DE10341055A1 - Method for applying a medium to an object by spraying consists of measuring at least the temperature and/or the viscosity of the medium, and controlling the spraying pressure and/or the spraying time - Google Patents

Abstract

The method for applying a medium to an object (1) by means of a spraying device (2) consists of measuring at least the temperature and/or the viscosity of the medium, and controlling the spraying pressure and/or the spraying time dependent on the measurement results. An independent claim is also included for an apparatus for implementation of the proposed method.

Description

The invention relates to a A method of applying a medium to an object, the Medium about a spraying time (t) with a spray pressure (p) by a sprayer is applied. Furthermore, the invention relates to a corresponding Contraption. The medium can be, for example, silicone oil or act a disinfectant. However, it can also be anything other liquid Act product that is flat is to be applied. The object can be a syringe or e.g. a yogurt cup lid his.

The patent DE 100 00 505 describes a method for the internal siliconization of hollow cylindrical bodies and an associated device. The silicone oil is applied using the means by which ink printers place ink on paper. In particular, the hollow cylindrical bodies refer to syringes that are coated with silicone in order to make the syringe plunger easier to move. The range of the viscosity of the silicone oil is stated to be between 350 and 2000 mm ² / s. However, it is not considered that the spray characteristic, for example of a spray nozzle, changes with the viscosity and the temperature of the medium.

When applying a medium an object must generally pay attention to an even order, so that no area remains uncovered. This can be done with the Spray pressure (p) and the spraying time (t) control. However, these control variables depend again from the spray properties of the medium to be applied, e.g. the viscosity.

The object of the invention is therefore to provide a method and a device with which a uniform application of a medium on an object is.

The task regarding the procedure is thereby solved, that at least the temperature and / or the viscosity of the medium is measured, and that depending on the temperature and / or the viscosity of the spray pressure (p) and / or the spray time (t) is regulated. So it either gets the viscosity directly measured or the temperature that can contribute to a change in viscosity. In the latter case, the dependency must then the viscosity be known from the temperature of the medium. Starting from these measured values are then the spray pressure (p) and / or the spray time (t) the spray device regulated. E.g. increases the temperature increases or decreases Viscosity, so can the spraying time (t) decreased or the spray pressure (p) increased order the same amount as at lower temperatures or higher viscosities to reach.

An advantageous embodiment includes that at a first setting at a first temperature and / or at a first viscosity a first optimal spraying time (t) and / or a first of the medium optimal spray pressure (p) is determined, and that with at least a second setting at a second temperature and / or at a second viscosity of the medium a second optimal spraying time (t) and / or a second optimal spray pressure (p) is determined. In order to a further embodiment is connected, which provides that a mathematical relationship between spray pressure (p) and / or spray time (t) and temperature and / or viscosity based on the at least two settings, and that based on the mathematical relationship the spray pressure (p) and / or the spraying time (t) depending on the temperature and / or the viscosity is regulated. An advantageous one Design implies that the mathematical relationship is linear is. This means that starting from the setting points, a Setting curve is extrapolated, with which the regulation of spray pressure (p) and / or spray time (t) is made. These setting points can e.g. through an optical Evaluation of the spray jet be determined. To achieve a good extrapolation, you should the temperatures or viscosities preferably are far apart or at least the respective area in which the medium is in terms of temperature and / or viscosity can cover. Two settings are the minimum for an extrapolation there and also result in the simplest mathematical model. Become made several settings, so the mathematical model each be better designed.

An advantageous embodiment of the The process provides that the medium is supplied with a gas and / or a gas mixture is applied as a spray, and that the amount of feed Gases is measured. Media can either with or without the addition of a gas - usually air become. The order hangs however sensitive to the amount of gas. As of today In technology, the amount of gas is adjusted only by known ones Sizes on the crowd is closed. about the pending pressure as a measurement and one mechanical quantity ratio control the amount of gas as such does not have to be measured directly since it results from the parameters. The volumetric The amount of the medium is added to the volumetric amount of gas. On increase of pressure thus theoretically an increase the supplied Quantity of gas. However, this does not take into account the fact that parameters can change. The Measuring the amount of gas is therefore not mandatory, but offers advantages if The relationship is no longer linear between the medium and the gas. A Nonlinearity can for example about the mechanics of the unit in which the spray is created becomes.

An advantageous embodiment includes that the amount of gas depends at least on speed of the spray time (t) and / or the spray pressure (p) and / or the viscosity and / or the temperature of the medium is regulated. The amount of the medium depends on several factors which are measured according to the invention. The amount of gas must vary depending on the spray you want. It is therefore advantageous if this amount is set according to the required value depending on the factors of the medium.

The task is regarding the Device according to the invention solved, that at least one temperature measuring device and / or a viscosity measuring device is provided that measures the temperature and / or viscosity of the medium, and that a Control unit is provided, which the spray pressure (p) and / or the spray time (t) the spray device regulates. In this device, the sizes that influence the quality of the medium, measured and the appropriate control variables of the spraying are adjusted to enable an even coating.

