DE10240993A1 - Door sealing frame for cooling devices - Google Patents

Abstract

The invention relates to a sealing frame for doors of domestic appliances. DOLLAR A According to the invention, the formulations of the sealing profile and the magnetic profile are chemically compatible with one another, so that their integral connection can take place in the coextrusion process. DOLLAR A The coextruded profiles are cut to length and completed by welding in the corner areas to form the sealing frame, whereby the magnetic profile - magnetic profile and sealing profile - sealing profile connections are also made in a materially integral manner. DOLLAR A These cohesive corner connections result in a significantly increased corner strength and dimensional accuracy in the finished sealing frame.

Description

The invention relates to the manufacture of co-extruded door sealing frames for cooling devices.

The production of door sealing frames for cooling devices, for example refrigerators or freezers, usually takes place via the following process steps:
First, the polymeric sealing profile is produced by extrusion and - separately - the magnetic profile. Then you cut the sealing profile and the magnetic profile to length and put the magnetic profile in the pocket of the sealing profile. The connection of the two components is therefore loose mechanical, not cohesive.

The production of the finished door sealing frame is now done by corner welding the four miter cut Partial profiles.

However, the corner welding only takes place in the Contact area of the sealing profiles while welding in the Contact area of the magnetic profiles does not occur.

The assembly effort described here is significant, mostly at high costs, but again and again to problems in dimensional accuracy for corner welding of the partial profiles of the door sealing frame leads.

This gave rise to attempts by means of material-fit Connection technology the listed To solve problems.

For example, the US 311728 - for applications in automobile construction or in cooling devices - the coextrusion of a permanently magnetic, flexible plastic strip with a non-magnetic, polymeric counterpart, the latter being designed as a foamed hollow profile and performing the sealing function.

This sealing function is caused by deformation or Compression of the seal causes.

However, the necessary compression of the material exercises a force that counteracts the magnetic force that affects the function a locking force for the Door, for example in the case of a refrigerator. So is a secure lock on the door questioned. Therefore, compression seals are called magnetic seals accomplished are, only very complex to realize. Furthermore, the insulation and sealing effect of Compression sealing profiles unsatisfactory due to the simple single-chamber structure.

The teaches as a further state of the art DE 2601439 a V-shaped sealing system, which on one leg consists of a polymer-bonded, magnetic component and on the other leg of a soft, flexible plastic lip that performs the sealing function. The arrangement is out of the question for a cooling device sealing system, since the insulating effect of the system is inadequate due to the lack of at least one heat-insulating air chamber.

The EP 1031450 describes the production of a polymer compression sealing profile, divided into several steps, for applications in the door and window area in automobile construction with a polymer-based, magnetic component subsequently extruded onto the surface.

Another disadvantage is the design as a compression seal, further the fact that the magnetic component by the Sealing profile not protected is what loses in aesthetics and to increased Abrasion and pollution leads.

These drawbacks can be overcome by abandoning technology the compression seal towards so-called breathing seals as they are more common today State of the art and have been described at the beginning. such Due to their special construction, seals are resistant to deformation, be it compressions or compressions, force-neutral. Hence one Combination with a magnetic locking and holding mechanism especially advantageous because the sealing function and the locking function can be integrated are.

Because of the deformation behavior of the Door sealing profile Such profiles can not only be taken into account can be realized in a single chamber construction, rather it is possible to by a plurality of chambers a significantly improved sealing and front to achieve everything insulation effect.

State of the art are therefore on the one hand Compression sealing systems - too co-extruded - without corner welding, on the other hand breathing sealing systems that over no cohesive Connection between sealing profile and magnetic profile or magnetic profile and magnetic profile.

The present invention, namely that Magnetic profile - alongside the sealing profile - for the connection in the corner area and this solution on so-called breathing sealing systems apply that over a magnetic component in a direct, all-sided enclosed cohesive Connection, does not come from the state of the art and will not suggested.

The object of the invention was to Escutcheon, manufactured as possible in one operation, to provide no visible magnetic stripe and thus has a flawless appearance that can be produced inexpensively a secure sealing function is guaranteed, a significantly improved dimensional stability has and its magnetic profile with the sealing profile - and for the formation of connections in the corner area - with weldable itself is.

