NL2018374B1 - Group cabinet with monitoring device - Google Patents

Abstract

Group box comprising a first rear and a first cover which is placed on the first rear and which together with the first rear defines a first installation space in which switching equipment units are included, the switching equipment units comprising an earth leakage circuit breaker connected in series with at least a part of the other switching equipment units, wherein the group box in the first installation space comprises an electronic monitoring device with a first smoke sensor for detecting smoke in the first installation space, wherein the monitoring device is electrically connected to an outgoing phase of the earth leakage circuit breaker and is adapted for this via this electrical connection generating a leakage current in the outgoing phase of the earth leakage circuit breaker in response to the detection of the smoke in order to switch off the earth leakage circuit breaker.

Description

BACKGROUND OF THE INVENTION

The invention relates to a group box with switching material units included therein, such as main switches, transformers, earth leakage switches included, circuit breakers, time switches, light switches, overvoltage protection devices and relay modules. within the ordered, for example, earth leakage groups, for example, earth leakage switches protect the

These units are connected electrically behind each other to a group box to form one. Main circuit breaker more than each earth leakage circuit group contains several circuit breakers, circuit breakers connected to leakage current. This poor electrical earth leakage circuitry against unit protection protects connections within, for example, the circuit breakers, which can cause a melting hazard in the group cabinet.

and

The overload, however, is not against group box, and even failure, fire hazard or the

An object of the invention is to provide a group box with anti-failure measures of the internal units.

SUMMARY OF THE INVENTION

The invention provides a group box comprising a first rear and a first cover which is placed on the first rear and which together with the first rear defines a first installation space in which switching equipment units are included, wherein the switching equipment units comprise an earth leakage circuit breaker connected in series with at least a part of the other switching material units, wherein the group box in the first installation space comprises an electronic monitoring device with a first smoke sensor for detecting smoke in the first installation space, wherein the monitoring device is electrically connected to an outgoing phase of the earth leakage circuit breaker and is adapted to generating via this electrical connection a leakage current in the outgoing phase of the earth leakage circuit breaker in response to the detection of the smoke in order to switch off the earth leakage circuit breaker.

The group box according to the invention is provided with a monitoring device which in response to the detection of smoke forces the earth leakage circuit breaker to switch off or trip, just as, for example, with the test button present thereon.

With this, the electrical current is immediately eliminated by all switching equipment units connected in series and thus the most likely cause of smoke development.

The overrun may, for example, have been caused by poor electrical contact in the internal connection with, for example, the earth leakage circuit breaker.

In one embodiment the monitoring device comprises a second smoke sensor which is located outside the first installation space, the monitoring device being adapted to generate a leakage current in the outgoing phase of the earth leakage circuit breaker via the electrical connection in response to the detection of smoke by the first smoke sensor or the second smoke sensor to switch off the earth leakage circuit breaker. The second smoke sensor can for instance be accommodated in an adjacent distribution box.

In one embodiment thereof, the group box comprises a second rear side and a second cover which is placed on the second rear side and which together with the second rear side determines a second installation space in which switching equipment units are accommodated, the second smoke sensor being located in the second installation space. The first rear and the second rear can have the same shape and be mounted next to each other to contain a large amount of switching material in the separate installation spaces. Both installation rooms are then equipped with a smoke sensor to detect smoke development in the installation rooms.

In one embodiment, the switching equipment units comprise a plurality of earth leakage circuit breakers, each of which is connected in series with its own portion of the remaining switch material units to form separate earth leakage circuit groups, the monitoring device being individually electrically connected to an outgoing phase of the earth leakage circuit breakers, the monitoring device being arranged for generating via this electrical connections a leakage current in the outgoing phase of the earth leakage switches in response to the detection of smoke in order to switch off the earth leakage switches. The monitoring device can thus switch off several earth leakage groups at the same time.

