EP2698445A2 - Method and device for coating metal parts - Google Patents

Abstract

The apparatus has a coating unit (7) that is connected with a reservoir for coating liquid (1) through a conduit (5). A collecting unit (9) is provided for collecting the excess coating liquid. The collecting unit is provided with a valve (15) that is connected with a pressurized receptacle. The reservoir is equipped with a compressed air source (17), a vent valve (25) and a riser pipe (19). A control unit (3) is provided to regulate the valve, the vent valve and the compressed air source. An independent claim is included for a method for coating metal components with a coating liquid.

Description

The invention relates to a device for coating metal parts, preferably the thread of screws and nuts, with a coating liquid containing adhesive-containing microcapsules. The apparatus comprises a reservoir for the coating liquid, a control unit, a coating unit connected to the reservoir by means of a conduit, and a collecting unit for collecting excess coating liquid.

The invention further relates to the use of a device according to the invention for the coating of threads or threaded parts of screws and nuts, with a coating liquid containing adhesive-containing microcapsules, and a method for coating metal parts, preferably the threads of screws and nuts, with a coating liquid containing adhesive-containing microcapsules, with a device according to the invention.

Devices of the type mentioned initially find application in the coating of screws and nuts with microencapsulated adhesives. The screws or nuts are coated with a suspension containing microcapsules and then dried. When screwing in the screw or nut, the microcapsules are destroyed. The adhesive fills the space between the threads, hardens there and secures the screw connection. The microcapsules used are not very resistant, since it is desirable that these be destroyed when screwing in the screw or nut. It can therefore be seen that the microcapsules can also be destroyed during the coating, which is undesirable. Furthermore, such microencapsulated adhesives are very expensive to manufacture, so minimizing losses during coating is desired. This has hitherto been achieved by excess coating liquid, which is present as a suspension and contains microcapsules, sprayed by means of a nozzle on the metal parts to be coated or applied by dipping, again in a collecting container and from there back to the reservoir, usually with a peristaltic pump, is encouraged. When pumping back the coating liquid, however, microcapsules are destroyed in the pumping process, so that the number of microcapsules still intact, the longer the coating liquid is in circulation, decreases sharply.

It is therefore an object of the invention to provide a device of the type mentioned, which can ensure a gentle promotion of the coating liquid and is nevertheless easy and inexpensive to customize. It is another object of the invention to provide a method of the type mentioned, which can also ensure the gentle promotion of the coating liquid with a device according to the invention.

The object is achieved in the apparatus according to the invention in that the collecting unit is connected by means of a collecting line, which is provided with a valve with at least one pressurizable collecting container in that the collecting container is further provided with a compressed air source, a vent valve and a riser, and the riser opens into the reservoir, wherein the control unit controls the valve, the vent valve and the compressed air source.

With the device according to the invention, therefore, the coating liquid located in the collecting container can be gently transported back into the reservoir by the valve and the vent valve are closed and the collecting container is then pressurized. The riser is structurally arranged such that its lower end is is below the level of the coating liquid, so that the coating liquid can escape when pressurizing the collecting container with pressure only through the riser.

The compressed air can be provided for example via a preferably decentralized compressor, but in particular also via a compressed air turbine.

In a further preferred embodiment of the invention, the collecting container is equipped with a filling level sensor. More preferably, the control unit receives signals emitted by the level sensor and in response controls the valve, the bleed valve, and the compressed air source. The device according to the invention is accordingly designed such that the filling level sensor determines the level of the coating liquid and transmits corresponding signals to the control unit. Upon attaining a settable level of the coating liquid in the catch tank, the control unit then controls the valve, the vent valve and the source of pressurized air to return the coating liquid to the reservoir.

Alternatively or additionally, the control unit regulate valve, vent valve and compressed air source via a time program. It can be provided, for example, instead of the level detection of the level sensor, that the collecting container is emptied at regular intervals.

