HIGH-VOLTAGE DEVICE

Abstract

The invention relates to a high-voltage device (14) for a high-voltage application. The high-voltage dev ice comprises an electrically insulating housing (15), having a housing cover (16) that covers a housing interior (18), and covering means (10) for at least one electrical terminal (34) or electrical region to be protected from touching, which covering means are arranged in the housing interior (18). The covering means (10) have a protective cover (26). The protective cover covers the electrical terminal (34) or the electrical region, can be locked in a closed position by means of at least one locking element (30) and can be transferred into an open position by means of an opening operation. The at least one locking element (30) for the protective cover (26) within the housing is designed in such a way that the release of the at least one locking clement requires a duration, the electrical terminal (34) or the electrical region having transitioned into a touching-safe state after said duration has elapsed following the opening of the housing cover (16) and following the interruption of the high-voltage circuit triggered by the opening of the housing cover.

Claims

1. A high-voltage device (14) for a high-voltage application, comprising an electrically insulating housing (15) having a housing cover (16) which covers a housing interior (18) and a cover unit (10), arranged in the housing interior (18), for at least one electrical terminal (34) or electrical area to be protected from touch, wherein the cover unit (10) has a protective cover (26), which covers the electrical terminal (34) or the electrical area, can be locked in a closed position by at least one locking element (30) and can be transferred into an open position by an opening procedure, wherein the at least one locking element (30) for the protective cover (26) within the housing is designed in such a way that release of the at least one locking element (30) demands a period of time, after which the electrical terminal (34) or the electrical area has transitioned to a touch-proof state following the opening of the housing cover (16) and a triggered interruption of a high-voltage circuit.

2. The high-voltage device (14) as claimed in claim 1, wherein the locking element (30) can only be removed by a movement in a specified lateral direction and/or direction of rotation, and wherein a type, length (L) and/or mechanical resistance of this movement are calculated such that the removal of the locking element (30) with a specified tool kit takes as least as long as the transition to the touch-proof state.

3. The high-voltage device (14) as claimed in claim 1, wherein, after the deactivation of all locking elements (30), at least part of the at least one cover unit (10) prevents the designated operation of the electrical terminal (34) to be protected from commencing again until all locking elements (30) are activated.

4. The high-voltage device (14) as claimed in claim 1, wherein the cover unit (10) has at least one connecting member (42) so that the cover unit (10) can be movably fastened on the electrical terminal (34) or in a vicinity of the electrical area (34).

5. The high-voltage device (14) as claimed in claim 4, wherein the connecting member (42) forms a hinge so that the protective cover (26) is pivotably arranged.

6. The high-voltage device (14) as claimed in claim 1, wherein the locking element (30) is arranged on the protective cover (26)-, or connected thereto, in a loss-proof manner.

7. The high-voltage device (14) as claimed in claim 1, wherein the locking element (30) is a screw, which is held on the protective cover (26) in an axial screw direction (46).

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0019] Exemplary embodiments of the invention are illustrated in the drawing and explained in more detail in the description below. In the drawing:

[0020] FIG. 1 shows an exemplary embodiment of a high-voltage device for operating a high-voltage application;

[0021] FIG. 2 shows a high-voltage device according to FIG. 1 after the release of the housing screws fastening the housing cover;

[0022] FIG. 3 shows a high-voltage device after the complete detachment of the housing cover;

[0023] FIG. 4 shows a high-voltage device with a cover means after the release of the locking element;

[0024] FIG. 5 shows a high-voltage device in an access position of the cover means; and

[0025] FIG. 6 shows a high-voltage device after the regular closure of the cover means.

DETAILED DESCRIPTION

[0026] An exemplary embodiment of a high-voltage device 14 for operating a high-voltage application is shown in FIG. 1. The high-voltage device 14 comprises an electrically insulating housing 15 and a housing cover 16, which is still fastened on the housing 15 in this figure. The housing cover 16 covers a housing interior 18 of the electrically insulating housing 15.

[0027] FIG. 2 shows the high-voltage device 14 after the release of the housing screws 19 fastening the housing cover 16. The housing cover 16 shown here has already been detached from the housing 15. With the detachment of the housing cover 16, a contact bridge 20, which is arranged on the back of the housing cover 16, is disconnected from a plug contact 22 in the housing interior 18 so that the plug contact 22 is opened. An electrical signal is generated via the plug contact 22 so that an electrical connection to a battery is disconnected. Capacitors (not shown) of the high-voltage device 14 are discharged as a result of breaking the electrical connection. However, the discharging of the capacitors takes a certain amount of time. A cover means 10 is provided to ensure this time.

[0028] FIG. 3 shows the high-voltage device 14 after the complete detachment of the housing cover 16. The cover means 10 shown in the exemplary embodiment has a protective cover 26 and a locking element 30. The locking element 30 is locked in the position of the cover means 10 which is shown in FIG. 3. In this exemplary embodiment, the locking element 30 is a screw. In this case, the screw 30 is arranged on the protective cover 26 and fastens the protective cover 26 over an electrical terminal 34 to be protected (see FIG. 4).

[0029] The high-voltage device 14 with the cover means 10 is shown after the release of the locking element 30 in FIG. 4. In this position, the screw 30 has been unscrewed from a threaded bore 38. In this case, this screwing procedure takes at least a certain amount of time owing to the corresponding length L of the screw 30 (see FIG. 5), so that the terminal 34 to be protected, which refers to electrical contacts here, no longer has to be protected from touch. This means that, after this time, the capacitors are discharged so as to enable safe touching.

[0030] The high-voltage device 14 is shown in an access position of the cover means 10 in FIG. 5. After the release of the screw 30, the protective cover 26 can be moved into the access position via a connecting means 42, which refers to hinges of the cover means 10 here. In this case, the hinges 42 are fastened in the vicinity of the electrical terminals 34, so that the protective cover 26 can be pivoted into an access position. A latching position is provided in this position, so that the access potion can be maintained. Access to the electrical terminal 34 is thus facilitated.

[0031] The screw 30 is arranged on the protective cover 26 in a loss-proof manner. This means that, upon a rotational movement, the screw 30 essentially does not execute a movement in relation to the protective cover 26 in the axial screw direction 46. In this access position, electrical lines (not shown) can be introduced into openings 50 of the housing 15 and can establish contact with the electrical terminals 34.

[0032] FIG. 6 shows the high-voltage device 14 after the regular closing of the cover means 10. After the contacting of the electrical lines, the protective cover 26 can be brought back into a position in which it covers the electrical terminals 34.

[0033] If the screw 30 is not screwed in again in this position, i.e. the locking element 30 is not activated, the screw 30 rests on the threaded bore 38. The protective cover 26 is thus at a greater spacing from the electrical terminals 34 (see also FIG. 4) compared to a position in which the screw 30 is screwed in. Since the screw 30 does not execute a movement in relation to the protective cover 26 in the axial screw direction 46, this spacing here corresponds to the length L of the screw 30. As shown in FIG. 4, part of the protective cover 30 thus projects into a plane of the housing cover 16, which is mounted above the protective cover 26. This makes it impossible to assemble the high-voltage device 14 and the contact bridge 20 is therefore not brought into contact with the plug contact 22. It is thus likewise impossible for the operation of the high-voltage device 14 to commence. To enable assembly, it is therefore necessary to screw in the screw 30 and thereby activate the locking element 30.

[0034] Only once the screw 30 has been screwed in completely can the housing cover 16 be applied so that safe use can be ensured. When the housing cover 16 is mounted, the plug contact 22 is closed again via the contact bridge 20 so that the electrical connection to the battery can be established again.