In one embodiment, the group box comprises a second rear side and a second cover which is placed on the rear side and which, together with the rear side, defines a second installation space in which switching material units are accommodated, wherein the switching material units comprise an earth leakage circuit breaker in the second installation space, is connected to an outgoing phase of the earth leakage switches in the first installation space and second installation space, the monitoring device being adapted to generate a leakage current through these electrical connections in the outgoing phase of the earth leakage switches in response to the detection of smoke in order to switch off the earth leakage switches to switch. The earth leakage switches in both installation rooms can then be switched off simultaneously.

In one embodiment, the monitoring device comprises a sound source for emitting an audible sound signal in response to the detection of the smoke, thereby alerting those present in a building to the fire hazard situation in the group cabinet.

In one embodiment, the monitoring device comprises an electronic processing unit connected to a computer communication network, the processing unit being adapted to send an electronic message via the computer communication network in response to the detection of the smoke. An emergency service or a building owner can be alerted based on this message.

In one embodiment thereof, the monitoring device comprises a transmitter-receiver for wireless data communication over the internet. The transmitter-receiver is, for example, a WiFi transmitter-receiver that communicates with a WiFi modem in the building where the group cabinet is installed.

In one embodiment, the monitoring device comprises a temperature sensor for obtaining a temperature measurement value in the first installation space, the monitoring device being adapted to generate the leakage current in the outgoing phase of the earth leakage circuit breaker in response to a predetermined temperature value being exceeded .

This immediately eliminates the electrical load of all switching equipment units connected in series with the earth leakage circuit breaker and thus the most likely cause of heat development.

In one embodiment, the monitoring device comprises an electronic monitoring module accommodated in the first installation space, the monitoring module being provided with one or more trip ports to which the electrical connection to the outgoing phase of the earth leakage circuit breaker is connected, the monitoring module being adapted to connecting the ground line or neutral line to the trip port in response to smoke detection. Just like the switch material units, the module can be installed in the group box and connected to the earth leakage circuit breaker via the trip gate. The monitoring module can also be installed as a retrofit solution in existing group cabinets.

In an embodiment thereof, the first rear side is provided with a bottom wall and a side wall standing therefrom which defines a rectangular contour of the first rear side, wherein the bottom wall is provided at the corner points with screw holes for fixing screws with which the first rear side can be mounted on a vertical wall , wherein the monitoring module is provided with a housing in which the first smoke sensor and the trip ports are accommodated, the housing being provided on two sides with mounting legs with which the housing spans the first installation space, wherein the mounting legs on the underside merge into mounting feet with holes that coincide with the screw holes. The monitoring module can be fixed with the fixing screws with which the first rear is or is fixed against a vertical wall. Because the housing spans the first installation space, the usual wiring can be fed underneath the housing to the switching material.

In one embodiment the first cover is provided with a window, wherein the monitoring module comprises a control panel which is located in or behind the window. The monitoring module can therefore be operated from the front of the group box, just like the switching material.

In a combined embodiment, the control panel is part of the housing and is located on the side of the housing opposite the legs. The monitoring module is therefore on the bottom wall and is located directly behind the first cover.

In one embodiment, the monitoring device is provided with a reset button in the control panel. The alarm state of the monitoring device can hereby be canceled so that the switched-off earth leakage circuit breaker can be switched on again.

The invention further provides a monitoring device intended and suitable for the group box according to the invention. This can be installed in existing group cabinets as a retrofit solution.

The aspects and measures described in this description and claims of the application and / or shown in the drawings of this application can, where possible, also be applied separately from each other. These individual aspects can be the subject of split-off patent applications that are aimed at this. This applies in particular to the measures and aspects that are described per se in the subclaims.

