DE102019202292A1 - Method of applying a non-stick solution - Google Patents

Abstract

Method for applying a non-stick solution of a certain concentration inside a raw or vulcanized pneumatic vehicle tire (11), comprising the following steps: a. Mixing a non-stick solution with water to produce a diluted non-stick solution in a mixing container (2), b. Spraying on the diluted non-stick solution by means of a spray system (8), c. Before spraying, online measurement of the concentration of the diluted non-stick solution by means of a concentration measuring device (9), d. Comparison of the determined actual values of the concentration with a nominal value or a nominal value range, e. if the setpoint or the setpoint range is exceeded or not reached, automatic setting or adjustment of the amount of non-stick solution and / or water added to the mixing container (2).

Description

The invention relates to a method for applying an anti-stick solution of a certain concentration inside a raw or vulcanized pneumatic vehicle tire.

It is known, for self-sealing of pneumatic vehicle tires after their vulcanization and therefore afterwards, to apply a sealant layer radially on the inside, which has essentially the width of the belt package and is applied in its projection. Such a self-sealing pneumatic vehicle tire is for example from DE 10 2012 107 606 A1 known. The sealant is a self-adhesive, viscous sealant, for example a sealant as it is in the DE 102017207596 A1 of the applicant is mentioned. The sealant is introduced into the tire while it is rotated at a speed of 500 to 1000 revolutions per minute in order to achieve an even distribution of the sealant inside the tire. Such a sealant is used by the applicant under the trademarked name “ContiSeal”. In order to avoid contamination on the sticky outer surface of the sealant layer, a non-stick solution in a dilution is then applied to the sealant layer, which is intended to ensure good application via spray systems, a good reduction in the stickiness of the sealant layer and a certain surface tension of the non-stick solution on the sealant layer. In a further known application of a dilute non-stick solution, this is applied to the inner layer before the vulcanization of green tires in order to facilitate the removal of the tires from the mold after the vulcanization.

The usual, commercially available non-stick solutions are too concentrated to be used immediately for the above purposes. In order to ensure the desired result - when using a non-stick solution on a sealant layer, good processability, the desired reduction in stickiness and optimal surface tension - it is necessary to dilute the non-stick agent with water to such an extent that the diluted non-stick solution produced has a certain lower concentration. In the prior art, the concentration is measured by taking samples at certain time intervals and measuring the electrical conductivity of the solution off-line. Sampling now takes place, if necessary, at a point in time at which a too high or too low concentrated non-stick solution is already being used. This can have the result that the tackiness of the sealant layer inside the tire is not reduced in the desired manner and / or that the spray system does not work optimally and is glued. If the concentration is too high, too much starting solution is used, which unnecessarily increases material costs.

The invention is based on the object of providing a method with which it is ensured that the diluted non-stick solution is sprayed into the interior of the tire in the desired concentration at all times.

1. a. Vermischen einer Antihaftlösung mit Wasser zur Herstellung einer verdünnten Antihaftlösung in einem Mischbehälter,
2. b. Aufsprühen der verdünnten Antihaftlösung mittels eines Sprühsystem,
3. c. vor dem Aufsprühen Online-Messung der Konzentration der verdünnten Antihaftlösung mittels einer Konzentrationsmessvorrichtung,
4. d. Vergleich der ermittelten Istwerte der Konzentration mit einem Sollwert oder einem Sollwertbereich,
5. e. bei Über- oder Unterschreiten des Sollwertes bzw. des Sollwertbereiches automatisches Einstellen bzw. Anpassen der Zuführmenge an Antihaftlösung und/oder Wasser in den Mischbehälter.

The task at hand is achieved with a method that has the following steps:

1. a. Mixing a non-stick solution with water to produce a diluted non-stick solution in a mixing container,
2. b. Spraying the diluted non-stick solution using a spray system,
3. c. Before spraying, online measurement of the concentration of the diluted non-stick solution using a concentration measuring device,
4. d. Comparison of the determined actual values of the concentration with a target value or a target value range,
5. e. if the setpoint or the setpoint range is exceeded or not reached, automatic setting or adjustment of the amount of non-stick solution and / or water added to the mixing container.

The method according to the invention therefore enables the concentration of the diluted non-stick solution to be measured online and, via a feedback loop, the setting of an optimal concentration of the diluted non-stick solution. It is therefore also possible to run these process steps automatically.

According to preferred embodiments, the online measurement of the concentration of the diluted non-stick solution takes place in step c) either in the mixing container or immediately after the mixing container. Both variants are possible and advantageous, with a measurement immediately after the mixing container having the additional advantage of being carried out in a well-mixed solution.

In a further preferred embodiment variant of the method it is provided that the diluted non-stick solution is passed from the mixing container into a working container in which the diluted non-stick solution is mixed again. This measure ensures, above all, that the diluted non-stick solution is well mixed when it is fed into the spray device.

It can advantageously be provided that after the working container and before spraying the diluted non-stick solution by means of a second concentration measuring device Control measurement of the concentration of the diluted non-stick solution takes place.

A comparison of the determined actual values of the concentration with a target value or a target value range is also preferably carried out during the control measurement and, if the target value or the target value range is exceeded or not reached, an automatic setting or adaptation of the mixing parameters in the working container is initiated. A non-optimal mixing in the working container is usually the cause of concentration fluctuations in the diluted non-stick solution after it has been removed from the working container.

The concentration of the diluted non-stick solution can be measured in different ways. It is particularly advantageous, because it is particularly precise, to determine the concentration of the diluted non-stick solution by measuring the electrical conductivity of the solution.

The individual steps of the process are designed and coordinated with one another in such a way that these process steps can run completely automatically. If the diluted non-stick solution is now introduced into the tire using a robot-controlled spray system, this step can also take place automatically.

