DE540900C - Completely encapsulated electrical resistance - Google Patents

Description

Fully enclosed electrical resistance Fully enclosed electrical resistors for permanent switching, such as those on ships in dusty conditions or potentially explosive rooms have been generally used up to now designed so that the resistance wires are wound on insulated pipes and inserted into the Box were used. This required the use of specially trained resistors, to avoid harmful heating or burnout. Using of resistors attached to pipes, the assembly of the resistor makes the stepped pulley and the housing cause considerable difficulties and therefore considerable Costs.

The object of the present invention is to avoid these disadvantages and to make an arrangement for resistors so that it becomes possible, also at complete encapsulation of the resistance to use resistors, their carrier no offer special cooling options. According to the invention, the resistors that are expedient be combined into individual groups of corresponding cooling surfaces of the housing tightly enclosed. The transfer of the heat generated in the resistors to the Cooling surfaces are mainly made by radiation. The housing can be pocket-shaped Get approaches that tightly enclose the flat resistance groups and form vertical air ducts between them. But you can also, if one is special strong cooling is desired, tubular extensions of any kind to the housing Attach cross-section, which surround the resistance elements and such against each other are offset so that their walls are completely surrounded by the passing air will.

Some exemplary embodiments of the invention are shown in the drawing. Fig, r shows an outline, Fig. Z a side elevation and Fig.3 an elevation of the resistor. In these figures the resistors are divided into four groups r, 2, 3, 4. Each resistor group consists of a larger number of porcelain cylinders wound with resistance wire, which are lined up on bars 18 and connected to the contact plate 17 by a common frame. The contact plate 17 with the resistors is fixed to the housing 1 by means of the angle 9. 5 The connecting pieces 6, on which the brush 7 slides and can be moved by the hand wheel 8, are attached to the contact plate. The housing is tightly closed at the front by the cover 9. As shown in Fig. 3, the rear wall of the housing is designed so that the individual resistor groups are tightly enclosed. This creates air ducts between the pockets formed in this way, through which the cooling air can pass in the manner shown in FIG. To prevent the housing from coming into contact with live parts, guide pieces io are attached to the resistor carrier.

Another embodiment of the invention is shown in Figures 4 and 5; Fig.4 shows a side view of the resistor, Fig. 5 shows a section c d. The power connectors, brush and handwheel are omitted for the sake of simplicity. The arrangement of the housing is such that each resistor group ii consisting of three parts is surrounded by pocket-shaped extensions of the housing. The individual resistors are arranged vertically so that good cooling is possible. The resistance carriers are connected to the framework 13 by the support pieces 12.

Another embodiment of the invention is shown in FIGS. The housing shown in Fig. 7 has the usual box-like shape. As can be seen from Figs. 6 and 8, which show the sections AB and CD through the housing, air ducts 1 5 are drawn through the housing, between which the resistance elements are shown in the same way as in Figs. are arranged.

In Fig.9 an embodiment is shown in which also a box-like housing is used, in addition to the individual resistors 2o tubes i6 are arranged, which cause a very satisfactory cooling.

Claims (5)

PATENT CLAIMS: e.g. Fully encapsulated electrical resistance, in which all resistance elements and the connecting pieces from a common. coherent .Gerüst are carried, characterized in that the individual Resistance elements or groups of resistance elements of appropriately designed Cooling surfaces of the housing are tightly enclosed. 2. Resistance according to Claimi, characterized characterized in that the housing contains pocket-shaped lugs which the flat-shaped Resistance groups tightly enclose and are arranged so that between them form vertical air ducts. 3. Resistor according to Claimi, characterized in that that the housing receives tubular lugs, which the individual resistance elements and are so offset from one another that the passing air is theirs Walls completely washed around. . 4. Resistor according to claim i, characterized in that that in, the housing cooling shafts are built, between which resistor groups lie. 5. Resistor according to claim i to ¢, characterized in that the carrier ends of the resistance groups equipped with guide pieces six-d, which the distance between the Secure elements from the cooling surface.