BRIEF DESCRIPTION OF THE DRAWINGS

The invention will be elucidated on the basis of a number of exemplary embodiments shown in the accompanying drawings. Shown is:

Figure 1 is an isometric front view of a group box with monitoring device according to an embodiment of the invention;

Figure 2 shows the group box with monitoring device of Figure 1, from which the cover has been removed; an isometric

Figure 3 group box according to monitoring device

Figure 4 shows a group box according to the monitoring device of Figure 3, in which; and Figure 2, which has been taken down;

an isometric

bottom view from the j the lid from the bottom view from the the housing from the

Figure 5 shows the electrical diagram of a part of the electronics of the monitoring device according to the preceding figures.

DETAILED DESCRIPTION OF THE DRAWINGS

Figures 1-4 show a group box 1 according to the invention. The group box 1 comprises a rectangular plastic rear side 2 with a bottom wall 3 and a circumferential wall 4 rising therefrom which delimit an internal installation space 5. As shown in Figs. 3 and 4, the rear 2 is secured with four fastening screws 14 (only one of which is shown) protruding through screw holes 13 at the corner points of the rear 2 on a vertical rear wall, not further shown. In this example, two parallel mounting rails 10, 11 are mounted on the rear side 2, with which rows of switching material units can be fixed in the group box 1. Switching equipment units are, for example, circuit breakers, circuit breakers, main switches, time switches, light switches, transformers, surge protectors, relay modules and so on.

The group box 1 comprises a rectangular plastic cover 6 which fits on the peripheral wall 4 of the rear 2 and is fixed thereon with quarter-turn couplings 12. The switching material units protrude at the front through coincident elongated openings 7 in the cover 6. The elongated openings 7 are shielded outside the switching material with blind plates (not further shown).

In this example, the switching material units on the lower mounting rails 11 are a three-phase earth leakage circuit breaker that protects against too high a leakage current, and on the upper mounting rails eight fuse switches 31-38 protecting against too high a current or short circuit. This example is a doorbell transformer 39 In circuit breakers 31-38 electrically supplied from the three phases of the earth leakage circuit breaker 22. For the first circuit breaker 31 and the second circuit breaker 32, the installation wires 9 are schematically shown for this purpose. The group box 1 is provided with a monitoring device 40 which switches off the earth leakage switch 22 as described in detail below in response to smoke development in the installation space 5.

The monitoring device 40 comprises an electronic monitoring module 41 which is fixed on the rear side 2 and which projects into the cover 6 through a rectangular window 8. As shown in Figure 4, the monitoring module 41 comprises a plastic housing 42 with an elongated bottom wall 43 and transversely thereto a rear wall 4 which merges into two shorter side walls 47, and a shorter front wall 45 parallel to the rear wall 44. The side walls 47 and the front wall 45 are continued below the bottom wall 43 into two mounting legs 49. The mounting legs 49 merge into a mounting foot 50 with a longitudinal hole 51 at the bottom.

As shown in Figure 4, the housing 42 is secured to the rear 2 by placing the mounting feet 50 on the bottom wall 3. The longitudinal holes 51 are thereby aligned with the screw holes 13 through which the fixing screws 14 are then inserted. The housing 42 has on one side a series of air slots 46 in the rear wall 44 and the front wall 45. As shown in Figure 2, the housing 42 is closed with a straight plastic cover 53 which at the ends merges with locks 54. The locks 54 engage behind oblique snap lugs 48 protruding from the side walls 47. The cover 53 of the monitoring module 41 comprises in the middle a raised rectangular control panel 55 which fits into the rectangular window 8 of the cover 6 of the group box 1. The control panel 55 comprises an opening 57 for an LED lamp and a push button 56 in the form of a flexible lip.

As shown in Figure 3, the monitoring module 41 comprises a printed circuit board 60 accommodated in the housing 42. Electronic components are mounted on the printed circuit board 60, including a buzzer 61, a test and reset pressure switch 62 located behind the push button 56, an LED lamp 68 which extends through the aperture 57 and a WiFi transmitter-receiver 63. The printed circuit board 60 is electrically connected to an internal optical smoke sensor 64 which is located between the air slots 46. On the bottom there are two electrical connectors for two extra external optical smoke sensors.