In a still preferred embodiment of the invention, the device is equipped with two collecting containers. More preferably, the valve is designed as a three-way valve. The collecting line is thus branched by means of the three-way valve, wherein both collecting lines each downstream of the three-way valve open into a collecting container. Both receptacles are also connected to the compressed air source. The three-way valve is controlled so that the collecting unit is always in communication with one of the collecting container. The other collecting container is thus separated and can be pressurized accordingly after closing the associated venting valve, so that the coating liquid contained therein back to the reservoir can be promoted. It is thus avoided with a device according to the invention that when closing the valve - depending on the flow rate of the coating liquid and level and capacity of the collecting container - an undesirable backlog of coating liquid forms in the collecting line, which can lead to an overflow of the collecting unit in an extreme case.

Even more preferably, the invention provides that the control unit synchronizes the emptying of a collecting container with the filling of the other collecting container. Knowing the approximate flow rate of the coating liquid flowing through the collecting line, the controller can be set up so that the return of the coating liquid in a collecting container is adjusted to the collecting amount of excess coating liquid in the other collecting container. The time required for emptying a full collection container thus essentially corresponds to the time necessary to fill the other collection container with the same amount of coating liquid. Thus, both collecting containers can be driven synchronously "in push-pull". This is particularly advantageous for a simple and low-interference design of the device according to the invention. In particular, the control is thus clearly simplified, so that components such. the compressed air source, not constantly switched on and off, which has a positive effect on the life of the device according to the invention.

A still preferred development of the invention is characterized by a collecting unit, which is designed as a collecting tray. The drip tray is particularly suitable for a coating unit which is designed for spraying the metal parts to be coated. The drip tray is preferably located immediately below the coating unit and can thus catch dripping, excess coating liquid. Further, the drip tray is formed, for example, funnel-shaped, that the collected coating liquid can be passed into the collecting line.

The invention further provides that a supply of fresh coating liquid is provided in the collecting unit. Thus, the amount of coating liquid in circulation can not go below a predetermined amount.

The invention further provides for the use of the device according to the invention for the coating of threads or threaded parts of screws and nuts, with a coating liquid containing adhesive-containing microcapsules.

For the coating of threads or threaded parts of screws and nuts with the device according to the invention, the invention provides that the following steps are carried out with a method according to the invention: filling the storage container with coating liquid, coating the metal parts, collecting excess coating liquid in the collecting unit, introducing excess Coating liquid into the or a collecting container, closing the valve and the venting valve, pressurizing the collecting container with compressed air and thus returning the coating liquid via the riser into the reservoir, termination of the compressed air supply and pressure relief by opening the vent valve, and opening the valve in the collecting line.

More preferably, the valve and the vent valve are closed only when the coating liquid has reached a preset level in the collecting container. Thus, we allow the air contained in the catch tank to escape through the vent valve while the catch tank is filling. Closing the valve when a preset level is reached will also cause no coating liquid to enter the sump. This is particularly advantageous if the preset level is set relatively high, ie the collecting container is substantially filled. Otherwise, excess coating liquid could lead to the overflow of the collecting container or to the running out of the coating liquid from the venting valve.

The inventive method further preferably provides that two collecting containers are driven alternately, wherein a collecting container receives excess coating liquid and the other collecting container is pressurized with compressed air for the purpose of returning the coating liquid. More preferably, the return conveyance of the coating liquid in a collecting container is adjusted to the collecting amount of excess coating liquid in the other collecting container. More preferably, the control of the method is a time control. Thus, the inventive method can be performed with a relatively simple device according to the invention. For example, can be dispensed with an expensive and possibly fault-prone electronic control and level sensors and instead the process can be controlled by means of a relatively simple time switch.