According to the invention, the task was solved by developing a door seal frame, the recipes of the sealing profile and the magnetic profile are chemically compatible with one another, and the recipe for the magnetic profile is selected in such a way that it is able - without losing the ability to extrude - to absorb sufficiently large amounts of magnetic component. On the one hand, the necessary magnetic adhesive force is achieved, on the other hand, the possibility is created that the magnetic profile can be welded both to itself and to the sealing profile.

The invention will now be described below described in more detail become.

For the formulation of the sealing and magnetic profile is chosen from compatible polymers out. According to the invention, these are for the Magnetic profile either CPE or ESI, for the PVC or SRT sealing profile. The individual components in the case of the magnetic profile are relevant flow behavior and long-term stability so choose that the content of the magnetic component reaches at least 60 vol% will without the extrusion ability of the mixture is lost.

• 1. Zwischen 40 und 80 Gew% eines oder mehrerer anorganisch-oxidischer Magnetmaterialien, z. B. aus der Familie der Erdalkali-Ferrite oder der Seltenen Erden.
• 2. Zwischen 3 und 20 Gew% eines oder mehrerer polymerer, thermoplastischer Bindemittel, z. B. aus der Familie der Styrol-Copolymere oder der chlorierten Polyethylene.
• 3. Zwischen 0,2 und 10 Gew% eines oder mehrerer Weichmacher, ausgewählt aus der Familie der Polyweichmacher, z. B. aus der Familie der Polyester.
• 4. Zwischen 0,2 und 10 Gew% eines oder mehrerer Extrusionshilfsmittel bzw. Gleitmittel, ausgewählt aus der Familie der langkettigen Carbonsäuren oder der Wachse.

According to the invention, the formulation of the magnetic profile consists of the following components:

• 1. Between 40 and 80% by weight of one or more inorganic oxide magnetic materials, e.g. B. from the family of alkaline earth ferrites or rare earths.
• 2. Between 3 and 20% by weight of one or more polymeric, thermoplastic binders, e.g. B. from the family of styrene copolymers or chlorinated polyethylenes.
• 3. Between 0.2 and 10% by weight of one or more plasticizers selected from the family of poly plasticizers, e.g. B. from the polyester family.
• 4. Between 0.2 and 10% by weight of one or more extrusion aids or lubricants, selected from the family of long-chain carboxylic acids or waxes.

• 1. Zwischen 20 und 60 Gew% eines oder mehrerer polymerer, thermoplastischer Bindemittel, z. B. aus der Familie der Styrol-Copolymere oder des PVCs.
• 2. Zwischen 30 und 60 Gew% einer oder mehrerer Weichmacher, z. B. auf der Basis von Phthalaten oder von Mineralölen.
• 3. Zwischen 2 und 10 Gew% eines oder mehrerer Extrusionshilfsmittel oder Gleitmittel, z. B. aus der Familie der langkettigen Carbonsäuren oder der Wachse.
• 4. Zwischen 0,5 und 5 Gew% eines Stabilisators, z. B. aus der Familie der Stearate oder der Phenol-Derivate.

The magnetic profile can be connected to the sealing profile by coextrusion. According to the invention, the coextruded sealing profile consists of the following components:

• 1. Between 20 and 60% by weight of one or more polymeric, thermoplastic binders, e.g. B. from the family of styrene copolymers or PVC.
• 2. Between 30 and 60% by weight of one or more plasticizers, e.g. B. on the basis of phthalates or mineral oils.
• 3. Between 2 and 10% by weight of one or more extrusion aids or lubricants, e.g. B. from the family of long-chain carboxylic acids or waxes.
• 4. Between 0.5 and 5% by weight of a stabilizer, e.g. B. from the family of stearates or phenol derivatives.

The following concrete example the invention will now be explained in detail.

embodiment

The following describes how the magnetic component is processed and in the process of coextrusion cohesive with the sealing profile is still connected, like the co-extruded so created magnetic sealing profile is welded to a finished door sealing frame.

a) Magnetic component

The magnetic profile comprises the following components:
114T Ba ferrite
6T Sr ferrite
12T CPE
4 polymer plasticizers
0.5 T epoxidized soybean oil
0.2T Ca / Zn stabilizer
0.2 T stearic acid
3 T filler

The preparation of the compound containing magnetic powder required for coextrusion takes place as follows:
The ferrite is placed in an internal mixer and the remaining components are added all at once, so that a degree of filling of approx. 60 vol% is achieved.

