DE232029C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- M 232029 CLASS 745. GROUP

JOHANN KÖPF and VICTOR KNAPEK in VIENNA.

The invention relates to an electromagnetically controlled device for telecommunication the temperature at which a thermometer is moved by the fluctuations of a thermometer Contact closes the current via an electromagnet, the armature of which is the indicator of a receiver in motion. The subject matter of the invention differs from known devices of this type in that the pawl moved by the armature of the receiver electromagnet when exercising their switching effect meets a contact, whereby a the transmitter associated electromagnet is excited, the armature then in a known manner the Excitation circuit interrupted.

The drawing illustrates the subject matter of the invention, for example, namely, FIGS . 1 and 3 show the two switching mechanisms of the receiver and the transmitter in a front view, FIGS. 2 and 4 vertical sections along the lines AB of FIG. 1 and CD of FIG 3, 5 shows a detail in longitudinal section and FIG. 6 shows the circuit diagram.

A steel rod 2 protrudes into a steel tube 1, which is tightly sealed on all sides and filled to the upper edge with mercury as a thermometric substance, which penetrates a cylindrical housing 3 (Fig. 5) and at the upper end with a consisting of two parts 4 and 4 ^a, which are insulated from one another Sliding contact is connected. A helical spring 5, which is supported on the one hand against the ceiling of the housing 3 and on the other hand against a cross bolt 6 inserted through the steel rod, surrounds the rod 2 and tries to push it downwards. The sliding contact 4, 4 ' ¹ carries two fingers 7 and 8, into each of which a contact screw J ^a or 8 ^{a is} adjustable. The sliding contact 4, 4 ^a is slidably arranged on rails 9 and g ^a , which are mounted in two carriers 10 and 11. The contact part 4 contacts the rail 9 and the contact part 4 ″ conductively contacts the rail g ^a . One end of the rails 9 and g ^a is conductively connected to the supports 10 and 11, respectively, while the other end of these rails is connected to the supports by sleeves ΐο ^α or ii ^ffl . Between the two contact screws y ^a and 8 ^a protrudes the shoulder 12 * of a rack 12 which is in engagement with a gear 12 *, the axis of which ^{carries a pointer I2 C.} The gear 12 ¹¹ can pass through two pawls 13 and 14 are rotated in one direction or the other. These pawls are attached to the armatures 13 ^s or 14 ° of the electromagnets 13 * and 14 ^. The axis of the gearwheel Ι2 ^δ and the pivot pin of the armature 13 " · And 14 ″ are conductively connected to one another as a result of their mounting between two brass plates 16 and i6 ^e . Likewise, the contact screw y ^a through the sliding contact 4 ^a and the rail g ^a with the stand 11 and the contact screw 8 ^a through the sliding contact 4 and the Rail 9 mi t the stand 10 in conductive connection. The plate 16, the electromagnets 13 ″, 14 * and the carriers 10, 11 are attached to the non-conductive base plate 15 of a housing (not shown). At the

Plate 15, five clamps A ₁ B ₁ C ₁ D and E are attached, of which B is conductively connected to the stand 10, C to the plate 16 and D to the stand 11. The winding of the electromagnet I3 ^& is conductive on the one hand to the plate i6 °, on the other hand to the terminal A _1, the winding of the electromagnet 14 * on the one hand to the plate i6 ^ffi and on the other hand to the terminal E. connected. Terminal C is connected to the positive pole of a battery. The device just described, the transmitter, is located in the room whose temperature is to be monitored. The display device described below, the receiver, is housed in the room from which the monitoring is to be practiced.

The non-conductive base plate 17 of a housing (not shown) carries two electromagnets 18 and 19, on whose armatures 18 ^a and 19 ⁰ a pawl ^{18 6} and 19 ^{5 is} attached. These pawls are able to switch a gear 20 in one direction or the other, which is in engagement with a second, equally large gear 20 ^, the axis of which carries ^{a pointer 20 δ.} Each pawl carries a brass ^{pin 2i a} or 2ΐ ^δ , in whose path a contact spring 2τ, ^α or 23 ^{s attached to a bolt 22 ffi} or 22 ^δ protrudes. The axes of the gears 20, 20 ^a and the pivot pins of the armature i8 ^a , ig ^a are conductively connected to one another due to their storage between two brass plates 24 and 24 **. The lower brass plate 24 is attached to the base plate 17

. solidifies. The latter carries five clamps a, b, c, d and e, of which α is conductively connected to the bolt 22 ^a , c to the plate 24 and e to the bolt 22 ^6. The winding of the electromagnet 18 is conductively connected on the one hand to the terminal b and on the other hand to the terminal c, the winding of the electromagnet 19 on the one hand to the terminal d and on the other hand to the terminal c.

