DE662022C - Electric switch cell - Google Patents

Description

Electrical switch cell The invention relates to an electrical Switching cell, the cell wall of which is made of a hardening layer embedded in an iron frame Mass consists and divided into individual vertical walls of the total height of the cell wall is divided.

According to the 66o886 patent, the individual vertical walls are in use of straps arranged on both sides, tightened with screws or through Flat iron connected at their abutment edges. In this way they can be in a plane Connect lying wall parts together. It can also be perpendicular to an end wall running partition walls at the joints of two wall parts that are aligned with one another be connected to these by screwing.

The invention aims at another. Formation of this arrangement, in such a way that the wall parts of intersecting cell walls are also connected to one another without the need for more screw connections than they already have were necessary when connecting two flush wall parts.

According to the invention, the two intersecting cell walls on the The intersection is divided into four individual walls that abut each other with their abutting edges, of which two wall parts lying next to each other in one plane on their push cans have flat irons protruding beyond their wall surfaces, between which the angled to these wall parts arranged other wall parts with their forming the abutting edges Flat irons, which at the same time act as spacers for the flat irons of the two iersten Wall parts act, arranged and screwed to these flat iron by screws are.

The object of the invention is in the drawings, for example shown, namely Fig. i to 3 show the connections between two at right angles creeping cell walls, Fig. q. the connection of two crossing at different angles Cell walls, Fig. 5 the fastening of the iron frames of the cell walls. On the molding table.

The two intersecting cell walls are divided into four b, c, d with their abutting edges at the crossing leg. The two wall parts a and b lying in one plane have flat irons and 'e2 protruding from their wall surfaces at their abutting edges. According to the embodiment according to Fig. I around z, the two protruding flat irons and e2 are provided with bores and threaded holes for the retaining screws /. The wall parts c and d arranged at an angle to the wall parts a, b also lie in its plane. You are with them bumpers. between the flat iron and e2 and are connected by these flat iron by means of the screws f,: which go through the wall hatchets c, d , et, the wall parts en a and b. DalXi, the flat iron gl and g2, which form the abutting edges of the wall parts c, d, act as spacers for the flat irons and c2, which are attracted to each other. The cell walls have embedded switch carrier U-irons for attaching switches @o. Like. As, it is shown in Fig. 3, for example, the flat irons and, e2 can preferably be connected to the switch support U-irons i by screws /. The screws f then no longer need to pass through the cell walls. As a result, the support bars i are connected to each other as well as to the iron frame> of the intersecting wall parts, so that a completely rigid, coherent iron framework is created. The flat bars iel and e2 protruding over the wall surfaces of the walls a, b can either rest raised on the wall parts e around d or be sunk in corresponding recesses according to these wall axes. In the latter case, smooth, sharp-edged wall corners are formed.

Right-angled and other-angled wall crossings can be formed. In the case of non-right-angled crossings, the flat bars e1 and e2 are placed at an appropriate angle on the edges of the wall parts -a and b , so that angled abutment edges are also created. The abutting edges of the wall parts c, d can be designed at right angles or, if necessary, also at different angles. The retaining screws f can be right-angled or different-angled through the. Wall parts c, d Bypassed Zverden.

By enlarging or reducing the butt joint between the wall axes c, d one can easily compensate for small differences in the wall dimensions.

If necessary, lines or cables can be laid out on a larger scale Butt joint can be accommodated.

To produce the cell walls with the protruding flat iron e, the iron frame of this cell wall is clamped on the mold table as shown in Fig. 5. The flat-iron ': located at the side edge of the mold table k at -stützt d is a: the öfileisen uf the screwed to it fileisen 1, on the free leg in edgewise uz by screws is moun- ted. The flat iron rests against the vertical leg of the profile iron m, and is held by elastic clips o, which grip over the upper end of the flat iron e. The hardening mass is then pressed into the frame of the cell wall.

Claims (3)

PATENT CLAIMS: i. Electrical switchgear cell, the cell wall of which consists of a hardening compound embedded in an iron frame and which is divided into individual vertical walls of the total height of the cell wall, according to Patent 66o886, characterized in that two intersecting cell walls are divided into four at the point of intersection their abutting edges butting individual walls (, a, b, c, d) are divided, of which two wall parts (a, b) lying next to one another in one plane have flat bars (e ", a.) protruding over their wall surfaces at their abutting edges, between which the other wall parts (c, d) arranged at an angle to these wall parts (a, b) with their flat bars (g1, g2) forming the abutting edges, which at the same time act as spacers for the flat bars (e1, w,) of the first two wall parts (a, b) act, arranged and screwed to this flat iron (e. "e2) by screws (f). 2. Electrical switching cell according to claim i, characterized in that the flat iron (e1, A) of the one wall parts (a, b) rest on the other wall parts (cd), raised. 3. Electrical switchgear cubicle according to claim i, characterized in that the flat iron (e1, e2) of one wall parts (a, b) are sunk into corresponding recesses (1t) of the other wall parts (c, d).