DE4143671C2 - Method of manufacturing a temperature switch - Google Patents

Abstract

In a method for manufacturing a temperature switch (1) with a switch mechanism, which is accommodated in a sealed housing, on which connection contacts (4) are provided, a leg (43) of a connecting lug (6) is riveted to the housing before the switch mechanism inserted in the housing and this is closed. Then the rivet point is overmolded with one-component thermoset (9) and a free leg (42) of the connecting lug (6) is bent over the riveted leg (43) (FIG. 3).

Description

The present invention relates to a method for manufacturing egg temperature switch, in particular a temperature monitor, the dielectric strength required for the application and thus has sufficient insulation resistance.  

It is also said to be dustproof and washproof of the switch. Such temperature switches have in a thin-walled housing with wall thicknesses of only 0.2 mm a sensitive mechanical rear derailleur. Lowest ver Formations of the housing of the temperature switches in the range of a few hundredths of a millimeter can lead to the complete failure of the Switch. For this reason, so far temperature switch by casting with a two-component resin iso profiled.

The insulation of such temperature switches must have a tem temperature resistance of up to 200 ° C, only one may have low thermal expansion, high corrosion, Have pressure and voltage resistance, as they are in this Hin can be used in a suitable environment. Farther the insulation should be high compared to the prior art Show accuracy and reproducibility. The quality of the Switch should not deteriorate, if possible improve who the. The switch should be sealed against liquids be kind that in such, when mounting the PCB occurring liquids is given. Beyond that the manufacturing and throughput times are reduced.

A temperature switch is known from DE 37 11 666 A1, at which fixed two connecting lugs on a carrier by riveting are. A rear derailleur is arranged between the rivets the rivets and thus the connecting lugs depending on the Ambient temperature electrically connected. To the Terminal lugs can be soldered to stranded wires.  

The known temperature switch is a so-called open one Temperature switch, which is neither dustproof nor wash-tightness is given.

DE 35 18 569 A1 discloses component bodies To produce thermoplastic material, from which, for example Pin protrudes for connection. This pen is poured into the Form introduced for the component body and with a thin Layer of a thermosetting material in the area of Ver anchor end of the pin. Before the thermoset Material cures completely, the thermoplastic mate injected into the mold.

Based on this prior art, the present Invention, the object of a method for manufacturing egg to create a sealed temperature switch.

According to the invention, this object is achieved by a method for producing a temperature switch with a switching mechanism accommodated in a sealed housing, connection contacts being provided on the housing, with the steps:

• - riveting a leg of a connecting lug to the housing se,
• - Insert the rear derailleur in the housing and close it the housing,
• - Injection molding of the rivet point with one-component thermoset, and
• - Bending a free leg of the connecting lug over the riveted thigh.

The plastic materials to be used are advantageously thermosetting low-pressure molding compounds, such as in particular epoxy resin / Aratronic from Ciba-Geigy. While materials Protovic MPE in different versions or the material Toshiba KE300TSA could be used, the materials Ciba-Geigy Aratronic 2180 and especially Ciba-Geigy Aratronic 2142-6 have proven to be particularly preferred.

While basically still inside mold prints in one area of 60 bar are possible, the internal mold pressure should be in the off use the rack to perform the procedure th device and the material used preferably ge ring can be selected and possible in the range between 40 to 50 bar at the lower limit of this range. The ver applied working temperatures up to which the spray first tool and the workpiece in it are heated will depend essentially on the material used gig and are preferably in the range of 150 to 180 ° C, wherein for the preferred materials, temperatures in the range from 150 to 160 ° C are completely sufficient. To be a complete ge wrapping the areas of temperature to be overmolded switch and filling the receiving the injection molding material To ensure nests of the tool, spraying times are 20 up to 30 seconds advantageously provided. For curing of the material are advantageously holding times of the pressure in the order of 50 to 70, especially in the range of 60 seconds selected.