These can, for example, be accommodated in an adjacent extension cabinet with switch material. The external optical smoke sensor is then connected with a connector 68.

On the underside of the printed circuit board 60 there is furthermore a data connector 66 for the configuration of the monitoring module 41 by means of an external terminal such as a laptop, and a power supply connector 67 which is electrically connected to a power supply (not shown) which is electrically connected to the earth leakage circuit breaker. the mains is connected so that the monitoring module 41 is supplied with power independently of the position of the earth leakage circuit breaker

22. Finally, there is a zero connection on the underside of the printed circuit board

0 in the form of a screw terminal which is electrically connected by means of an installation wire 53 to a neutral line or an earth line in the group box 1, and four trip ports 71-74 also in the form of four screw terminals. In this example, the first trip gate with an installation wire is electrically connected to a phase output of the earth leakage circuit breaker 22. With a three-phase earth leakage circuit breaker connection to one of the three phase outputs is sufficient.

Figure 5 shows it electrical diagram of a section from the electronics from the circuit board 60. The PCB 60 contains per trip port 71-74 a relay 76 Which

when energized, the trip gate 71-74 connects via a resistor 93 of about 7 pounds Ohm. The printed circuit board connected to the electrical with the zero connection 70 comprises a processing unit 100 relay 93, on the internal smoke sensor

64, on the external optical smoke sensors, and on the data connector 66. The circuit board 60 is powered via the power connector 67. The processing unit 100 is connected to the Wi-Fi transmitter-receiver 63.

The processing unit 100 can be wirelessly connected via WiFi channel receiver 64 to a modem for access to the internet, so that the monitoring module 41 can communicate with a host that can provide further communication to the homeowner or emergency service.

During normal operation of the group box 1, the earth leakage circuit breaker 21 and the circuit breakers 31-38 are switched on. The optical smoke sensor 64 is active and the status of the monitoring module 41 is regularly fed back to the host via the internet. The material of the installation material is specified in such a way that it does not ignite during heat development, but during heat development it will generate smoke. When heat is generated at a location in the closed installation space 5 of the group box 1 that leads to smoke, for example due to poor electrical contact, the smoke is detected by the optical smoke sensor 64. The optical smoke sensor 64 sends a corresponding signal to the processing unit 100 which performs a number of actions in response thereto.

The first action of the processing unit 100 is to pass on an alarm message to the host via the Wi-Fi transmitter-receiver 64. This allows emergency services to be involved.

The second action of the processing unit 100 is the pulse-wise energizing of the relay 76. As a result, in the phase of the earth leakage switch 21 which is connected via the installation wire 52 to the trip gate 71, a leakage current of approximately 33 milli-ampere is generated, whereby the earth leakage switch 21 out and the electrical voltage from the distribution box 1 is removed. This will stop the heat development. The modem with which the Wifizender receiver 64 sent the alarm message will probably also fail.

The third action of the monitoring device 40 is to energize the buzzer 61 and to make the LED lamp 68 blink so that a person present in the building is warned of smoke development.

The monitoring unit 41 can be reset by pressing the push button 56. The buzzer 61 is then switched off again.

The above description is included to illustrate the operation of preferred embodiments of the invention, and not to limit the scope of the invention. Starting from the above explanation, many variations will be evident to those skilled in the art that fall within the spirit and scope of the present invention.

