DE102022205874A1 - Component for an electrical device and electrical switch with such a component - Google Patents

Abstract

The invention relates to a component for an electrical device, wherein the component is made of thermoplastic, and wherein the thermoplastic of the component comprises which increases the tracking resistance of the component.

Description

The invention relates to a component for an electrical device and an electrical switch with such a component.

Electrical devices and components are exposed to stress, for example due to short circuits, overcurrent, temperature, aging or similar. All of these stresses can lead to a reduction in tracking resistance over the course of the service life.

The cause of this decrease is the change in the surface quality of the electrical device or component and thus the electrical properties of the surfaces due to combustion or contamination with residues from the short-circuit shutdown. For example, short circuits and the resulting plasma arcs produce particles that are deposited on the surface and thereby reduce the tracking resistance. Overall, this leads to the surface conductivity increasing and thus reducing the insulation properties of the entire electrical device.

The EP 2 862 194 B1 discloses a circuit breaker in which an adhesive is applied to a bottom surface of a primary circuit breaker near the end of the housing from which the outlet port exits and remote from the opposite end from which the line terminal extends, the adhesive being applied to extend over the two parts to anchor the two parts to an interior surface of the base, to prevent the first breaker from being removed from the base in response to an electrical fault, and to prevent the two parts from being Reaction to the electrical fault must be separated from each other.

It is therefore the object of the invention to provide a component for an electrical device which has increased tracking resistance over its service life.

This object is achieved according to the invention by the component for an electrical device according to patent claims 1. Advantageous embodiments of the component according to the invention are specified in subclaims 2 to 9. The object is also achieved according to the invention by the electrical switch according to claim 10.

The component for an electrical device according to claim 1 is made of thermoplastic, the thermoplastic of the component having an additive which increases the tracking resistance of the component.

The advantage here is that by introducing the additive into the granulate matrix, the work step required for coating the component in the form of a coat of paint with, for example, an insulating layer is eliminated. The effective additive is already contained in the electrical component after the usual injection molding process. Eliminating a work step means cost savings. The invention makes it possible to choose materials for components that were previously out of the question due to low tracking resistance. Thermoplastic, for example, is considered recyclable on the Chinese market, in contrast to thermoset. The invention therefore makes an important contribution to enabling the continued presence of components on the Chinese market. In addition, by increasing the tracking current resistance, the invention allows creepage paths to be designed to be shorter or the electrical component to be made smaller, which in turn leads to cost and material savings. This means more sustainability.

In one embodiment of the component according to the invention, the leakage current of a comparable component made of conventional thermoplastic without additive is twice as high compared to the leakage current of the component according to the invention.

In a further embodiment of the electrical component, the additive is selected from the group of poly(ethylene glycol) to (2-ethylhexanoate), siloxane or siloxane derivatives.

In one embodiment of the component according to the invention, if the additive is chosen to be poly(ethylene glycol) to 2-ethylhexanoate, it has an average molecular weight of 650 g/mol.

bei n = 8,6.In a further embodiment of the component according to the invention, the poly(ethylene glycol) bis (2-ethylhexanoate) has the following structure

at n = 8.6.

In a further embodiment of the component, the additive poly(ethylene glycol) bis (2-ethylhexanoate) has the CAS number. 9004-93-7.

In a further embodiment of the component according to the invention, when selecting the additive for siloxane, it has the following structure: H ₃ Si[OSiH ₂ ] _n OSiH ₃ .

In one embodiment of the component according to the invention, the component is a pole cassette of an electrical switch, a housing of an electrical switch or an accessory of an electrical switch.

In a further embodiment of the component, the leakage current in a pole cassette of an electrical switch is in the range of 1 to 2 mA at 1.1 U _e and a cycle according to IEC60947-2; 8.3.3.5.

The object according to the invention is also achieved by the electrical switch according to claim 10, wherein the component according to the invention serves as a housing of the electrical switch.

The characteristics, features and advantages of this invention described above, as well as the manner in which they are achieved, will be more clearly and clearly understood in connection with the following description of the embodiments, which are explained in more detail in connection with the figures.

• 1 Strukturformel von Poly(ethylen glycol) bis (2-ethylhexanoat);
• 2 Polkassette; und
• 3 elektrischer Schalter mit erfindungsgemäßem Bauteil.

Show:

• 1 Structural formula of poly(ethylene glycol) to (2-ethylhexanoate);
• 2 pole cassette; and
• 3 Electrical switch with component according to the invention.

In 2 a component 100 is shown. This component is a pole cassette for switching an electrical current. The pole cassette includes electrical connections 120; 130 and a moving contact 150, which, when pivoted, connects the electrical connections 120; 130 connects to each other mechanically and electrically. In the representation of the 2 is the current path between the electrical connections 120; 130 opened, the moving contact 150 is in the open position. To close the circuit, the moving contact 150 must be in the illustration 2 rotated counterclockwise. The pole cassette includes a housing 110.

Typically one or more pole cassettes according to the 2 into an electrical switch 1000 as shown in 3 built-in. For each phase, the electrical switch 1000 includes a pole cassette corresponding to 2 . These pole cassettes and possibly other accessories are housed in the housing of the electrical switch 1000. The electrical switch 1000 can be switched manually between at least one ON and one OFF position using a handle 1100.

