DE506297C - Device for connecting measuring devices in cable distribution systems - Google Patents

Description

Device for connecting 1 casting devices in cable distribution systems In the case of cable distribution systems, there is a need to determine the size of the current passage to be determined with measuring apparatus; without taking the line to be measured out of service to put. There are already measuring devices known in which with the help of two Contacts the fuse of the cable in question in the circuit of the measuring apparatus is switched on; that the measuring device is shunted. The security strip itself then takes the place of the shunt. As is known, flows through the measuring instrument only a fraction of the current, the size of which is determined by the ratio of the resistance results in the shunt to the intrinsic resistance of the instrument. Now that the cross-section of the Security strips never have exactly the same value, so can be with a such a measuring instrument cannot make accurate measurements.

The invention now relates to a device for connecting measuring devices for cable distribution systems, which offers the possibility of taking measurements at any time without To switch off the current, but this is a very precise reading of the current_-strength permitted because during the measuring process a shunt belonging to the measuring device of exactly specified resistance is switched on. It is well known that cable distribution systems the security strips are not placed directly between the terminals, they are located on a handpiece, which is fixed with resilient clamps, for connecting the Cable ends -serving contact pieces engages. It is now according to the invention for the measurement uses a second handpiece which engages the first-mentioned handpiece and this gradually shifts from the conductive contacts to a normally closed contact. This second handpiece has a precisely matched one instead of a safety strip Shunt; thus also enables the passage of current. The connection between the two handpieces is now so chosen; that during the passage of current through the handpiece with safety strips current already passes through the second handpiece and that the first only then on the normally closed contact, when the resilient blades of the second handpiece have found a wide contact surface on the fixed contacts. With the second Handpiece is directly or indirectly connected to a measuring instrument, on which then the continuity of the current can be read off exactly .: In order to move the the second handpiece to bring the first back into its operating position, a simple coupling is provided between the two; which is only then solved when the handpiece, with the safety strip, has returned to its normal position: In the drawing, the essential parts of the measuring device are in one embodiment for example shown.

Fig: i shows a front view of the handpieces.

Fig. Z is a plan view of this without the upper handpiece, and the Fig. 3 and 4 show side views below Omission of unimportant ones Parts with different positions of the handpieces.

The embodiment shown is particularly suitable for cable ducts. There are here in - contact pieces a and b appropriate manner known per se, which are not subscribed cable ends in compound and c on the resilient means of the terminals a handpiece d of insulating material is placed. The two conductive ends of this handpiece are connected by the safety strip e. In contrast to the previous embodiments, the handpiece d is not provided with a handle here, but only carries a web f, the purpose of which is explained below. Behind the current-carrying contacts a and b are normally closed contacts g, the outer surfaces of which are appropriately spaced a little smaller than the contacts a and b, in order to allow the clamps c to relax when the handpiece d is pushed onto the normally closed contacts. According to the invention, a second handpiece h is also provided, which is almost identical in its design to handpiece d, but which does not remain in the cable duct all the time, but is carried by the person making the measurements and only used for the purpose of measurement. Between the terminals i of this handpiece there is a precisely matched shunt k, which can be exchanged if necessary and which is connected, for example, by the screws L to the current-carrying parts of the handpiece lt. Weaker contact screws not shown in the drawing are used to connect a wire line leading to the measuring instrument.

As long as no measurements are made, the handpiece d is known to lie on the contacts a and b (Fig. Q.). For the purpose of the measurements, the handpiece h, which for cable boxes has a long handle m carrying the measuring instrument at the top, is placed from above onto the contact pieces a and b. It then rests against the handpiece d, and a resilient snap n or another suitable coupling member provided on the hairdpiece lt comes into engagement with the web f of the handpiece d. If pressure is then exerted on the handle m, both coupled handpieces move downwards, they rest together for a certain time on contacts a and b, and then the terminals c of the handpiece d slide onto the normally closed contact g. The passage of current takes place exclusively through the shunt k, and the worker has the opportunity to correctly determine the current strength on the measuring instrument. When the measurement is finished, the handle m is withdrawn, the coupling na takes the handpiece d upwards with it, and the connection between the two handpieces is released as soon as the clamps. c again in her from Fig. q. apparent operating position have arrived.

Depending on the local conditions, it must be expected that the two handpieces are given a different shape and that their movement is also different is made. It is only important that the handpiece provided with the shunt has the Handpiece, which carries the security strip, moved so that for a certain Time fuse strips and shunt are traversed by the current and that the shutdown of one or the other part only takes place when the shunt or safety strip take the position of use.

Claims (3)

PATENT CLAIMS: i. Device for connecting measuring devices in cable distribution systems, characterized in that in connection with a removable handpiece (d) of known type carrying a safety strip, a second handpiece (h) is used which carries a shunt of known size and a connection line to the ammeter via the fixed cable contact pieces (ä, b) gripping clamps (2) and which comes into engagement with the first handpiece and can be coupled so that when this handpiece is pushed from the power contacts (a, b) to break contacts (g) shifts, and vice versa, in such a way that when measuring, the current flows through the shunt and the measuring device without interruption instead of the fuse. 2. Device according to claim i, characterized in that the handpiece (d) carrying a securing strip (e) has in the middle a web (f) with which a releasable coupling element (na) of the second, is on the handpiece (d) attached handpiece (h) provided with clamps (i) comes into engagement. 3. Device according to claims i and 2, characterized in that the The distance between the contact surfaces of the normally closed contacts (g) is chosen to be smaller than the distance the contact surfaces of the power contacts in front of them (a, b).