CS251962B1 - Box for electronic private branch exchange - Google Patents

Abstract

The solution concerns an electronic branch box central in wall or desk transfer. The essence of the mechanical solution] the construction of the present invention resides in such a spatial arrangement printed circuit boards it allows free bypassing of ambient air around PCBs at the same time stored floor. In such a cooling solution without forced air circulation to the lowest thermal stress on components while the solution also allows access to cables and connectors on the interface board without having to turn the tray. There is no mechanical in this solution stress on cables and connectors.

Description

The invention relates to a cabinet of an electronic PBX in a wall or table configuration.

The currently known solutions of the electronic branch central wall mounted housing can be divided into several basic types according to the mutual placement of the printed circuit boards and the interconnecting thatch, and depending on whether the tray solution is in a tilting or rotating or fixed housing configuration.

In the solution referred to as the first type, the interface plate is arranged parallel to any panel wall in a vertical position. The printed circuit boards are plugged into the tray into the connectors located on the interface board. In this solution, efficient cooling of the individual printed circuit boards is ensured by bypassing the ambient air without the need to solve the forced circulation of the cooling medium. The disadvantage of this solution is that the connectors and cables of the control panel extending from the opposite side of the interconnecting thatch are facing the wall. This means that in the wall-mounted version of this type of fixed-floor mechanical structure, this part of the control panel is inaccessible to manipulation after being fixed to the wall. Some variants of this type of mechanical construction are designed with a rotatable tray so that after the tray has been rotated, access to the cabling handling is possible. The disadvantage of this solution is that there is a mechanical stress on the connectors and conductors, which results in an increased probability of breaking the connection and thus decreasing the reliability parameter of the device. Another disadvantage of the first type of solution is that the size of the printed circuit board is usually limited by the depth of the control panel, and therefore in this type of solution there are used small size printed circuit boards. Thereby, more PCBs are needed to realize the respective number of functions of the control panel, thereby increasing the material demands of the solution and the volume of the device compared to the solution with larger boards while performing the same number of functions.

In the mechanical design of the electronic branch exchange of the second type, the interface board is located in a horizontal position in a direction perpendicular to the rear panel of the control panel. The printed circuit boards are finished with a panel in their front part. The disadvantage of this solution is that the connecting board from below and the panels from the top enclose the space between the printed circuit boards, thereby creating a barrier to the flow of ambient air and reducing the heat dissipation capacity from the tray space. Therefore, in some embodiments of this type, forced fan cooling is used. The disadvantage of using a fan is that the fan is the central part of the connection system, the failure of which will cause the entire control panel to fail. Unless a forced air solution is used, only a proportionally smaller number of circuits can be placed on the PCB that results in an increase in the material demands and volume of the control panel. In some mechanical design solutions of this type, the tray is of a hinged design, allowing convenient access to the printed circuit boards.

Similar to the first type of tipping solution, tipping causes mechanical stress on connectors and conductors, increasing the likelihood of breaking the connections. Upon tilting the tray, the interface board is in a position parallel to any cover, which makes it difficult or impossible to handle the cables connected to the opposite side of the interface thatch and to measure on the interface board. Due to the increased heat dissipation from the floor space in the case of solutions without a fan, in the upper space under the panels there is an increased thermal stress on the components and thus an increase in the intensity of failures, which in turn leads to reduced reliability of the equipment.

In the third type of mechanical design of electronic wall-mounted PBXs, the printed circuit board is mounted parallel to no control panel cover and onto it are printed circuit boards that are mounted parallel to the base plate. This solution is used for the smallest central capacities solved in the form of functional units without the possibility of modular construction of larger capacity of the control panel.

The above-mentioned disadvantages are eliminated by the solution of the electronic branch exchange of the wall or table design according to the invention, consisting of a supporting frame, covering and tray, which consists in that on one side of the supporting frame is fixedly mounted tray for placement of printed circuit boards in vertical In a position parallel to any control panel cover, the printed circuit board receiving space is separated from the optional function block storage space by a connecting board in a vertical position perpendicular to the rear panel.

In the electronic PBX cabinet solution according to the invention, a higher effect is achieved by maintaining an optimal mode of cooling the interior of the control panel by naturally circulating ambient air at the same fixed storey, thereby avoiding mechanical stress on the connectors and wires. the reliability of the whole device is increased, while the solution allows for the use of dimensionally larger printed circuit boards and at the same time allows for a modular construction of larger panel capacity.

