DE344729C - Maximum load indicator for electricity meters - Google Patents

Description

Maximum load indicator for electricity meters. The invention relates relies on electricity meters and displays a maximum consumption indicator that against idlie in two respects. known maximum consumption indicator improved is. Firstly, a maximum consumption display only occurs when the maximum load has lasted a certain time, the longer the time, the higher the maximum load is, but not if a load occurs only momentarily or very briefly. Secondly, the device is built in such a way that it fits into the existing one Counter can be installed instead of the existing counter! so the conversion from an ordinary meter to a maximum consumption meter: permitted.

The device consists in being one with that of the instantaneous Load of the counter corresponding rotational speed of the revolving part Iden Pointer this maximum consumption: essers drives and at the same time - tensioned a spring, which traces the scale belonging to the pointer, whereby the scale in turn falls below the n. a special damping stands; : the deflection of the pointer on the scale so arises with a time lag that grows with the load; one and. there is not a maximum exposure display in the actual sense, but rather sonic the display of the mean exposure value over a certain point in time Maximum load but in any case a comprehensible time span.

The figures show exemplary embodiments of the invention, namely Fig. I and: 2 schematic representations. two different embodiments, Fig. 3 and 'q. the attachment of the new device to a watt hour meter is more common Design type.

In Fig. I -, the drawing is the disk i of a hour meter the ordinary `l'vpe is attached to a shaft 2 on which the IZitzel3 sits. The same goes for the secondary set 4 for the maximum consumption meter, which shows the amount that is the consumption equivalent of the fluctuating energy, which flows through the `windings of the meter. The auxiliary telephone q: can be detached its and is of such a compact design that it is in your watt meter instead of whose counter, as shown in Ab@b.3 -the drawing, can be installed.

The spur gear 3 engages in a gear 5, which sits on a shaft 6, which is a spur gear; 7 wears. The same meshes with a gear wheel 8, which is keyed on a shaft g, on which a pointer io is arranged and the inner end of a spring ii is attached. The outer end of the spring ii is attached to an arm 12 which is seated on a shaft 13 on which an arm 14 and a gear 15 are also placed. The Arte; 14 is connected to a scale 16 which is arranged so that it cooperates with the pointer lo. The gear 15 influences a pinion 17 which sits on a shaft 18 on which a pitch gear i9 is also keyed. An armature 2o is placed on a shaft 2i which engages the teeth of the climbing gear i9. This armature 2o is offset at its other E.nide with a toothed arch 22 which engages in the gear 23 which is seated on a shaft 24 on which a freely oscillating balance 25 is arranged. Stops 26 are provided in order to limit the movement of the armature 2o.

When (the disk i is rotated, the pointer lo will move a distance which is essentially proportional to the energy passing through the windings (not shown) inner end and it can unwind from its outer end in accordance with the vibrations of the double-claw anchor 2. When the shaft 13 rotates because of the delayed release of the outer end of the fields ii, the scale 16 is also in the same direction As the pointer lo is moved, the pointer lo will therefore cooperate with the scale 16 and display a value from which it can be assumed that it corresponds to the amount of fluctuating energy drawn through the windings of the instrument Unrest 25 swings freely, the armature 2o will oscillate in accordance with the torque that is exerted on the steering wheel, i9., And the scale 16 can move in accordance with the move the counter flowing through winding energy because the torque of the wheel i ii by the spring is transmitted to the. ratchet wheel 1 9.

In Figs. 3 and 4 of the drawings there is tar secondary set, the one with a Wattstur- I d'enzähler i is connected in place of its counter, between the boards 63 and -64 installed. The slave set 4 includes a pointer lo, the with the: inner end of the spring i i and the armature i! of the meter is connected. The outer end of the spring i i is connected to the scale, 16 and an escapement, which comprises a freely movable balance 25, a steering wheel i9 and an armature 2o. The ancillary devices shown in Fig. 3 and 4 are! in all essential parts similar to those in Fig. i.