Further features, advantages and details of the invention will now be described with reference to the drawing, which schematically shows components of a device by means of which a non-stick solution is made available.

The arrangement according to 1 includes a container 1 which contains a non-stick solution, the concentration of which must be reduced. The non-stick solution is created using a first pump 3 into a mixing container 2 promoted. By means of another pump 5 water from a water tank or directly from the municipal water supply into the mixing tank 2 introduced and mixed here with the introduced non-stick solution to form a diluted non-stick solution. The performance of the pumps 3 and 5 is set so that the in the mixing tank 2 The diluted non-stick solution created has largely the desired concentration. The diluted non-stick solution is then either fed directly to a spray system or, as in 1 shown via a feed line 4th and by means of a third pump 6th in a working container 7th transported, from which the diluted non-stick solution is removed and a particularly robot-controlled spray system 8th is fed, by means of which the diluted non-stick solution is sprayed. In all containers 1 , 2 and 7th the non-stick solution is constantly mixed. In a preferred embodiment, the diluted anti-stick solution is applied to the inside of a pneumatic vehicle tire 11 applied self-sealing sealant layer sprayed on. The sealant layer is known to be a self-adhesive, viscous sealant which is applied radially inside in the projection area of the belt package of the pneumatic vehicle tire to the radially innermost tire layer - an airtight or largely airtight inner layer - after the vulcanization of the pneumatic vehicle tire 11 is applied as a thin layer.

Such a sealant is known, for example, under the trademarked name “ContiSeal”. In order to avoid contamination of the sticky sealant layer, a non-stick solution is sprayed onto the sealant layer. In order for the non-stick solution to be easily processable, to have a certain surface tension on the sealant layer and to sufficiently reduce the stickiness of the sealant layer, it is necessary that it has a certain concentration.

In order to ensure this specific and as optimal as possible concentration of the diluted non-stick solution, is immediately after the mixing container 2 the concentration of the diluted non-stick solution within the feed line 4th to the working tank 7th with a concentration measuring device 9 measured, which determines the concentration of the diluted non-stick solution. The concentration can be determined, for example, via the electrical conductivity of the diluted non-stick solution or optically, via light absorption. The concentration measuring device 9 has a software with which the determined actual value of the electrical conductivity is compared with a target value. If the actual value deviates from the target value, the output of the pump 3 and / or the pump 5 regulated so that the mixing tank 2 a larger or smaller amount of anti-stick agent and / or water is added, depending on whether the anti-stick agent should be more or less diluted with water. About this, in 1 drawn feedback loop 10 this ensures the best possible dilution of the non-stick solution. A second concentration measuring device 9 ' can after the working tank 7th in the feed line of the non-stick solution to the robot-controlled spray system 8th carry out a control of the concentration via the electrical conductivity of the solution, with a particular automatic setting or adjustment of the mixing parameters in the working container in the event of a certain deviation of the actual value from the target value 7th he follows.

For example, silicone-free spray solutions from Rhein Chemie can be used to produce the diluted non-stick solution for a sealant layer, for example Rhenodiv BP-20, Rhenodiv BP-286 or Rhenodiv BP-2864. To measure the concentration are commercially suitable available measuring devices, for example the measuring device SC1000-Controller from Hach.

In principle, it is also possible to use the method according to the invention to apply a dilute non-stick solution to the inner layer before the vulcanization of a green tire inside the tire.

List of reference symbols

1

container

2

Mixing tank

3

pump

4th

Feed line

5

pump

6th

pump

7th

Working container

8th

Spray system

9, 9 '

Concentration measuring device

10

Feedback loop

11

Pneumatic vehicle tires

QUOTES INCLUDED IN THE DESCRIPTION

This list of the documents listed by the applicant was generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Patent literature cited

• DE 102012107606 A1 [0002]
• DE 102017207596 A1 [0002]

Claims (8)

Method for applying a non-stick solution of a certain concentration inside a raw or vulcanized pneumatic vehicle tire (11), comprising the following steps: a. Mixing a non-stick solution with water to produce a diluted non-stick solution in a mixing container (2), b. Spraying the diluted non-stick solution using a spray system (8), c. Before spraying, online measurement of the concentration of the diluted non-stick solution using a concentration measuring device (9), d. Comparison of the determined actual values of the concentration with a target value or a target value range, e. if the setpoint or the setpoint range is exceeded or not reached, automatic setting or adjustment of the amount of non-stick solution and / or water added to the mixing container (2). Procedure according to Claim 1 , characterized in that in step c) the online measurement of the concentration of the diluted non-stick solution in the mixing container (2) or immediately after the mixing container (2) takes place. Procedure according to Claim 1 or 2 , characterized in that the diluted non-stick solution is fed from the mixing container (2) into a working container (7) in which the diluted non-stick solution is mixed again. Method according to one of the Claims 1 to 3 , characterized in that after the working container (7) and before the diluted non-stick solution is sprayed on, a control measurement of the concentration of the diluted non-stick solution takes place by means of a second concentration measuring device (9 '). Procedure according to Claim 4 , characterized in that the determined actual values of the concentration are compared with a nominal value or a nominal value range and, if the nominal value or the nominal value range is exceeded or not reached, the mixing parameters in the working container (7) are automatically set or adapted. Method according to claim one of Claims 1 to 5 , characterized in that the concentration of the diluted non-stick solution is determined via the electrical conductivity of the diluted non-stick solution. Method according to one of the Claims 1 to 6th , characterized in that the diluted non-stick solution is applied by means of a robot-controlled spray system (8). Method according to one of the Claims 1 to 7th , characterized in that the diluted non-stick solution is applied to a sealant layer located on the inside of the vulcanized pneumatic vehicle tire.

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