A further advantageous development of the method according to the invention provides that fresh coating liquid is guided into the collecting unit. More preferably, the supplied amount of fresh coating liquid corresponds to the consumption amount of coating liquid. Thus, the amount of coating liquid in circulation can not go below a predetermined amount. Even more advantageously, the amount of coating liquid in circulation is kept constant. This is particularly advantageous when the inventive method is time-controlled, otherwise there is a risk that the circulating amount of coating liquid is too small and consequently the device according to the invention - even if only temporarily - dry, resulting in a deficient or possibly missing Can cause coating of the metal parts.

Fig.1

eine schematische Darstellung einer erfindungsgemäßen Vorrichtung mit einem Auffangbehälter,

Fig. 2

eine schematische Darstellung einer erfindungsgemäßen Vorrichtung in einer Ausführung mit zwei Auffangbehältern.

Further advantages and features of the invention will be explained in more detail below with reference to the exemplary embodiments shown in the figures for the device and use according to the invention and for the method according to the invention. Show

Fig.1

a schematic representation of a device according to the invention with a collecting container,

Fig. 2

a schematic representation of a device according to the invention in an embodiment with two collecting containers.

In the Fig. 1 schematically a device according to the invention is shown, which has a reservoir 1, a control unit 3, a connected to the reservoir 1 by means of a line 5 coating unit 7. Below the coating unit 7, a collecting unit 9 for collecting excess coating liquid is arranged, which is connected by means of a collecting line 11 with a collecting container 13. The collecting line 11 is provided with a valve 15 and thus - depending on the position of the valve 15 - be interrupted. The collecting container 13 is further connected to a compressed air source 17 by means of a compressed air line 19. A riser 21 leads from the collecting container 13 to the reservoir 1. For measuring the level of the collecting container 13, a level sensor 23 is provided, which is in communication with the control unit 3. For venting during the filling of the collecting container 13, this has a vent valve 25. The control unit 3 is also connected to the valve 15, the compressed air source 17 and the vent valve 25 for controlling these.

For clarity, other components and compounds are not shown, which, however, are readily apparent to one skilled in the art.

When coating parts in the coating unit 7, excess coating liquid initially passes into the collecting unit 9, which may be formed, for example, as a collecting tray or trough, and consequently via the collecting line 11 into the collecting container 13, where the coating liquid is first collected. Upon reaching a definable level of the coating liquid in the collecting container 11 of the level sensor 23 sends a corresponding signal to the control unit 3, which then closes the valve 15 and the vent valve 25. Subsequently, the collecting container 13 is acted upon with air from the compressed air source 17 via the compressed air line 19. The riser 21 is arranged such that its end is below the level of the coating liquid. Due to the fact that the collecting container 13 is airtight closed with closed valve 15 and vent valve 25 with the exception of the riser 21, the coating liquid is supplied via the riser 21 from the collecting container 13 when pressurizing the collecting container 13 with pressure and returns to the reservoir 1, where the coating liquid is available for coating again. If the level sensor detects 23 that the collecting container 13 is empty again or has reached a definable vacancy, he sends a corresponding signal to the control unit 3, which in turn closes the compressed air supply and the valve 15 and the vent valve 25 opens again, so that the from the collecting unit 9 collected coating liquid can flow back into the collecting container 13.

Fig. 2 shows a schematic representation of a device according to the invention in an embodiment with two collecting containers 13. The essential structure of the device corresponds to that of the device of Fig. 1 , However, the collecting line is provided with a three-way valve 27 instead of the valve 15, which can guide the coating liquid to one of the two collecting container 13 A or B depending on the switching position. The operation also essentially corresponds to that of the device from the Fig. 1 , When one of the sumps 13 (in this case sump A) is full, the associated level sensor 23 sends a signal to the control unit 3 which in response actuates the three-way valve 27, closes the full sump breather valve 25 and the source of pressurized air 17 controls. The coating liquid is thus conveyed back to the reservoir 1. Due to the switching position of the three-way valve 27, however, coating liquid continues to flow into the empty receptacle 13 B. A backlog of coating liquid in the collecting line 11 upstream of the three-way valve 27 is thus counteracted. When the receptacle 13 A is empty and the receptacle 13 B is full, the Three-way valve 27, the vent valve 25 and the compressed air source 17 is operated accordingly, so that the collecting container 13 B can be emptied.

