Building automation device which can be recessed in an electrical box

Abstract

The invention relates to a building automation device which can be recessed in an electrical box, which adapts to the various communication requirements, which comprises a communication module with a communication bus, an application module which implements the functionality of the device, and a bus connector between the two modules, in which said bus connector serves to supply and transfer data, the communication module comprises a first base, the application module comprises a second base, during use, second side faces of the second base are inserted into a first opening of the first base, and the first base is joined to the second base via first attachment means.

Claims

1. A Building automation device which can be recessed in an electrical box, comprising a communication module with a communications bus of the device, an application module that implements the functionality of the device, and a bus connector between the two modules, characterised in that said bus connector is for power supply and data transfer, the communication module comprising a first base comprising at least four first side faces, closed on one of its sides by a first rear cover, creating a first cavity, leaving on the other side a first opening, the rear cover having a second opening through which the communications bus passes, at least two first protrusions, each one of them on different side faces, at least one first flange on one side face, at least two second protrusions, each one of them on different side faces, from the first opening the second protrusions are arranged upstream of the first flange and the latter upstream of the first protrusions, on the first protrusions a first printed circuit board, retained by the first flange is supported, on the second protrusions a second printed circuit board is supported to which the communication bus is connected and from which at least ten pins of the bus connector project, a first front cover with a third opening for the passage of the at least ten pins, a support plate arranged surrounding the side faces to the vicinity of the first opening, the application module comprising a second base comprising at least four second side faces, closed on one of its sides by a second rear cover, creating a second cavity, leaving on the other side a fourth opening, a first frame surrounding it, the second rear cover having a fifth opening, when at least two third protrusions, each one of them on different side faces, at least one second flange on one side face, at least two fourth protrusions, each one of them on different side faces, at least one third flange on one side face, from the fourth opening the first frame is arranged upstream of the third flange, the latter upstream of the fourth protrusions, the latter upstream of the second flange and the latter upstream of the third protrusions, on the third protrusions a third printed circuit board is supported to which the receiving connector is connected, retained by the second flange, on the fourth protrusions a fourth printed circuit board is supported retained by the third flange, a fifth printed circuit board is supported on the first frame, in use when the ten pins of the bus connector are introduced in the receiving connector that passes through the fifth opening, the second side faces are introduced in the first opening, and the first base is joined to the second base via attachment means.

2. The Device according to claim 1 wherein the first attachment means comprise at least one hollow arranged in a fourth flange projected from the first base and in the vicinity of the first opening, in said hollow there is at least one inner tab, at least a fifth protrusion from the first frame and with at least one step, so that said fifth protrusion is inserted into the hollow and retained by the step abutting the inner tab.

3. The Device according to claim 1 wherein the first front cover is attached to the first base by second attachment means, which comprise at least a first ramp arranged on one of the first side faces and starting from its area closest to the first opening, at least one depression in the front cover in which said ramp is housed.

4. The Device according to claim 1 wherein glass is placed above the fifth printed circuit board and/or the first frame.

5. The Device according to claim 1 wherein the support plate is attached to the first base by third attachment means comprising at least one second ramp arranged on at least one of the first side faces and starting from its area furthest away from the first opening and the fourth flange, so that the support plate is arranged between the second ramp and the fourth flange.

6. The Device according to claim 1 wherein the support plate is made of fibreglass.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) The present specification is completed by a set of figures that illustrate a preferred embodiment and in no way limit the invention.

(2) FIG. 1 represents an exploded perspective of the device.

(3) FIG. 2 represents a perspective view of the closed device, in use.

(4) FIG. 3 represents a top perspective view of a first base with a support plate.

(5) FIG. 4 represents a side perspective view and cross-section of the first base, with a support plate and with a first printed circuit board.

(6) FIG. 5 represents a top perspective view of the first base, with a support plate and with a first front cover.

(7) FIG. 6 represents a rear perspective view of the first base of FIG. 5.

(8) FIGS. 7 to 12 represent front views, alternated with rear views, of the first base, with a support plate and with a first front cover, for different communication buses.

(9) FIG. 13 represents a side perspective view and cross-section of a second base.

(10) FIG. 14 represents a side perspective view and cross-section of the second base, with a third and fourth printed circuit board. In FIG. 15 a fifth printed circuit board is added.

(11) FIG. 16 is a side perspective view of the application module. In rear perspective in FIG. 17.

(12) FIG. 18 is a perspective view of a detail of a fifth protrusion.

