EP3024094B1 - Current take-off device with protective body - Google Patents

Description

Field of the invention

The present invention relates to a current-tapping device comprising a current-carrying component and a tapping component, wherein a partition wall is arranged between the current-carrying component and the tapping component. The partition wall has an opening for the passage of the downstream component, the diameter of the downstream component corresponding at least to the diameter of a human finger.

State of the art

In various technical systems, for example in the arrangement of a high-voltage battery in a motor vehicle, it may happen that a live component, such as a pole of a high-voltage battery, must be contacted from outside a separating body. If the tapping member, such as a male pin, is thicker than a finger, there is a security problem. In such a device, the opening of the dividing wall for the passage of the downstream component must also be at least as large as the diameter of a finger, ie in particular greater than 10 mm or 12 mm, if a finger of a child is to be considered by the device greater than 5 mm or greater than 7.5 mm. This makes it possible that unintentionally, for example, by assembly or operating personnel, a finger can be inserted through the opening and health through contact with the live component Damage to the person concerned may be caused. This security problem is to be solved according to the invention.

From the DE 603 06 963 T2 For example, an electrical connector for connecting electrical conductors is known in which openings with covers for insertion of the conductors to be connected are arranged on a housing. In the housing is a sealant, such as a gel.

The US Pat. No. 8,096,819 B1 and the US 2,934,591 describe a protective cover for electrical sockets and the interaction with electrical plugs.

The EP 2 388 836 A1 discloses a device for electrically insulating covering a connecting device for connecting electrical lines with an opening for the passage of a tool and a contact protection element.

The DE 10 2012 105771 A1 describes a charging plug for charging an electric vehicle, having at least one contact socket, which is designed with a protective cover, wherein in the female contact an electrical socket contact is arranged, and the protective cover comprises a pivotally mounted diaphragm member and a spring associated therewith, wherein the diaphragm member by the spring is held in a closed position in which it closes an insertion opening of the contact socket, and the diaphragm element is pivoted by the insertion of a pin contact against the force of the spring in an insertion position in which it releases the insertion opening.

Summary of the invention

It is an object of the invention to improve a current tapping device of the type mentioned in this regard, and more particularly one To specify protection against contact, which prevents contact of the current-carrying component by a finger.

The object is achieved by a current tapping device according to claim 1.

According to the invention, a plug-shaped downstream component is thicker than a finger, and therefore also an opening in a housing formed as a partition through which the tapping member must be inserted larger than a finger. So that a finger can not be accidentally inserted through this opening, flexible and / or sprung protective elements are arranged in the region of the opening, which reduce the opening sufficiently, so that a finger is stopped by the protective elements and only upon application of a substantial force on through the opening could be plugged. However, the downstream component can be inserted by applying a correspondingly high force and thus pushing away the protective elements through the opening and contact the current-carrying component.

The current-carrying component may in particular be a high-voltage leading component.

The current-carrying component according to the invention is a battery, the partition wall, a housing and the stromabgreifende component a plug.

According to the invention, the opening and the downstream component have a diameter of at least 12 mm, since otherwise a finger is already kept away from the dividing wall and no protective elements are required.

The distance between the dividing wall and the current-carrying component is preferably greater than the length of the protective elements, so that the protective elements, even if they are pivoted in the direction of the current-carrying component, do not prevent access of the tapping component to the current-carrying component.

In the region of the opening, a plurality of protective elements are preferably distributed around the circumference, in particular distributed uniformly around the circumference.

The protective elements preferably extend radially inwards and / or towards the side of the dividing wall on which the current-carrying component is arranged. The protective elements are preferably pivotally mounted at one end facing the partition wall, fixed or integrally connected to the partition wall or a further intermediate element.

According to the invention the protective elements are formed on an insulating protective body, which is adapted to cover the opening, wherein the protective elements are in particular integrally formed on this protective body.

On the protective body to cover an opening whose diameter corresponds at least to the diameter of a finger therefore the flexible and / or sprung protective elements are formed so that a space between the protective elements in the region of the opening is so small that a finger only when applying a force to push away the protective elements can be inserted through the free space.

The protective body may have a flat, in particular circular, surface.

The protective body according to the invention has a plug-in hollow cylinder through the opening and the protective elements are formed in the region of the inner circumference of the hollow cylinder.

On the outer circumference of the hollow cylinder of the protective body Fixierhilfen, in particular lugs or spring elements are arranged according to the invention.

The protective body is preferably made of plastic.

The protective body preferably has a dielectric strength of at least 2 kV and / or a tracking resistance with a CTI value of at least 350.

Brief description of the drawings

Fig. 1

ist eine schematische Darstellung einer erfindungsgemäßen Stromabgriff-Vorrichtung.

Fig. 2

ist eine dreidimensionale Ansicht eines erfindungsgemäßen Schutzkörpers.

Fig. 3

ist eine seitliche Ansicht eines erfindungsgemäßen Schutzkörpers gemäß Fig. 2.

Fig. 4

ist eine Ansicht von vorne (von der Seite der ebenen Fläche) eines erfindungsgemäßen Schutzkörpers gemäß Fig. 2.

