CS251962B1 - Electronic Branch Expansion Cabinet - Google Patents

Abstract

The solution relates to a cabinet for electronic branch exchanges in a wall or table version. The essence of the solution of the mechanical design of the invention lies in such a mutual spatial arrangement of the printed circuit boards that allows free circulation of ambient air around the printed circuit boards while the shelf is fixed. In such a cooling solution without forced air circulation, the lowest thermal stress on the components occurs, while the solution simultaneously allows access to the cables and connectors on the connection board without the need to rotate the shelf. In this solution, there is no mechanical stress on the cables and connectors.

Description

251962

BACKGROUND OF THE INVENTION The present invention relates to an electronic casing of a control panel in a wall or table conversion. The presently known housing solutions of the electronic branch central wall manifold can be divided into several basic types of platforms for the mutual placement of PCBs and switchers, according to whether the stacking solution is in a foldable or rotatable manner. because it is converted into a fixed storey. In the solution referred to as the first type, the interconnecting plate is disposed parallel to the desired panel wall in a vertical position. PCBs are plugged into the connectors placed on the boarders. In this solution, efficient cooling of the individual surface connections is ensured by bypassing the ambient air without the need for a forced cooling medium. A disadvantage of this solution is that the connectors and cables of the central unit coming from the opposite side of the junction box are facing the wall. This means that in the wall transfer of this type of mechanical structure with a fixed tray, this part of the control panel is inaccessible to the wall after being mounted on the wall. Some variants of this type of mechanical construction are designed with a rotatable tray so that after turning the floor was the access to cabling. A disadvantage of this solution is that the connectors and conductors are mechanically stressed, resulting in an increased probability of interruption of the connection and thus a reduction in the reliability of the device. A further disadvantage of the first type of solution is that the size of the surface joints is usually limited by the center of the panel, and therefore small dimensional planks are used in this type of solution. Thus, it is necessary for the realization of the respective number of functions of the switchboard of the multi-circuit boards, thereby increasing the material intensity of the solution and the volume of the equipment as compared to the solution with dimensionally large numbers in the implementation of the same number of functions. In solving the mechanical design of the electronic branch central second type, the interface board is positioned horizontally in a direction perpendicular to the back of the control panel. The disadvantage of this solution is that the interconnecting plate from below and the panels from above top the space between the planar plates, thereby creating a barrier to the flow of air and reducing the heat dissipation capacity of the panels. room space. Therefore, in some solutions of this type, forced fan cooling is used. The disadvantage of using a fan is that the fan is the central part of the interconnection system, the failure of which the entire control panel fails. Unless the forced air circulation solution is used, only a smaller number of circuits can be placed on the printed circuit boards, in addition to increasing the material demand and volume of the control panel. In some solutions to the mechanical construction of this type, the tray is a hinged embodiment, thereby allowing convenient access to the printed circuit boards.

Similar to the first type of folding solution, it provides mechanical stress to the connectors and conductors, thereby increasing the probability of breaking the connection. After the tray has been folded out, the interconnecting plate is brought into a position parallel to no cover, making it difficult or impossible to manipulate with the cables connected to the opposite side of the interconnecting plate and measuring the interconnecting plate. Due to the difficult heat dissipation from the tray space in the fanless case, there is increased thermal stress on the components in the upper space below the panels, thereby increasing the intensity of the faults, which in turn leads to reduced equipment reliability. In a third type of solution for the mechanical structure of the electronic central wall mounting, the printed circuit board base is mounted parallel to any other control panel cover, and there are surface mount modules attached to it by the connectors, which are mounted parallel to the base board. This solution is used for the lowest capacities centrally solved in the form of functional units without the possibility of modular construction of a larger capacity central.

The aforementioned drawbacks are eliminated by the solution of the housing of the electronic branch-wall or table-top box according to the invention, consisting of a support frame, a cover and a tray, the principle of which is to firmly support one side frame. an embedded tray for placing printed circuit boards in a vertical position parallel to no cryogenic center, wherein a space for storing printed circuit boards is separated from the space for accommodating an optional functional block by a junction board in a vertical position perpendicular to the rear cover central office. In the invention of the electronic branch office according to the invention, a higher effect is achieved in that the optimum cooling mode of the indoor central unit is maintained by naturally circumventing the ambient air while at the same time stowing the load, thus avoiding the influence of the central connection. rotating the tray to mechanically stress the connectors and conductors, thereby improving the reliability of the entire apparatus, while allowing the use of larger-sized PCBs and allowing modular construction of the larger panel capacity.

Figure 1 shows the cabinet frame. Figure 2 shows the cover

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