One embodiment provides that the medium is silicone oil. However, it can also about color, disinfectant or any other liquid Trade product. Furthermore, an embodiment includes that the object is a syringe. This is usually the interior of the syringe is coated. The invention relates but also generally on syringe containers and other hollow cylindrical ones body or any other surface.

An embodiment includes that a gas supply is provided, which generates a spray from the medium and a gas, and that a mass meter is provided, which measures the amount of gas. So it is possible, that medium as a spray to apply and at the same time regulate the properties of the fog, by measuring the amount of gas.

For Such a measurement can be made, for example, by the "PROMASS" flow meter, which the applicant is manufactured and distributed. It can be however, use any other flow meter or equivalent. Such a measurement is especially important if it e.g. about control mechanisms to non-linearities comes. One embodiment provides that the gas is Air or nitrogen or an inert gas.

The invention is based on the following Drawings closer explained. It shows:

1 : a flow chart of the method; and

2 : a block diagram of the device.

1 shows the course of the procedure. First, two optimal settings are made. For the temperatures / viscosities, the maximum ranges in which the medium can occur should be covered if possible. A mathematical relationship is calculated based on the at least two settings. The simplest model for this is a linear relationship between temperature and / or viscosity and spray pressure (p) or spray time (t). Another possibility is a higher-dimensional model in which, for example, the relationship between temperature and / or viscosity and spraying time (t) and spraying pressure (p) is calculated. The temperature and / or the viscosity of the medium is then measured and the spray pressure (p) and / or the spraying time (t) are regulated using the mathematical model. The medium can be silicone oil, paint, another liquid product or, for example, a disinfectant. These last three steps are repeated for the next object. In the event that a spray is generated under gas supply, appropriate steps for measuring and regulating the gas supply must be provided.

2 shows a block diagram of the invention. The spray device 2 is in the object 1 which is, for example, a syringe body. With the spray device 2 it can be, for example, a type of printhead using inkjet technology. Or it can also be a nozzle that is common, for example, in air atomization. The medium to be sprayed on is located separately in a container 5 , the container 5 itself can also be a flow meter that receives the medium from a larger reservoir (not shown). The temperature and / or the viscosity of the medium is determined by an appropriate measuring device 3 measured. The measured values go to the control unit 4 which, based on a mathematical model, the spray pressure (p) and / or the spray time (t) of the spray device 2 regulates. There is also a gas supply 6 provided, in which a spray is generated by mixing a gas, such as air, and the medium. In order to achieve a desired spray profile, which also depends on the ratio of the gas / air quantity to the quantity of the medium, the gas quantity is measured directly by an appropriate mass measuring device 7 measured and kept at a value which is adjustable and which is determined according to the desired spray profile. Spray pressure (p) and time (t) as well as the temperature and viscosity of the medium play a decisive role here.

1

object

2

spraying

3

gauge

4

control unit

5

container

6

gas supply

7

mass meter

Claims (11)

Method for applying a medium to an object ( 1 ), the medium over a spraying time (t) with a spraying pressure (p) by a spraying device ( 2 ) is applied, characterized in that at least the temperature and / or the viscosity of the medium is measured, and that the spray pressure (p) and / or the spraying time (t) is regulated as a function of the temperature and / or the viscosity. Method according to claim 1, characterized, that at a first setting at a first temperature and / or at a first viscosity a first optimal spraying time (t) and / or a first of the medium optimal spray pressure (p) is determined and that at least a second Setting at a second temperature and / or at a second viscosity of the medium a second optimal spraying time (t) and / or a second optimal spray pressure (p) is determined. Method according to claim 2, characterized, that a mathematical relationship between spray pressure (p) and / or spray time (t) and temperature and / or viscosity based on the at least two settings, and that based on the mathematical relationship of the spray pressure (p) and / or the spraying time (t) dependent on is regulated by temperature and / or viscosity. A method according to claim 3, characterized in that the mathematical relationship is linear. Method according to one or more of claims 1 to 4, characterized, that the medium is feeding applied by a gas and / or a gas mixture as a spray becomes, and that the amount of gas supplied is measured. A method according to claim 5, characterized in that the amount of gas depends at least on the spraying time (t) and / or the spray pressure (p) and / or the viscosity and / or the temperature of the medium is regulated. Device for carrying out at least one or more of claims 1 to 6, characterized in that at least one temperature measuring device ( 3 ) and / or a viscosity measuring device ( 3 ) is provided that measures the temperature and / or the viscosity of the medium, and that a control unit ( 4 ) is provided which determines the spray pressure (p) and / or the spray time (t) of the spray device ( 2 ) regulates. Apparatus according to claim 7, characterized in that the medium is silicone oil. Device according to claim 7 or 8, characterized in that the object ( 1 ) is a syringe. Device according to one or more of claims 7 to 9, characterized in that a gas supply ( 6 ) is provided, which generates a spray from the medium and a gas, and that a mass measuring device ( 7 ) is provided, which measures the amount of gas. Apparatus according to claim 10, characterized in that the gas is air or nitrogen or a rare gas is.