Fig. 5

ist eine Schnittansicht gemäß Schnitt B-B der Fig. 4.

The invention will now be described by way of example with reference to the drawings.

Fig. 1

is a schematic representation of a current tapping device according to the invention.

Fig. 2

is a three-dimensional view of a protective body according to the invention.

Fig. 3

is a side view of a protective body according to the invention Fig. 2 ,

Fig. 4

is a front view (from the side of the flat surface) of a protective body according to the invention according to Fig. 2 ,

Fig. 5

is a sectional view according to section BB of Fig. 4 ,

Detailed description of the invention

In Fig. 1 a Stromabgriff device according to the invention is shown, comprising a current-carrying component 1 and a stromabgreifendes component 2, in particular a pin, wherein between the current-carrying component 1 and the stromabgreifenden component 2, a partition wall 3, for example, the wall of a housing is arranged. The partition wall 3 has an opening 4 for the passage of the downstream component 2. The diameter of the downstream component 2 corresponds at least to the diameter of a human finger, in particular approximately 12 mm-20 mm. In the area of the opening 4 flexible and sprung protective elements 5 are arranged so that a free space 13 is limited between the protective elements 5, so that the stromabgreifende component 2 can be inserted through the free space 13 only upon application of a force to push away the protective elements 5. The protective elements 5 are integrally formed on an insulating protective body 6 made of plastic, which in the Fig. 2 to 5 is shown in more detail.

On the protective body 6 more elastic protective elements 5 are arranged distributed uniformly around the circumference. The protective elements 5 run radially inwards and on the side of the partition on which the current-carrying component is arranged. The protective elements 5 leave a central clearance 13 (see Fig. 5 ) smaller than a standard finger, so less than 7.5 mm open.

The protective body 6 has a flat, in particular circular, surface 7, as well as a plug-in through the opening 4 hollow cylinder 8, on the inner circumference of the protective elements 5 are formed. The diameter 12 of the hollow cylinder 8 of the protective body 6 may be adapted to a diameter of an opening 4 of a partition wall 3. The depth 10 of the protective body, in particular of the hollow cylinder 8, can be adapted to the depth of the partition wall 3. Through the thickness 11 of the protective elements 5 designed as springs, the resistance to pushing away of the protective elements 5 can be adjusted by inserting a finger or a tapping part.

On the outer circumference of the hollow cylinder 8 of the protective body 6 Fixierhilfen 9 are arranged as noses for better support in an opening.

LIST OF REFERENCE NUMBERS

1

live component

2

downstream component

3

partition wall

4

opening

5

protection elements

6

protective body

7

flat surface

8th

hollow cylinder

9

Fixing

10

Deep protective body

11

Thick protective element

12

Diameter hollow cylinder

13

free space

Claims (8)

1. Current take-off device, comprising a current-carrying component (1) configured as a battery and a current-drawing component (2) configured as a plug, wherein a separating wall (3) configured as a housing with an opening (4) for the passage of the current-drawing component (2) is arranged between the current-carrying component (1) and the current-drawing component (2), wherein the diameter of the opening (4) and of the current-drawing component (2) corresponds to at least the diameter of a finger and the opening (4) and the current-drawing component (2) have a diameter of at least 12 mm,
   characterized in that
   flexible and/or sprung protective elements (5) are arranged in the region of the opening (4) in order to prevent contact of the current-carrying component (1) by a finger, such that a free space (13) between the protective elements (5) in the region of the opening (4) is so small that a finger and the current-drawing component (2) can be inserted through the free space (13) only by applying a force to push away the protective elements (5), wherein the protective elements (5) are formed on an insulating protective body (6) which is configured to cover the opening (4), wherein the protective elements (5) are in particular integrally formed on the protective body (6), wherein the protective body (6) has a hollow cylinder (8) which can be inserted through the opening (4) and the protective elements (5) are formed in the region of the inner circumference of the hollow cylinder (8), wherein securing aids (9), in particular protrusions or spring elements, are arranged on the outer circumference of the hollow cylinder (8) of the protective body (6).
2. Current take-off device according to claim 1, characterized in that the current-carrying component (1) is a high-voltage-carrying component.
3. Current take-off device according to at least one of the preceding claims,
   characterized in that the distance between the separating wall (3) and the current-carrying component (1) is greater than the length of the protective elements (5).
4. Current take-off device according to at least one of the preceding claims,
   characterized in that a plurality of protective elements (5) are arranged in the region of the opening (4) in a manner distributed around the circumference, in particular distributed at equal spacings around the circumference.
5. Current take-off device according to at least one of the preceding claims,
   characterized in that the protective elements (5) run radially inwards and/or towards the side of the separating wall on which the current-carrying component is arranged.
6. Current take-off device according to claim 1,
   characterized in that the protective body (6) has a flat, in particular circular, surface (7).
7. Current take-off device according to at least one of the preceding claims,
   characterized in that the protective body (6) is made of plastic.
8. Current take-off device according to at least one of the preceding claims,
   characterized in that the protective body (6) has a dielectric strength of at least 2 kV and/or a CTI value of at least 350.

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