While in the prior art, the connecting strands, such as ge says, directly at the contact points of the temperature switch  were soldered, the invention provides that the connection contacts are initially provided with connecting lugs, the front are preferably riveted to the connection contacts. The An final flags have one leg, which with the connection contacts while holding another leg have, which usually to the first leg below Protrudes 90 ° freely. Only after spray coating the connection contacts and the legs connected to them by the ge called plastic material are on the free legs of the Lugs attached, especially welded. to closing according to the inventive method free leg with the welded strands over to the Connection contacts attached legs and parallel to these bent. There is a risk that the plastic material damaged by the bend to cause hairline cracks which reduces the wash and insulation resistance of the extrusion coating ren. To rule this out completely, one looks extremely preferred embodiment of the invention that the connection NEN are designed such that at substantially lower legs that are right to each other from the one stuck at the switch riveted legs from a bend of more than 90 degrees and then the desired orientation of the free shear counter bend creating the connecting lugs is formed, the extrusion coating with a pressure of 40 to 50 bar he follows.

According to a further preferred embodiment, the An final flags when connected to the contacts of the tempera door switch are connected in one piece with metal strips tied for the automatic promotion of the connection flags connected temperature switches can serve. Preferably  become several Tempe held on such a strip Raturschalter in a multiple mold for overmolding introduced. While basically the entire switch is molded can be or the lower part of the switch in one before molded plastic housing and just around the top can be sprayed, can be provided in a further embodiment be that only the top with spray compound becomes. It goes without saying that to achieve a good one Adhesion of the sprayed plastic with the metal or Ceramic of the cover part of the temperature switch clean these parts Above and should be fat-free, so that according to further preference it is provided that the configuration with the connection NEN provided temperature switch only immediately before Syringes are cleaned and degreased.

Visual, metric, leak and electrical tests after aging due to temperature changes, permanent thermal load the insulation and wash resistance of the inventions switch manufactured in accordance with the invention.

In addition to improving the electrical properties, esp especially with regard to insulation resistance and span Resistance to the state of the art also has a high maintenance of the mechanical properties because the plastic that can be used in the method according to the invention fe have a higher strength than casting resins. The shape and dimensions can be selected as desired len and repro the extrusion layers with high accuracy reduce so that a more uniform production is achieved, than is the case with casting resins. Other advantages and Features of the invention result from the claims and from  the following description, in which an embodiment the invention with reference to the drawing in detail is explained. It shows:

Fig. 1 two provided with terminal lugs temperature switch, the terminal lugs are integrally formed on a metal strip;

Fig. 2a-c process steps showing the over-molding of the lid portion of a temperature switch of FIG. 1; and

Fig. 3 flags an overmolded temperature switch before welding the leads to the terminal and bending the same.

The invention relates to a temperature switch 1 , in particular in the form of a temperature monitor, in which a housing has a metallic lower part 2 and a cover part 3 , which, if it consists of metal and itself forms a connection contact, in the lower part 2 with the interposition of insulating material is used, with the lower part generally forming a further connection contact. In the illustrated embodiment, the cover part consists of insulating material, such as ceramic, and carries two contacts 4 ( Fig. 3), to which connection flags 6 are riveted by means of a rivet. In the interior of the housing formed by lower part 2 and cover part 3 there is a switching mechanism with a bimetallic element as the active switching part. The switching mechanism has a switching bridge in the illustrated embodiment, through which the two contacts 4 can be electrically connected to one another.

The contact lugs 6 are formed in one piece with a metal strip 7 , to which further temperature switches 1 are fastened via corresponding contact lugs 6 . The metal strip 7 is used for the automatic conveyance etc. of the temperature switch 1 .

The switch described so far can be used from the outset in a preformed insulating pot part. However, it can also be completely encapsulated by the process according to the invention, ie not only in the area of the cover part, but also in the area of its lower part 2 . In the example shown, it is shown how the switch is overmolded in its deck. The switch 1 is inserted into an injection mold 11 . The injection mold 11 is preferably a multiple mold, so that at the same time several switches 1 held on the metal strip 7 can be introduced into the injection mold 11 and overmolded therein. The injection mold 11 consists of a lower part 12 and an upper part 13 , in which nests for receiving the switch 1 with its cover part region 3 and the connecting lugs 6 are formed.