(13) FIG. 19 is a partial sectional side view of the application module about to be assembled in the communication module.

(14) FIG. 20 is a sectional side view of the device.

DETAILED DESCRIPTION OF THE INVENTION

(15) The present invention is a building automation device which can be recessed in an electrical box, the latter not depicted in the figures, shown in an exploded view in FIG. 1, assembled in FIG. 2 and in a sectional view in FIG. 20.

(16) The building automation device, as shown in FIG. 1, comprises a communication module (1) with a communications bus (1.1) of the device, an application module (2) that implements the functionality of the device, and a bus connector (3) between the two modules (1,2), wherein said bus connector (3) is for power supply and data transfer, the communication module (1) comprising a first base (1.2) comprising at least four first side faces (1.21), closed on one of its sides by a first rear cover (1.22), creating a first cavity (1.23), leaving on the other side a first opening (1.24), FIG. 3, the rear cover (1.22) having a second opening (1.25) through which the communications bus (1.1) passes, at least two first protrusions (1.26), FIG. 3, each one of them on different side faces (1.21), at least one first flange (1.27) on a side face (1.21), at least two second protrusions (1.28), each one of them on different side faces (1.21), from the first opening (1.24) the second protrusions (1.28) are arranged upstream of the first flange (1.27) and the latter upstream of the first protrusions (1.26), on the first protrusions (1.26) a first printed circuit board (1.3) is supported, retained by the first flange (1.27), on the second protrusions (1.28) a second printed circuit board (1.4) is supported to which the communication bus (1.1) is connected and from which at least ten pins (3.1) of the bus connector (3) project, FIG. 20. In the embodiment shown two first protrusions (1.26) are arranged and between them the first flange (1.27) on each side face (1.21), as well as two second protrusions (1.28), this gives great stability to the retention of the boards (1.3, 1.4), although not strictly necessary and may be a minimum as claimed.

(17) The first base (1.2) also comprises a first front cover (1.5), FIG. 5, with a third opening (1.52), FIG. 1, for the passage of the at least ten pins (3.1). In the assembled embodiment and advantageously, the first front cover (1.5) is supported against the second printed circuit board (1.4), thus performing the retention function thereof, FIG. 20.

(18) The first base (1.2) also comprises a support plate (1.6) arranged surrounding the side faces (1.21) to the vicinity of the first opening (1.24), FIGS. 3 to 12.

(19) The application module (2), as shown in FIG. 1, comprises a second base (2.1) comprising at least four second side faces (2.11), closed on one of its sides by a second rear cover (2.12), creating a second cavity (2.13), leaving on the other side a fourth opening (2.14), FIG. 13, a first frame (2.15) surrounding it, integrated in the embodiment explained in the same part as the side faces (2.11), FIGS. 13 to 15, the second rear cover (2.12) having a fifth opening (2.16), at least two third protrusions (2.17), each one of them on different side faces (2.11), at least a second flange (2.18) on a side face (2.11), at least two fourth protrusions (2.19), each one of them on different side faces (2.11), at least a third flange (2.20) on a side face (2.11), FIG. 13, from the fourth opening (2.14) the first frame (2.15) is arranged upstream of the third flange (2.20), the latter upstream of the fourth protrusions (2.19), the latter upstream of the second flange (2.18) and the latter upstream the third protrusions (2.17), on the third protrusions (2.17) a third printed circuit board (2.2) is supported to which the receiving connector (3.2) is connected, retained by the second flange (2.18), on the fourth protrusions (2.19) a fourth printed circuit board (2.3) is supported by the third flange (2.20), on the first frame (2.15) a fifth printed circuit board (2.4) is supported. In the embodiment shown two third protrusions (2.17) are arranged and between them the second flange (2.18) on each side face (2.11), two fourth protrusions (2.19) and between them two third flanges (2.20) on each side face (2.11), this confers great stability to the retention of the boards (2.2,2.3), although it is not strictly necessary and can be a minimum as claimed. The fifth printed circuit board (2.4) in being supported on the first frame (2.15) has in itself a very stable position, advantageously and as shown, it can be screwed at its corners, FIGS. 13 to 15, 17, and also retained by glass (2.5) that is arranged above it, FIGS. 2, 16 and 20.