The operating principle of the remote thermometer shown is as follows:

With every temperature fluctuation, as a result of the increase or decrease in volume of the mercury in the tube 1, the steel rod 2 and with it the sliding contact is displaced 4.4 °. Assume that the approach 12 "is in the middle between the contact screws γ" and 8 ^a , so that it does not touch either of the two, and the distance "of each of the two screws from the approach I2 ^a is as large as the displacement that the Rod 2 suffers with a temperature fluctuation of i °. With a temperature increase of ι °, the rod 2 is raised until the screw 8 ° ^{touches the attachment I2 ß} . At this moment the battery circuit is closed. The current runs in the sense of Solid arrows from the positive pole of the battery (Fig. 6) to terminal C, on the plate 16, the gear Ι2 ^δ , the rack 12, the approach I2 ^a , the contact screw 8 ^a , the finger 8, the sliding contact 4, the Rail 9, the carrier 10 to terminal B, from this to terminal B. From the latter the current is returned to the negative pole of the battery via the electromagnet 18 and the terminal C. The current shortage causes the electromagnet 18 to be excited and pulls its armature i8 ^a on, whereby the corresponding pawl ΐ8 ^δ (Fig. Is 1) causes the switching operation of the gear wheel 20, which transmits its movement to the gear 2O ^a and the pointer ^B 20. The latter shows on a graduation (not shown) the degree of warmth that prevails in the room, the temperature of which is to be monitored. During the switching movement of the pawl ΐ8 ^δ , the brass ^{pin 2i H} hits the contact spring 23 ". This causes the current to flow through the winding of the electromagnet 13 *, in the sense of the dashed arrows (Fig. 6) from positive pole of the battery, via the terminal C, the plates 16 and i6 ", the winding of the electromagnet 13 *, the terminals A and a, the bolt 22 ^ffi , the spring 23 °, the pin 2i ^ß , the pawl ΐ8 ^δ , the plate 24, the terminal c and back to the negative pole of the battery. Since the magnet 13 * is now excited, it attracts its armature 13 '- * (Fig. 3), which causes the associated pawl 13 to rotate the wheel I2 ^!) So that the rack 12 is lifted a little until the approach I2 ^a comes out of contact with the contact screw 8 ^a. As a result, the current flowing through the winding of the electromagnet 18 is interrupted, while the winding of the magnet Ι3 ^{δ remains current, because the spring 23 ° remains in contact with the pin 2i ß} even on part of the return movement of the armature 18 ". The armature I3 ^a is therefore risen sharply, and the mixture I2 ^e returns to the center between the two screws J ^a and 8 ^a. at the same time the gear is ^{δ ΐ2} and the graduation playing pointer I2 ^C (not shown) on a through the pawl 13 corresponding to rotated the temperature increase of i ° in the clockwise sense. in jedesmaligem rise of temperature to i °, the process described is repeated exactly at temperature drop to i ° of the process takes place in analogous inversion, since now the contact screw y ^a the batch. ^{i2 e is} touched, thereby the battery current is closed via the electromagnet 19 and then switched by the pawl 19 * resp. through the pin 2ΐ ^δ and the contact spring 23 ^s the current is switched in such a way that the magnet 14 * is also excited, whereby the pawl 14 comes to the switching effect and, similar to

earlier, the approach i2 ^a initially out of contact with the screw y ^a and then into the original middle position between the two screws J ⁽¹ and 8 ^a .

On the automatic display device shown in FIGS. 3 and 4, the in The temperature prevailing in the room to be monitored can always be read directly, without that some prior adjustment would be necessary.

Claims (3)

Patent Claims: 1. Electromagnetic device for telecommunication of temperatures at which a contact moved by the fluctuations of a thermometer closes the current via an electromagnet whose armature sets the receiver's display device in motion, characterized in that that the pawl moved by the armature of the electromagnet belonging to the receiver when exercising their Switching action meets a contact, whereby an electromagnet belonging to the encoder is excited, the armature then interrupts the excitation circuit in a known manner. 2. Apparatus according to claim i, whose thermometer consists of a to its upper edge with a thermometric substance, for. B. mercury, filled tube closed at the bottom, in which one end of a sliding rod is tightly inserted, the other end of which carries two sliding contacts, characterized in that the sliding contacts (4, 4 °) on two isolated from each other, with different terminals (B or D) conductively connected rails (9 and g ^a ) are slidably mounted and carry two mutually adjustable contact screws (7 ° and 8 ^ß ), between which the projection (12 °) of a rack (12) protrudes into a ^{gearwheel (12 s} ), which can be switched in both directions of rotation, engages by the two electromagnets (13 ^s , 14 ^{s) of the encoder.} 3. Apparatus according to claim 1 and 2, characterized in that in the path of the pin (21 ⁰¹ or 2ΐ ^δ ) by an electromagnet (18 or 19) of the receiver to be moved switching pawl (ΐ8 ^δ or ig ⁶ ) a Contact spring (23 "or 23 ¹ ') protrudes, which is touched by the pin (2t ⁰ or 2ΐ ^δ ) during the switching movement of the pawl (i8 ⁶ or 19 ^s ), so that the current now also flows through the winding of the associated encoder magnet (13 ^s or I4 ⁷⁾ ) flows and its switching armature (ΐ3 ^α or 14 ⁰ ) causes a gearwheel (12 *) to rotate, which shifts the rack (12) carrying the encoder contact ^{(i2 rt), this contact} (i2 ^tt ) brought out of contact with the contact screws (y ^a or 8 ^a ) adjusted by the thermometer and the battery current is interrupted. 1 sheet of drawings.