DEVICE FOR APPLYING COMPOUNDS AND THE USE THEREOF

Abstract

An application device for paste-like and/or flowable material, including a housing with a feed region for material and at least one discharge region for material. At least one mixing region is formed between the feed region for material and the discharge region for material and the at least one mixing region is designed as at least one mixing device.

Description

The invention relates to a device for the application of free-flowing and/or paste-like masses, as well as to the use thereof.

Devices for the application of free-flowing and/or paste-like masses are known in principle. In addition, machines are known which have devices of this type.

Machines for processing clay for the production of models, for example in automotive development, are known. Thus, DE 29720892 U1 and DE 102016109816 A1 illustrate and describe machines which prepare/heat clay and transport free-flowing/paste-like clay in a heated tube to the site of application.

The clay is heated and conveyed in the machines shown in order to eventually be conveyed in a heated conveying tube to an application nozzle and squeezed nut of it.

In this respect, it has been shown to be disadvantageous if the clay is dispensed from the application nozzle in a non-homogeneous/segregated manner, which leads to undesirable variations in quality and unacceptable surface effects because the individual components of the clay which is under pressure/conveyed segregates over the transport path. This segregation is frequently also termed migration of the particles and/or phase separation.

Furthermore, application nozzles with integrated mixing inserts in order to mix two fluid components are known from the plastics industry. These application tools have two supplies for the components which are provided, which are mixed with each other at the processing site, wherein the mixture which is formed, which in particular is liquid, is cross-linked and cures in the mould. This is known from WO 2013/127534 A1, for example. The disadvantage here is that these tools are unsuitable for processing paste-like masses such as industrial clay, because masses of this type cannot be processed at room temperature in this manner.

Thus, the objective of the invention is to provide a device for the application of masses which does not suffer from the aforementioned disadvantages and in particular provides high/homogeneous quality industrial clay at the processing/application site.

A further objective of the invention is to provide a device which is constructed in a manner such that high quality industrial clay can be used in the design process for the automobile industry/in automotive development.

The objective is achieved with the features comprised in claims 1, 6 and 7.

Advantageous embodiments and implementations of the inventive solutions are comprised in the other claims.

It has surprisingly been shown that homogeneous mixing of the components of the industrial clay at the application site can be guaranteed by means of a sizing device which integrated into the application device. The mixing device may be a static and/or dynamic mixer.

Furthermore, it has been shown to be advantageous for a heating device to be integrated into the application device, whereupon the optimal processing temperature for industrial clay is guaranteed at the site of application.

In the present case, the processing/application temperature is 60° C. to 80° C. Examples of possible heating devices are an electrical heater, resistance heater, strip heater, silicon heating pad and/or cartridge heater.

For a better understanding of the present invention, a formulation for an industrial clay in accordance with the prior art will be cited by way of example; it can be processed with the application device in accordance with the invention or a machine having a device of this type.

FORMULATION EXAMPLE

Industrial Clay (Prior Art)

31%	by weight	paraffin wax and microwax
5%	by weight	white oil
47%	by weight	filler
15%	by weight	lightweight filler
2%	by weight	pigments

As can be seen from the example, the formula has liquid/wax-like (oil and waxes) and solid (fillers, pigments) components. In many known clay formulae in accordance with the prior art, the proportion of solid components is in the range from 61% to 70% by weight and the proportion of liquid and/or paste like components is in the range between 30% and 39% by weight.

The components of the clay are homogeneously mixed the basic state with no heat treatment prior to conveying, but they segregate during processing in application machines as a function of the pressure applied for transport and the length of the heated transport tube. This brings about very pronounced and noticeable striations/marbling effects due to segregation of the components at the surface of the applied clay mass, with the disadvantages which have been mentioned.

Because of the shear which arises, the effect of the striations/marbling is particularly noticeable at the regions on the surface and near the surface of the clay, because the moved/conveyed clay is slowed down by friction at the internal surface of the conveying tube.

FIGS. 1 and 2 serve to illustrate the segregation effect. In this regard, FIG. 1 shows the cross section through a round rod depicted as it is leaving the discharge nozzle, while FIG. 2 shows a cross section through the central axis of the rod. Shadowing/black gradations can be seen, which are evidence of the segregation of the components. This effect, based on shear, becomes stronger with the conveying length of the supply tube and with increasing conveying pressure in the supply tube as well as with the applied heating temperature.

It has been shown to be particularly advantageous for the application device to have a mixing device and a heating element. This combination ensures that at any point in time, the clay is at the optimum temperature at the site of application, and is also homogeneously mixed through. In addition, it has been shown that the colour characteristics and structure at the surface of the processed clay are uniform over its entire surface and can qualitatively be perceived to be of high quality.

The application device in accordance with the invention will now be described in more detail with the aid of FIGS. 3 and 4.

FIG. 3 shows a cross section through an embodiment of the application device 1 in accordance with the invention, essentially consisting of a housing part 10 and a mixing device 16 integrated into/disposed in the housing part 10. The mixing device 16 in this embodiment is constructed as a mixing device 16 with a static mixer.