As an alternative, not shown, control of the device according to the invention can be provided that, depending on the flow rate of flowing through the collecting line 11 coating liquid, the three-way valve 27 and consequently the vent valves 25 and the compressed air source 17 are controlled in time, so that the filling time of a collecting container 13 essentially corresponds to the time which is necessary for emptying the other full collecting container 13.

Claims (17)

Apparatus for coating metal parts, preferably threads of screws and nuts, with a coating liquid containing adhesive-containing microcapsules, comprising: a reservoir (1) for the coating liquid, a control unit (3), - One with the reservoir (1) by means of a line (5) connected coating unit (7), and - A collecting unit (9) for collecting excess coating liquid;
characterized in that the collecting unit (9) by means of a collecting line (11) which is provided with a valve (15, 27) with at least one pressurizable collecting container (13) is in communication that the collecting container (13) further comprising a compressed air source (17), a vent valve (25) and a riser (21) is provided, and the riser (21) opens into the reservoir (1), wherein the control unit (3) the valve (15, 27), the vent valve (25 ) and the compressed air source (17) regulates. Apparatus according to claim 1, characterized in that the collecting container is equipped with a level sensor (23). Apparatus according to claim 2, characterized in that the control unit (3) receives signals emitted by the level sensor (23) and in response controls the valve (15, 27), the venting valve (25) and the compressed air source (17). Apparatus according to claim 1 or 2, characterized in that the control unit (3) controls valve (15, 27), vent valve (25) and compressed air source (17) via a time program. Device according to one of the preceding claims, characterized in that the device is equipped with two collecting containers (13A, 13B). Apparatus according to claim 5, characterized in that the valve is designed as a three-way valve (27). Apparatus according to claim 5 or 6, characterized in that the control unit (3) synchronizes the emptying of a collecting container (13A, 13B) with the filling of the other collecting container (13A, 13B). Device according to one of the preceding claims, characterized in that the collecting unit (9) is a collecting tray. Device according to one of the preceding claims, characterized by a supply for fresh coating liquid in the collecting device (13). Use of the device according to one of the preceding claims for the coating of threads or threaded parts of screws and nuts, with a coating liquid containing adhesive-containing microcapsules. Method for coating metal parts, preferably the threads of screws and nuts with a A coating liquid containing adhesive-containing microcapsules, comprising a device according to any one of claims 1 to 9, comprising the following steps: Filling the storage container (1) with coating liquid, Coating the metal parts, Collecting excess coating liquid in the collecting unit (7), Introducing excess coating liquid into the or a collecting container (13), Closing the valve (15, 27) and the venting valve (25), Pressurizing the collecting container (13) with compressed air and thus conveying back the coating liquid via the riser (21) into the storage container (1), - Termination of compressed air supply and pressure relief by opening the vent valve (25), and - Opening the valve (15, 27) in the collecting line. A method according to claim 11, characterized in that the valve (15, 27) and the vent valve (25) are closed only when the coating liquid has reached a preset level in the collecting container (13). A method according to claim 11, characterized in that two collecting containers (13A, 13B) are driven alternately, wherein a collecting container (13A, 13B) receives excess coating liquid and the other collecting container (13A, 13B) is supplied with compressed air for the purpose of returning the coating liquid. A method according to claim 13, characterized in that the return conveyance of the coating liquid in a collecting container (13A, 13B) is matched to the collecting amount of excess coating liquid in the other collecting container (13A, 13B). A method according to claim 13 or 14, characterized in that the control of the method is a time control. Method according to one of the preceding claims, characterized in that fresh coating liquid is fed into the collecting unit (13). A method according to claim 16, characterized in that the supplied amount of fresh coating liquid corresponds to the consumption amount of coating liquid.

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