( 12 ) which generates a continuous stream of droplets, that it has a return opening ( 17 ) and an electrostatic loading device ( 18 ) and baffle plates ( 19 ) for electrostatic deflection, the electrostatic loading device ( 18 ) and the baffle plates ( 19 ) directing individual droplets according to the control of the loading device ( 18 ) onto the substrate ( 3 ), while the return opening ( 17 ) collects the remaining suspension and into the storage container ( 6 ) leads back. 11. The device according to claim 8, characterized in that the spray device has a closing and opening valve ( 21 ) at short intervals, which generates the droplets.