The housing 110 of the pole cassette is made of thermoplastic. The same applies to the housing of the electrical switch 1000. The thermoplastic of the component 100 includes an additive which increases the tracking resistance of the component 100. The tracking resistance of a material can generally be determined using the CTI value.

The tracking resistance of the component 100 can be achieved, for example, with a cycle according to IEC60947-2; 8.3.3.5 can be determined. For a pole cassette of an electrical switch 1000 according to the invention, the leakage current is in the range from 1 to 2 mA at 1.1 U _e with an applied voltage at U _e = 690 V of 759 V. Without the additive in the thermoplastic of the pole cassette, the leakage current is 2 to 4 mA, which is twice as high as the leakage current of the pole cassette with additive.

The additive can be selected from the group poly(ethylene glycol) to (2-ethylhexanoate), siloxane or siloxane derivatives. Furthermore, the additive poly(ethylene glycol) bis (2-ethylhexanoate) is abbreviated as PEG-2-EH. If the additive is chosen for PEG-2-EH, it has an average molecular weight of 650 g/mol. 1 shows the structure of PEG-2-EH, where n = 8.6.

PEG-2-EH is a substance that does not conduct electricity. Through thermal and electrical energy, PEG-2-EH diffuses from the interior of the component 100 to the surface and evaporates. In the course of the condensation of the PEG-2-EH inside, for example inside the pole cassette according to the 2 After the component has cooled, an electrically insulating layer containing PEG-2-EH is formed in the interior of the component 100 when mixed with other substances.

The PEG-2-EH increases the tracking current resistance due to its electrically insulating (chemical and physical) properties. The process of evaporation and condensation can occur several times until the PEG-2-EH reservoir in component 100 is used up. The insulating effect of the PEG-2-EH on the inside of the component 100 remains afterwards.

The additive PEG-2-EH has the CAS number. 9004-93-7.

In a further embodiment of the component 100 according to the invention, siloxane with the structure: H ₃ Si[OSiH ₂ ] _n OSiH ₃ is selected as the additive.

The siloxane in the matrix of the component 100 gradually vitrifies, which corresponds to a phase transition from crystalline to amorphous. As soon as sufficient electrical and thermal energy acts on the component 100, the siloxane vitrifies on the inner surface of the component 100, whereby the Tracking current resistance is increased by the insulating effect of the glass.

The component 100 according to the invention for an electrical device 1000 can, for example, be a pole cassette of an electrical switch 1000 according to 2 and 3 be, a housing of an electrical switch 1000 or an accessory of an electrical switch 1000.

Likewise, the component 100 according to the invention can be part of an electrical switch 1000, with the component 100 serving as a housing of the electrical switch 1000.

The additive of the component 100 according to the invention can be detected, for example, by a GC-MS/FTIR analysis.

By introducing the additive into the granulate matrix of the thermoplastic, the work step required for coating an electrical component 100 in the form of a coat of paint with, for example, an insulating layer is eliminated. The effective additive is already contained in the electrical component 100 after the usual injection molding process. By adding the additive, the thermoplastic is made to be just as resistant to tracking current as, for example, electrical components made of thermoset plastic. The possibility of improving the thermoplastic means that this material is widely used because it is recyclable.

By increasing the tracking current resistance of the electrical component 100, creepage paths can be designed to be shorter or the electrical component 100 can be made smaller without any loss of performance.

QUOTES INCLUDED IN THE DESCRIPTION

This list of 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.

Cited patent literature

• EP 2862194 B1 [0004]

Claims (10)

Component (100) for an electrical device (1000), wherein the component (100) is made of thermoplastic, characterized in that the thermoplastic of the component (100) comprises an additive which increases the tracking resistance of the component (100). Component (100) for an electrical device (1000), the leakage current of a comparable component made of conventional thermoplastic without additive being twice as high compared to the leakage current of the component (100). Patent claim 1 . Component (100) for an electrical device (1000) according to Patent claim 1 or 2 , where the additive is selected from the group poly(ethylene glycol) to (2-ethylhexanoate), siloxane or siloxane derivatives. Component (100) for an electrical device (1000) according to Patent claim 3 , whereby if the additive is chosen to be poly(ethylene glycol) bis (2-ethylhexanoate), it has an average molecular weight of 650 g/mol. Component (100) for an electrical device (1000) according to Patent claim 4 , where the poly(ethylene glycol) bis (2-ethylhexanoate) has the following structure

at n = 8.6. Component (100) for an electrical device (1000) according to Patent claim 4 or 5 , where the additive poly(ethylene glycol) to (2-ethylhexanoate) has the CAS number. 9004-93-7. Component (100) for an electrical device (1000) according to Patent claim 3 , whereby when choosing the additive to siloxane, it has the following structure: H ₃ Si[OSiH ₂ ] _n OSiH ₃ . Component (100) for an electrical device (1000) according to one of the preceding claims, wherein the component (100) is a pole cassette of an electrical switch (1000), a housing of an electrical switch (1000) or an accessory of an electrical switch (1000). . Component (100) for an electrical device (1000) according to Patent claim 8 based on the pole cassette of an electrical switch (1000), with the leakage current in the range of 1 to 2 mA at 1.1 U _e and one cycle according to IEC60947-2; 8.3.3.5 is located. Electrical switch (1000) with a component (100) according to one of the preceding claims, wherein the component (100) serves as a housing of the electrical switch (1000).

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