The tool 11 is or is already heated to the desired processing temperature. The switches are brought in the manner shown in Fig. 2a between the upper part 12 and lower part 13 . The tool 11 is then closed by moving the lower part 12 and upper part 13 together ( FIG. 2b), where the switch 11 or switches 11 are accommodated in the nests 14 , 16 . After reaching the desired temperature duropla tical insulating material is also injected or pressed into the tool in the preheated state, so that it then completely fills the space left by the switch 1 in the nest in the spray nests 14 , 16 . It works with an internal mold pressure of 40 to 50 bar so as not to damage the mechanical switch mechanism inside the housing of the switch 1 . It can be used in a temperature range of 150 to 180 ° C, depending on the material used. The injection time is between 20 and 30 seconds. Furthermore, the pressure is maintained for over 60 seconds until the thermosetting plastic has hardened.

The tool is then opened by moving the lower part 12 and upper part 13 apart ( FIG. 2c). The overmolded temperature switch 1 are removed from the mold and removed unnecessary sprues 21 , 22 ( FIG. 2c), so that finally the overmolded temperature switch 1 has the design of the insulating cover 9 shown in FIG. 3.

In a further process step, stripped connection ends of connecting strands are welded in the area of the free ends 41 of the connecting lugs 6 and finally free legs 42 of the connecting lug 6 are bent parallel to the legs 43 riveted to the contact.

So that the encapsulation is not damaged and the targeted tightness and thus dielectric strength is maintained, it is important that for overmolding essentially perpendicular from the surface of the switch 1 and thus to the leg 43 projecting free leg 42 in the transition region 44 between the two legs 43 , 42 first a bending area 46 is formed over an angle of more than 90 ° with a finite radius, to which the free leg 42 then connects via a counter-bend 47 in such a way that it is essentially perpendicular, ie overall under one An angle of 90 ° to the leg 43 extends.

Hereby is achieved that the subsequent on legs 43 bend is at the bending of the leg 42 parallel to leg 43 after attaching the connecting leads not taken beeinträch 46 and can be exercised over these forces on the leg 43, which may cause damage to the over injected plastic material , but that essentially the counter-bend 47 is removed again when the leg 43 is bent, as a result of which damage to the plastic cover 9 is practically excluded.

In a practical exemplary embodiment, an epoxy resin Aratronic 2142-6 from Ciba-Geigy was used under an internal mold pressure of 40 bar at temperatures of 152 or 160 ° C., a spraying time of 26 seconds and a holding time of 60 seconds in the tool and via the temperature switch 1 injected. There was a 100 percent tightness and no damage to the cover of the temperature switch. The insulation resistance between the two connections of the switch was always over 100 megohms. The volume resistance of the overmolded switches is in a range from 5 to 10 milliohms and deteriorated during temperature change tests to an average of 14 milliohms and with a continuous thermal load of 180 ° C over 100 hours to a range of 40 milliohms, the insulation resistance being the above Retained value. All values did not affect the function of the temperature switch. The tightness of the switch was maintained with the loads and aging.

Claims (7)

1. A method for producing a temperature switch ( 1 ) with a switching mechanism accommodated in a sealed housing, connection contacts ( 4 ) being provided on the housing, with the steps:

• - riveting a leg ( 43 ) of a connecting lug ( 6 ) to the housing,
• - Insert the rear derailleur in the housing and close the housing,
• - Injection molding of the rivet point with one-component duro plast ( 9 ), and
• - Bending a free leg ( 42 ) of the connection flag ( 6 ) over the riveted leg ( 43 ).

2. The method according to claim 1, characterized in that after curing of the thermoset ( 9 ), the connecting lugs ( 6 ) are provided with connecting strands. 3. The method according to claim 1 or 2, characterized in that the connecting lugs ( 6 ) are formed such that at substantially perpendicular to each other's legs ( 42 , 43 ) from the leg ( 43 ) riveted to the switch ( 1 ) from a Bending of more than 90 ° and then forming a desired orientation of the free leg ( 42 ) of the connecting lugs ( 6 ) creating counter bending. 4. The method according to any one of the preceding claims, characterized characterized in that the extrusion coating in a mold pressure of 40 to 50 bar. 5. The method according to any one of the preceding claims, characterized characterized in that the extrusion coating in a tool temperature of 150 to 180 ° C takes place. 6. The method according to any one of the preceding claims, characterized characterized in that the encapsulation of the thermoset over 20 up to 30 seconds. 7. The method according to claim 4, characterized in that for preselected a holding time of 60 seconds hen is.