Then the mixing and warming of the components up to a temperature of 115 ° C. To ensure homogeneous mixing ensure that mixing is continued for 90 seconds at this temperature, before the magnetic material is crushed and further processed supplied becomes.

A magnetic profile according to the invention produced by the extrusion process has the following properties:
Shore hardness: D 50
Tensile strength: <3 N / mm ²
Elongation at break:> 20%
Density: 3.5 - 3.6 g / cm ³

b) sealing profile:

It includes the following components:
100 T PVC
70 T calcium carbonate
52 T epoxidized soybean oil
15 T DOP
1T Ca / Zn stabilizer
3T fungicide

The coextrusion of the magnetic Component with the sealing profile is carried out as described below.

You choose the tool structure that a larger extruder the magnetic profile, a smaller extruder including the sealing profile Injection molding of the magnetic profile.

To create a cohesive connection between magnetic powder To achieve the component and extrusion material, the following temperature controls must be used of the individual heating zones (started with the feed zone) become: ascending magnetic profile 50 - 190 ° C, Sealing profile 20 - 210 ° C ascending.

The magnetization of the ferrite-containing Profiles are carried out inline after the coextruded TDR has dried Pulse magnetization using inductive coils through the sealing profile therethrough. To increase the magnetic air gap during magnetization compensate, must be magnetized with a significantly increased induction voltage become.

c) welding

The magnetic tape-containing door sealing frame is done with the help of a welding mirror brought contactless to a temperature of approx. 200 ° C, within 2 - 3 seconds plasticization of the magnetic tape-containing door sealing frame is achieved becomes. After this time you can join the plasticized corners respectively. After a cool-down period The welding of the door sealing frame is completed in a few seconds.

Due to the additional contact areas at weld together of the coextruded magnetic tape, inner corner strengths are achieved, which has so far been replaced by conventional exclusively about that Welded sealing profile Corners far exceeded the internal corner strength of 120 N. The achievable according to the invention Internal corner strengths hang in particular from the profile cross-section, as well as in the subordinate Way, depending on the binder of the magnetic tape. Internal corner strengths of 180-280 N could be achieved in this way.

Claims (14)

Escutcheon with cohesive welded Corners. Escutcheon according to claim 1, consisting of a sealing profile and a magnetic profile, wherein Both types of profiles made of mutually compatible thermoplastic materials based and the connections sealing profile - sealing profile, sealing profile-magnetic profile and / or magnetic profile - magnetic profile cohesively respectively. Escutcheon according to claim 2, characterized in that the magnetic profile exists out - 40 - 80% by weight permanent magnetic material - 3 - 20% by weight of polymeric binder - 0.2 - 10% by weight polymeric plasticizers - 0.2 - 10% by weight additives Escutcheon according to claim 3, characterized in that the permanent magnetic Material selected is from the group of rare earth ferrites or alkaline earth ferrites. Escutcheon according to claim 3, characterized in that the polymeric binder is selected from the group of styrene copolymers or chlorinated polyethylenes. Escutcheon according to claim 3, characterized in that the polymeric plasticizer selected is from the group of polyester plasticizers. Escutcheon according to claim 3, characterized in that the additives are selected from the group of long-chain carboxylic acids or waxes. Escutcheon according to claim 2, characterized in that the sealing profile consists of - 30 - 60% by weight thermoplastic - 30 - 60% by weight softener - 2 - 10% by weight extrusion aids - 0.5 - 5% by weight stabilizer Escutcheon according to claim 8, characterized in that the thermoplastic is selected from the group of styrene copolymers or PVC. Escutcheon according to claim 8, characterized in that the plasticizer is selected from the group of phthalates or mineral oils. Escutcheon according to claim 8, characterized in that the extrusion aids are selected from the group of long-chain carboxylic acids or waxes. Escutcheon according to claim 8, characterized in that the stabilizer is selected from the group of stearates or phenol derivatives. Method of manufacturing a door sealing frame according to claim 1, characterized in that the sealing profile and the magnetic profile in cohesive Way, in particular by means of coextrusion, are connected to one another and that the corner welds both in the contact area of the sealing profile and in the contact area of the magnetic profile. Application of a door sealing profile according to claim 1 or 2 for household appliances, in particular refrigerators or dishwashers and for Automotive applications.