(20) In use when the ten pins (3.1) of the bus connector (3) are introduced in the receiving connector (3.2) that passes through the fifth opening (2.16), the second side faces (2.11) are introduced in the first opening (1.24), FIG. 20, and the first base (1.2) is joined to the second base (2.1) via first attachment means (1.29,2.21), FIG. 19 at the beginning of the introduction.

(21) A detail of the embodiment shown is that the first attachment means comprise at least one hollow (1.29) arranged in a fourth flange (1.30), projected from the first base (1.2) and in the vicinity of the first opening (1.24), four in the embodiment shown, FIGS. 1, 3 and 19, in said hollow (1.29) at least one inner tab (1.31) is provided, two in the embodiment shown, at least a fifth protrusion (2.21) from the first frame (2.15), four in the embodiment shown, FIGS. 1, 17 to 19, and with at least one step (2.22), five in the embodiment shown, FIGS. 18, 19, so that said fifth protrusion (2.21) is inserted into the hollow (1.29) and retained by the step (2.22) abutting the inner tab (1.31). It is a simple attachment, adjustable by the variety of steps (2.22) and reversible.

(22) Another detail of the embodiment shown is that the first front cover (1.5) is attached to the first base (1.2) by second attachment means (1.32, 1.51), which comprise at least a first ramp (1.32) arranged in one of the first side faces (1.21) and starting from its area closest to the first opening (1.24), at least one depression (1.51) in the front cover (1.5) in which said ramp (1.32) is housed, four of each one of these attachment means in the embodiment shown, FIGS. 1, 3 to 5. This configuration ensures simple insertion and safe and reversible retention.

(23) Another detail of the embodiment shown is that above the fifth printed circuit board (2.4) a glass (2.5) is arranged, supported thereon and/or on the first frame (2.15), FIG. 20. In the embodiment shown, the first frame (2.15) has a depression, not indicated in the figures, where the glass (2.5) is supported and it is of such dimension that it is also supported on the fifth printed circuit board (2.4), thereby also serving as retention thereof.

(24) Another detail of the embodiment shown is that the support plate (1.6) is attached to the first base (1.2) via third attachment means (1.34,1.30), FIG. 1, which comprise at least a second ramp (1.34) arranged on at least one of the first side faces (1.21), two per each side face (1.21) in the embodiment shown, and which starts from its area furthest from the first opening (1.24) and the fourth flange (1.30), so that the support plate (1.6) is arranged between the second ramp (1.34) and the fourth flange (1.30). In the embodiment shown in addition to the fourth flanges (1.30) as such, it can be seen in the figures that a wall smaller in height runs between them, not numbered in the figures, and which advantageously allows to increase the retention area of the support plate (1.6).

(25) One option is that the support plate (1.6) is made of fibreglass. Traditionally this type of support plate is made of steel with the main drawback that they rust in humid climates. The fibreglass prevents rusting and provides a degree of flexibility that prevents deformations due to misuse by twisting or flexing the device excessively.

(26) Another option is that a second trim frame (2.6) can be arranged surrounding the device, supported on the first frame (2.15) in the embodiment shown, FIGS. 1, 2 and 20.

(27) In the embodiment shown, the first (1.2) and second base (2.1) show the chamfered side faces (1.21.2.11), each chamfer is considered as being part of a side face. For simplicity in the description these chamfer faces have not been named as they are an option and may or may not be included.

(28) Preferably, the communication module (1) has a first LED indicator (1.7) and a first push-button (1.8), which allow the user to interact and parameterise some functions of the device, FIG. 7.

(29) Advantageously, the second opening (1.25) is adapted for receiving the communications bus (1.1) according to one of the protocols selected from among KNX, C3, C4 and BACnet as shown respectively in FIGS. 8, 10 and 12.

(30) Specifically, for KNX and C3/C4, FIGS. 7 and 9, the same second opening (1.25) serves the purpose, FIGS. 8 and 10. For KNX, FIG. 7, the first status LED indicator (1.7) and the first programming push-button (1.8) are incorporated as a user interface, while for C3/C4, FIG. 9, a rotary selector (1.9) is incorporated for the address assignment and a first status LED indicator (1.7).

(31) On the other hand, for BACnet, FIG. 11, the second opening (1.25), FIG. 12, is larger than the previous one, since it goes to five terminals from two. This is due to the insurmountable differences that exist in terms of the user interface. The configuration for BACnet incorporates two rotary selectors (1.9) for address assignment, a first status LED indicator (1.7), and a “DIP switch”-type double selector (1.10), FIG. 11, with which to adjust the transmission speed.