The housing part 10 has a material supply region/supply region 13 at one end and a discharge region at the opposite end, wherein 13 means for connecting to the heated supply tube/conveying tube 24 are formed in the supply region. A discharge nozzle 12 is mounted at the discharge region 11, which in this embodiment has a discharge nozzle 12 with a slotted opening, but it could equally be in the form of a round or other geometrically shaped opening.

What is known as the mixing region 15 in which a mixing device 16 is integrated/formed is disposed between the supply region 13 and the discharge region 11. The mixing device 16 is a static mixer with a stationary mixing rod 17, wherein in this embodiment, the mixing region 15 is divided into 8 mixing elements 171, wherein the mixing direction of the elements 171 is alternately in the clockwise direction and in the anti clockwise direction in order to ensure optimal thorough mixing of the paste-like and/or free-flowing material because of the changes in direction.

So that the industrial clay 3 in the application device 1, for example in the mixing region 15 with large contact surfaces, does not become cold or cool down an d is brought back to or maintained at an optimal processing temperature, a heating device 18 is constructed between the supply region and the discharge region (13 and 12). In this embodiment, the heating device 18 is in the form of an electrical resistance heater. In this regard, it has been shown to be advantageous for the region 181 which is heated by the heater 18 to at least partially coincide with the mixing region 15.

The handgrip region of the application device is insulated in configuration in order to shield the user from the heat produced by the heating device 18.

As an alternative mixing device to the static mixer, a dynamic mixer with at least one rotatably driven mixing shaft may also be provided. The conveying pressure at the mixing tube can be reduced by using a dynamic mixer, whereupon again, segregation of the components of the conveyed clay can be reduced.

The application device of claim 1 according to the invention is used in the production of design models in automotive development, wherein the application device is a part of an application machine, wherein the application device a hand-held tool.

Furthermore, the application device of claim 1 according to the invention is used in the production of design models in automotive development, wherein the application device is a part of an application machine and wherein the application machine is constructed as a fully automatic application system.

An application machine 2 for heating and application of plastic masses 3 is shown in FIG. 4. The machine 2 has at least one conveying station 21 which can be heated, with a filling opening 25 and a conveying unit/conveying station 21, as well as an extraction station 23 for plastic masses 3 which are capable of being processed. A heated conveying tube 24 is attached to the extraction station 23, wherein the application device 1 in accordance with the invention is attached to the end of this conveying tube 24.

In principle, the application machine 2 corresponds to a prior art unit such as that known, for example, from DE 29720892U1 and DE 102016109816 A1.

The application device for paste-like and/or free-flowing material at least consists of a housing with a supply region for material and at least one discharge region for material, wherein at least one mixing region is constructed between the supply region for material and the discharge region for material, wherein the at least one mixing region is constructed as at least one mixing device.

At least one heating device is constructed between the supply region and the discharge region, wherein a heating region is formed by the at least one heating device.

The at least one mixing device is constructed as at least one static mixer and/or at least one dynamic mixer, wherein the at least one static mixer has at least one mixing rod with at least one mixing element.

In this regard, the heating region of the heater and the mixing region at least coincide partially or are constructed to coincide.

An application device as described above is used in the production of design models in automotive development, wherein the application device is constructed as a part of an application machine and wherein the application device is constructed as a hand-held tool.

In addition, the application device described above is used the production design models in automotive development, wherein the application device is constructed as a part of an application machine and wherein the application machine is constructed as a fully automatic application system.

LIST OF REFERENCE NUMERALS

1 application device

10 housing part

11 discharge region

12 discharge nozzle

13 supply region

14 tube connector

15 mixing region

16 mixing device

17 mixing shaft/mixing rod

171 mixing element

18 heating device

181 heating region

19 handgrip region/manipulation region

2 application machine

21 conveying station

23 extraction station

24 conveying tube

25 filling opening

3 plastic mass/industrial clay

Claims

1-7. (canceled)

8. An application device for paste-like and/or free-flowing material, comprising: a housing with a supply region for material and at least one discharge region for material, wherein at least one mixing region is arranged between the supply region for material and the discharge region for material, and wherein the at least one mixing region is constructed as at least one mixing device.

9. The application device according to claim 8, further comprising at least one heating device arranged between the supply region and the discharge region, wherein a heating region is formed by the at least one heating device.

10. The application device according to claim 8, wherein the at least one mixing device is at least one static mixer and/or at least one dynamic mixer.

11. The application device according to claim 10, wherein the at least one static mixer has at least one mixing rod with at least one mixing element.

12. The application device according to claim 9, wherein the heating region of the heater and the mixing region at least partially coincide or are constructed to coincide.

13. A method for producing design models in automotive development, comprising the step of using an application device according to claim 8 for producing the design models, wherein the application device is a part of an application machine and wherein the application device is a hand-held tool.

14. A method for producing design models in automotive development, comprising the step of using an application device according to claim 8 for producing the design models, wherein the application device is a part of an application machine and wherein the application machine is a fully automatic application system.