EP2880725B1 - Mechanically coded mechanism intended to prevent a false insertion of a detachable module into a socket of an overvoltage device subject to voltage - Google Patents

Description

• Mechanically coded mechanism intended to prevent a false insertion of a detachable module into a socket of an overvoltage device subject to voltage
Field of Invention
• The invention belongs to the field of a protective mechanism designed to be used when inserting a detachable module into a base part of a surge protective device, more precisely to the field of a mechanism that prevents insertion of a detachable module into a wrong base part of a surge protective device according to voltage of devices for electronic surge protection.
Technical Problem
• The technical problem solved by the present invention is a constructional solution to a mechanically coded mechanism designed to prevent a false insertion of a detachable module into a base part of a surge protective device subject to voltage. A wrong combination of voltage of a module and that of a base part of a surge protective device can result in material damage, even more; it can be hazardous for a fitter of surge protective devices. A requirement for coding and preventing a wrong installation of a detachable module is defined by standard IEC 61643-11 (7.3.1).
• A mechanically coded mechanism must allow a simple installation of various combinations or codes for detachable modules with different prescribed voltages.
Prior Art
• An analysis of the prior art shows that a majority of manufacturers of surge protective devices keep to the concept of pins that are arranged vertically with respect to a receiving pin in a base part of a surge protective device.
• DE000010001667C1 discloses a way how individual modules are coded according to voltage and how receiving sites in a base part are coded accordingly. The bottom side of the module is provided with a specifically shaped pin that is rotatable in its centre according to a voltage of the module, thus allowing different variants of the product. The pin which is also inserted into the base part must be oriented in a way to match the orientation of the pin in the module. If this is not the case, a mismatch of the pins occurs when the module is inserted into the base part, and both a further insertion of the module and a contact between the pins of the module and the base part are prevented. The system of coding must always ensure that first a contact of the pins for coding is established when the module is inserted into the base part and only then a contact between the metal pins of the module and the base part is established, through which pins the electric current flows.
• A concept of a horizontal placement of pins is disclosed in patent DE3639533A1 . However, the patent does not offer a solution to the problem of inserting a module with a wrong voltage. In fact, the present solution is adapted to the concept of horizontally arranged pins that transfer electric current through the surge protective device, but it is further provided with a protective element that prevents a module of a wrong voltage from being inserted.
• Document CZ 22 221 U1 discloses a surge arrester with a replaceable module of overvoltage protection, which can be in a single-pole embodiment or in a multipole embodiment. The surge arrester is composed of a base of the overvoltage protection and of a replaceable module, wherein the base has the shape of the letter U and is adapted for insertion of one or three or four replaceable modules of overvoltage protection, respectively. The replaceable module is provided with a window for visual signalization of the state of a thermal breaker executed with a flexible tape of visual signalization and further provided with C-shaped plug contacts on opposing lateral sides and with a coded field on one or both lateral sides, which is formed by rectangularly shaped pins and/or holes having different profiles, widths and lengths, the said pins and/or holes falling into corresponding holes and/or pins on one or both lateral sides of the base of overvoltage protection. This solution differs significantly from the present invention, which is also more versatile.
Solution to the Technical Problem
• The essence of the mechanically coded mechanism designed to prevent a false insertion of a detachable module into a base part of a surge protective device according to voltage lies in that the bottom of the base part intended for the arrangement of the detachable module is provided with vertical grooves, into which a coded combination of first pins is arranged according to the voltage, for which the detachable module is embodied. The housing of the detachable module is provided with grooves in the same verticals intended for the arrangement of a coded combination of second pins arranged on positions, in which there are no first pins in the base part.
• The mechanically coded mechanism designed to prevent a false insertion of a detachable module into a base part of a surge protective device according to voltage will be described in more detail in the continuation by way of drawings representing in:

Figure 1 -

base part and module

Figure 2 -

top view of the base part and module

Figure 3 -

first pin

Figure 4 -

second pin

• The mechanically coded mechanism of the invention designed to prevent a false insertion of a detachable module into a base part of a surge protective device according to voltage is embodied as follows: a bottom 1 of the base part is provided with a first groove 15 in the centre, the said first groove 15 having second grooves 11, 12 at one side and third grooves 13 and 14 at the other side. Inversely from the first groove 15 is a fourth groove 16 having fifth grooves 11', 12' at one side and sixth grooves 13' and 14' at the other side. Pins 25 and 26 of a module 2 are arranged into the first and fourth grooves 15 and 16. The housing of the module 2 is provided at its lower part with short seventh grooves 21, 22 having eight grooves 21', 22' at the opposite side. To the right of the pin 25 there are arranged grooves ninth 23, 24 and to the right of the pin 26 there are arranged tenth groves 23', 24'.
• The coding of the mechanism is carried out by a combination of grooves 11, 12, 11', 12', 13, 14, 13', 14' of the bottom 1, into which grooves first pins 3 are arranged, and free grooves. A combination of free and full grooves 21, 22, 21', 22', 23, 24, 23', 24' of the module 2 is inverse to the combination of the full and free grooves in the bottom 1. For modules 2 having a certain voltage, various combinations of full and free grooves of the bottom 1 and the module 2 are made. When the module 2 is inserted into the bottom 1, the pins 25 and 26 cannot slide on the first and fourth grooves 15 and 16 due to the pins 4 in the grooves of the module 2 that collide with the pins 3 which fill the space of the grooves of the bottom 1. In this way, a module having an adequate voltage has the pins arranged in a way to pass by the pins in the base part, they do not collide. If a voltage of a module is inadequate for a certain base part, the pins of the insertable module frontally hit on the pins of the base part and block a further movement of the module 2. This happens at a height that prevents both a mechanical and electric contact of the pins of the module and the receiving pins of the base part. The coding with pins is performed on the module 2 and the base part 1 in a way that the module can be inserted into the base part by being rotated by 0° and 180°. Due to a limited number of pin combinations modules with higher voltage are allowed to be inserted into base parts with lower voltage.

Claims (3)

1. A mechanically coded mechanism designed to prevent a false insertion of a detachable module into a base part of a surge protective device characterized in that a bottom (1) of the base part is provided with a first groove (15) in the centre, the said first groove (15) having second grooves (11, 12) at one side and third grooves (13 and 14) at the other side; that inversely from the first groove (15) is a fourth groove (16) having fifth grooves (11', 12') at one side and sixth grooves (13' and 14') at the other side; that pins (25 and 26) of a module (2) are arranged into the first and fourth grooves (15 and 16); that the housing of the module (2) is provided at its lower part with short seventh grooves (21, 22) having eighth grooves (21', 22') at the opposite side; that to the right of the pin (25) there are arranged ninth grooves (23, 24) and to the right of the pin (26) there are arranged tenth grooves (23', 24'); that the coding of the mechanism is carried out by a combination of grooves (11, 12, 11', 12', 13, 14, 13', 14') of the bottom (1), into which grooves first pins (3) are arranged, and free grooves; that a combination of free and full grooves (21, 22, 21', 22', 23, 24, 23', 24') of the module (2) is inverse to the combination of full and free grooves in the bottom (1).
2. The mechanically coded mechanism designed to prevent a false insertion of a detachable module into a base part of a surge protective device according to claim 1 characterized in that for modules (2) having a certain voltage, various combinations of full and free grooves of the bottom (1) and the module (2) are made, so when the module (2) is inserted into the bottom (1), the pins (25 and 26) cannot slide on the first and fourth grooves (15 and 16) due to the pins (4) in the grooves of the module (2) that collide with the pins (3) which fill the space of the grooves of the bottom (1).
3. The mechanically coded mechanism designed to prevent a false insertion of a detachable module into a base part of a surge protective device according to claim 2 characterized in that the coding with pins is performed on the module (2) and the base part (1) in a way that the module can be inserted into the base part by being rotated by 0° and 180°.

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