It is a known fact that the torque of the ordinary Watt meter is relatively small; it is therefore often necessary to have an external To add strength to wind up the eder. For this purpose, there is a spring motor 27 (Fig. 2) provided in order to wind up one end of a spring 28, while d'er Anchor 29 of a watt meter of the usual type, the movement of vain movable Part 30 of the spring motor proportional to the energy that affects the windings of the instrument. In such an embodiment, a Kegelzabnrad.3i occupied on the axis 3o, which engages in another bevel gear 32, the is mounted on a shaft 33. Gears 34 and 35 are also on or shaft 33 attached. The gear 35 drives a wheel 36 which is seated on a shaft 37. A climbing wheel 38 is also mounted on the shaft 37, which is connected to an armature 39 cooperates on the shaft 40. The anchor 39 is provided with a fork 41, i which comprises an eccentric 42 which is seated on a shaft 43. On the latter is a "Gear 44 attached. Gear 44 meshes with: Gear 45 on shaft 46 a on which the armature 29 is attached. So if this disk turns, so winds also, the shaft 33 and, as a result, id'as gear 34 proportional to the One revolution of the armature 29.

The gear 34 meshes with the gear 47, which is seated on a shaft 48 on which a pointer 49 and an arm 50 are attached. The outer end of the spring 28 is connected to the arm 5o and its inner end is attached to the axis 5i. An arm 52 and a gear 53 are also connected to the axis 5 i and the arm 52 carries a scale 54 which cooperates with the pointer 49. The Zahnrac153 engages in a gear 55, which is placed on an axle 56 on which the gear 57 is seated. This engages in a toothed wheel 58 which is seated on an axle 59 provided with an inhibition 6o. This escapement 6o can consist of an anchor, a steering wheel and a freely oscillating balance, as shown in Fig. I. Any other form of escapement can be chosen which delays the movement of the scale by a period of time or changes proportionally to the speed of the armature 29. Likewise, a disk 6i fastened on the axis 59 can be provided, which moves between the poles of a permanent magnet.

When the armature 29 rotates, allowing the clockwork 27 to wind the spring 28, causing the zeager 49 to move a distance proportional to the energy flowing through the windings of the instrument, so does that Scale 54 moves, but delayed by a period of time which changes significantly with the speed of the disk 61. Since every- yes, the speed is due to disk 61 in accordance with the speed of the anchor 2.9 changed, it is understandable that the time lag of the movement of the Scale 5 ¢ is proportional to the speed The ability of anchor 29 consequently also changes with ider energy, idie: the windings of the. instruments flowed through.

Claims (6)

PATENT CLAIMS: i. Maximum load indicator for. Electricity meter u:, d'gl., characterized in that 4'ass a corresponding with the counter load Speed of revolving part moves a pointer, and, at the same time, tensioning a spring, which replicates the scale working together with the pointer, with this under Breath the inflow of a special damping is available. 2. Maximum load indicator for Electricity meter and the like according to Claim i, characterized in that: the drive not. directly through part of the meter, but through: one of: the meter controlled motor, e.g. B. spring motor (: 27) is effected. 3. Maximum load indicator for electricity meters and the like according to claims i and 2, dä: marked by, @, that the movement of the intermediate motor (27) is delayed by an inhibition, the by: the moving part of the counter is driven. Höchstbefasturngsanzeiger for electricity meters and the like according to claim ii '3, characterized by such> s assembly of the parts of the maximum load rank indicator and, if necessary, of the intermediate motor, @ that is, it can be installed in an ordinary meter in place of the counter. 5. Maximum load indicator for electricity meters and the like. according to claims i to q., characterized in that the same damping of the scale (5q.) by means of an ordinary escapement wheel (T9) with Hemma, nker (2o) and freely swinging unrest (25) Gebi: vdet is. 6. Maximum load indicator for electricity meters and the like. according to claims i to q., characterized in that the same damping of the scale (5q.) is formed by an ordinary eddy current brake (6T).