DE2802553B1 - Low-voltage circuit breaker with split insulating material housing - Google Patents

Description

The invention relates to a low-voltage circuit breaker with lateral outer walls that overlap one another in stages, one divided along a parting line into an upper part and a lower part Insulated housing.

A circuit breaker of this type is known for example from US-PS 39 43316. The tiered This is how the outer walls of the upper part and the lower part of the insulating housing overlap executed that the upper part engages in the lower part. In this way, the housing parts become one another aligned and the housing is sealed.

The invention is based on the object, while maintaining the through a step overlap of the Housing parts achievable sealing also the mechanical strength of the insulating material against the to improve gas pressure occurring during switching operations. This is achieved according to the invention by that the outer walls of the upper part overlap the outer walls of the lower part. The step overlap is thus opposite to the known circuit breaker executed. This is achieved in that the gas pressure on the outer walls of the Spreading forces exerted on the lower part are partially transferred into the outer walls of the upper part. at the same compressive stress can therefore have a smaller material thickness for the outer walls of the lower part to get voted.

The transfer of force by the upper part can be improved in a further development of the invention be that the upper part extends transversely to the outer walls at least in the area of the arc chambers Has reinforcing ribs. This gives you the advantageous option of removing the lower part of the housing run in its longitudinal direction with continuous chambers for the current paths and thereby the Installation of the current path, which consists of fixed and flexible contact pieces as well as flexible conductor strips and bimetal strips can be made to facilitate.

For the power transmission between the outer walls, it is advantageous if the outer walls in the area the gradation cooperating sloping surfaces tu have. These cause a wedge-like tension between the parts of the housing.

The invention is explained in more detail below with reference to the exemplary embodiment shown in the figures explained.

The F i g. 1 shows a low-voltage circuit breaker in a partially sectioned side view.

In Figure 2 is a plan view of the lower part of a low-voltage circuit breaker is shown.

The F i g. 3 shows a section along the line III-III in FIG Fig. 2.

4 and 5 show a transverse and a longitudinal section through the upper part of the housing.

The one shown in FIG. 1 circuit breaker 1 shown in simplified form has a housing 2 made of insulating material, which is used for Example can be made from a molded material. As FIG. 1 shows, the housing 2 is approximately two Third of the total height divided into an upper part 3 and a lower part 4 along a parting line 8. The current path extends from a terminal 5 over a fixed contact element 6 and a movable one Switching piece 7 and a flexible conductor 10 and a heating conductor 11 to a further connection terminal 12 at the other end of the housing 2. The movable contact piece 7 is through a contact piece carrier 13 a shift shaft 14 movable. On a hinge pin 15, which the movable contact 7 and the Switching piece carrier 13 connects, engages a drive lever 16, which with the help of a not shown, per se known mechanism adjustable by hand by an operating handle 17 for switching on and off is. From the in FIG. 1, the movable contact 7 is independent of the switch position shown Actuating handle 17 also automatically through the known current- and voltage-dependent release can be transferred to the switch-off position.

In FIG. 2 is a lower part 20 corresponding to the lower part 4 of the circuit breaker 1 shown, with all built-in parts being omitted to improve clarity. How to see the lower part 20 has three continuous chambers 21, which are divided by partition walls 22 and outer walls 23 are limited. Each of the chambers 21 is divided into different areas according to their length. At one Terminal space 24 includes an extinguishing space 25 and intended to accommodate the arc chamber middle drive space 26. The following trigger space 27 extends across all chambers 21 and is intended to accommodate a common trigger block. Again form the lower conclusion separate connection spaces 30 for each chamber 21.

The chambers 21 are, as shown particularly in FIG. 3 shows free of partitions, so that the Main components of the current path, as shown in the basic diagram in Fig. 1, largely pre-assembled in the Lower part 20 can be used. The outer walls 23 of this lower part have a step 31 on the outside and an inclined surface 32. The top 33 (Fig. 4) also has stepped outer walls 34 with sloping surfaces. The levels 35 are on the inside of the outer walls 34 as well as the inclined surfaces 36. When the upper part 33 is put on on the lower part 20 therefore engage the outer edges 37 on the outer walls 34 via the stepped Outer walls 23 of the lower part 20, the inclined surfaces 32 of the outer walls 23 in contact with the inclined surfaces 36 of the outer walls 34 occur. The one occurring in the area of the quenching spaces 25 when switching Pressure therefore not only stresses the outer walls 23 of the lower part 20, but also the outer walls 34 of the upper part 33. This leads to an advantageous

Distribution of forces, which result in a smaller thickness of the outer walls of the housing in the area of the arcing spaces enables. To the mechanical strength in the area of the arcing spaces still contribute transversely to the Chambers 21 extending ribs 40 of the upper part 33 at (Figure 5). In the lower part, however, are, as already mentioned, there are no transverse walls.

In contrast to the embodiment described, the outer walls of the lower part and of the upper part must be stepped at right angles even without inclined surfaces. The desired power transmission from the outer walls of the lower part on the outer walls of the upper part, however, by the inclined Areas made easier. In the assembled state ready for operation, the lower part 20 and the upper part 33 held together by screws, for which suitable openings are provided in both housing parts. In the F i g. 2 four screw holes 41 can be seen, two of which are close in the area of the partition walls 22 the terminal spaces 24 and two more close to the connection spaces 30 in the area of the outer walls 23 are located.

The invention is particularly advantageous

ίο Housings with unequal pitch between the Lower and upper part, because the breaking force acting on a side wall increases with increasing Height of the side wall increases.

For this purpose 3 sheets of drawings

Claims (3)

Patent claims: 1. Low-voltage circuit breaker with side outer walls that overlap each other in stages an insulating material housing divided along a parting line into an upper part and a lower part, thereby characterized in that the outer walls (34) of the upper part (3; 33) the outer walls (23) of the Reach over the lower part (4; 20). 2. Low-voltage circuit breaker according to spoke 1, characterized in that the upper part (33) of the housing (2) at least in the area of the arc chambers (25) transversely to the outer walls (23,24) extending reinforcing ribs (40). 3. Low-voltage circuit breaker according to claim 1, characterized in that the outer walls (23, 24) of the lower part (20) and the upper part (33) have co-operating inclined surfaces (32, 36) in the area of the gradation. 20th