In the picture no. 1 shows the cabinet frame. In the picture no. 2 shows the enclosure frame covering with a bottom, top and no cover. In the picture no. 3 shows the control cabinet with cover, tray and transducer in the open state. In the picture no. 4 shows the control panel housing after all covers have been inserted. In the picture no. 5 shows the mutual placement of the printed circuit boards, the interconnecting thatch and the converter. Picture no. 6 illustrates the situation after removing the transducer from the cabinet frame space.

The top cover 5, the rear cover 12 and the bottom cover 8 of the control panel are firmly screwed onto the support frame 4, which forms the basis of the mechanical structure. After fastening of the support frame 4 with covering 5, 12, 8 on the wall, the PCB 4 is inserted into the support frame 4 with the printed circuit boards, which is then firmly fixed and cables connected to the connectors are led through the hole in the rear panel. The interface plate is screwed in the rear of the tray 6 and divides the mechanical structure space into the tray 6 space and the space in which the optional function block 7 can be placed. The optional function block 7 is inserted into the support frame 4 from the opposite side as 6 and is in wire form connected to the connecting plate 2.

Subsequently, the left-hand cover 10, the right-hand cover 9 and the front-cover 11 of the control panel are attached to the support frame 4. The PCBs 1 are inserted in a vertical position into the tray parallel to any control panel cover. The connection plate 2 is mounted in a vertical position in a direction perpendicular to the rear panel of the control panel. In the event that the optional functional block 7 comprises a printed circuit board, the board is again placed in a vertical position. A free air passage ensures punching in the panel enclosure (Fig. 5). Upon removal of the optional function block 7, access to the wiring and interface board 2 (Fig. 6) is allowed. The wire mold between the optional function block 7 and the connecting plate 2 is long enough to enable the optional function block 7 to be removed and placed on the control panel top cover 5 after release. This creates a handling space from the other side of the tray without turning or tilting the tray. with good access to connectors and cabling. The cutout in the side cover 9 (Figure 4) filled with transparent material guarantees a view of the display elements located behind the front panels of the inserted printed circuit boards 1.

Said solution of the electronic PBX housing enables the power supply or main distribution or other function block to realize any other desired function of the control panel in the housing of the optional function block 7 in the support frame 4. Such a cabinet solution receives greater flexibility.

Claims (2)

251962 frame bottom, top and no cover. Figure 3 shows the panel of the control panel with a cover, a tray of ameners in the open state. Figure 4 shows the control panel housing after all covers have been placed. Fig. 5 shows the interposition of the circuit board plates, the toggle switch and the transducer. Figure 6 illustrates the situation after removing the copper from the chassis frame space. On the support frame 4 forming the base of the mechanical structure, the cover 5, the rear cover 12 and the bottom panel 8 of the control panel are tightly fixed. After fixing the support frame 4 by covering the walls 5, 12, 8, a tray 6 with a printed circuit board is inserted into the support frame 4 and the cables are subsequently fixed and cables are fed through the opening in the rear cover. that are attached to the connectors in the junction board 2. The transfer plate is screwed into the rear part of the tray 6 and divides the space of the mechanical structure into the tray space Ba by a space in which an optional functional block 7 can be placed. on the opposite side of the tray 6 and is connected to the interconnecting plate 2, and then a cover 10, a right cover 9 and a front panel 11 are attached to the support frame 4. PCB slots 1 move in a vertical position to the deck parallel to any control panel. The transfer plate 2 is mounted in a vertical position in a direction perpendicular to the rear cover centrally. In case the optional function block 7 contains a printed circuit board, the board is placed in a vertical position. The free passage of air ensures that the panel is closed in the control panel (Fig. 5). Selecting the optional function block 7 is provided with access to the wiring and interface board 2 (Fig. 6). The drilling form of the interlocking functional block 7 and the interconnecting plate 2 is long enough to allow the optional functional block 7 to be removed and placed on the top cover of the housing 5. Thus, without the need to turn or tilt the tray, a handling space is created from the opposite side of the tray with good access to the connectors and wiring. The cut-out in the side cover 9 (FIG. 4) filled with transparent material ensures that the display panels of the inserted printed circuit boards 1 are inserted into the display elements. Said housing solution of the electronic control panel enables the supply source or main distribution or the functional block to realize some other desired function of the control panel to be stored in the support frame 4, in addition to the optional functional block 7. Such a housing solution is more flexible. PRBDMET An electronic branch exchange cabinet consisting of a support frame, a shielding and a tray, characterized in that a tray (6) is fixedly fixed from one side of the support frame (4) to accommodate the printed circuit boards (1) in a vertical position parallel to any control panel (12), the space for accommodating the printed circuit boards (1) is separated from the storage space of the optional functional block (7) by a pre-connecting board (2) in a vertical position on the rear panel (12) of the control panel. 6 sheets of drawings 1