Claims (15)

CONCLUSIONS A group box comprising a first rear and a first cover which is placed on the first rear and which together with the first rear define a first installation space in which switching equipment units are included, the switching equipment units comprising an earth leakage circuit breaker connected in series and one having at least a part of the remaining switching equipment units, first installation space is one with a first in the first electrical, the electronic smoke sensor comprising for the installation space, wherein the group box in the monitoring device detecting smoke monitoring device connected to an outgoing phase of the earth leakage circuit breaker and electrical connection outgoing phase of the is adapted to generate a leakage current circuit breaker in response to smoke detection in order to switch the circuit breaker. these in the on the out 2. Group box as claimed in claim 1, wherein the monitoring device comprises a second smoke sensor which is located outside the first installation space, the monitoring device is adapted to generate a leakage current in the earth leakage circuit breaker in response to the detection of the outgoing phase via the electrical smoke through the first smoke sensor or the second smoke sensor to turn off the earth leakage circuit breaker. 3. Group cabinet second rear and rear disposed rear rear second according to claim 2, comprising a second cover which, together with the installation space, determines a second second in which switching equipment units are accommodated, the second smoke sensor being located in the second installation space. 4. Group cabinet as claimed in any of the foregoing claims, wherein the switching equipment units comprise a plurality of earth leakage switches, each connected in series with its own part of the other switching equipment units to form separate earth leakage groups, wherein the monitoring device is individually electrically connected to an output phase of the earth leakage switches, the monitoring device being adapted to generate a leakage current in the outgoing phase of the earth leakage switches via these electrical connections in response to the detection of smoke in order to switch off the earth leakage switches. 5. Group cabinet as claimed in any of the foregoing claims, comprising a second rear side and a second cover which is placed on the second rear side and which together with the second rear side define a second installation space in which switching equipment units are accommodated, wherein the switching material units comprise an earth leakage circuit breaker in the second installation space , wherein the monitoring device is individually electrically connected to an outgoing phase of the earth leakage switches in the first installation space and second installation space, wherein the monitoring device is adapted to generate a leakage current through these electrical connections in the outgoing phase of the earth leakage switches in response to the detection of smoke in order to switch off the earth leakage switches. A group box according to any one of the preceding claims, wherein the monitoring device comprises a sound source for emitting an audible sound signal in response to the detection of the smoke. A group box according to any one of the preceding claims, wherein the monitoring device comprises an electronic processing unit connected to a computer communication network, the processing unit being adapted to send an electronic message via the computer communication network in response to the detection of the smoke. 8. Group box monitoring device a wireless data communication according to claim 7, wherein the sender-receiver for over the internet. according to the for one of the foregoing monitoring device it is the acquisition of a first installation space, arranged for outgoing phase of the one of the foregoing 9. Group box claims, wherein temperature sensor comprises temperature measurement value at which the monitoring device generates the leakage current in earth leakage circuit breaker in response to predetermined temperature value. 10. Group cabinet as claimed in claims, wherein the monitoring device comprises an electronic monitoring module accommodated in the first installation space, wherein the monitoring module is provided with one or more trip ports to which the electrical connection to the outgoing phase of the earth leakage circuit breaker is connected, the monitoring module being adapted to connecting the trip gate to the earth or neutral through a resistor in response to smoke detection. 11. Group box as claimed in claim 10, wherein the first rear side is provided with a bottom wall and the side wall standing up therefrom which defines the first rear side is provided with fixing screws with which the vertical wall can become a rectangular contour, the bottom wall screw holes first rear side of the bee of the for monitoring module is provided with first smoke sensor and spans the installation space of the housing mounting legs, bottom underside is mounted, wherein a housing in which the trip ports are accommodated, on which is provided on two sides with which the housing is the first with the mounting legs on the mounting feet with holes coinciding with the screw holes. 12. Group cabinet as claimed in claim 10 or 11, wherein the first cover is provided with a window, wherein the monitoring module comprises a control panel which is located in or behind the window. Group box according to claim 11, wherein the control panel is part of the housing and is opposite the legs on the side of the housing. 14. Group cabinet according to which the monitoring device is button in the control panel. 15. Monitoring device suitable for the group cabinet according to claims. claim 12 provided with FG / HZ and 12, enclosure that resides or one 13, reset apparently intended and one of the preceding -o-o-o-o-o-o-o-o- ω 73 74 13 49 50 13 SO