DE42254C - Regulation device for electric arc and differential lamps - Google Patents

Description

IMPERIAL

PATENT OFFICE. W.

The innovations described below aim at simple and precise regulation the coal position on differential and other electric arc lamps, and should an easy and safe creation of the arc, an exact and regular regulation of the same, as well as the simplest possible construction of the whole lamp.

Fig. Ι shows the front view of the lamp with the solenoids in section,

2 shows the regulating device in side view,

Fig. 3 shows the upper part of the latter, especially the balance beam B in connection with the roller 1 and the iron core Q,

Fig. 4 is a top view of the regulating device.

Fig. 5 shows the guidance of the carbon holder η .

Figures 6 and 7 relate to modifications of the construction shown in Figs. 1 to 5, namely Fig. 6 shows the regulating device a lamp in which the solenoids are replaced by a single electromagnet. Finally, FIG. 7 shows a lamp in which the carbon holder and the armature are changed are.

The construction of this lamp is as follows:

The two coils C C ^{1 are} attached to the base plate H; Of these, C ^{1 has} a thick and C a thin winding, consequently C has a high resistance and C ¹ a low resistance. Both coils carry the frame G, in which the regulating mechanism is placed. The main axis χ of the latter carries on the frame the two rollers ν and i, over which cords or chains ee ¹ run, and also, inside the frame, the gear s, which engages in an intermediate wheel s ^l. The pin wheel c, in which an armature A engages, sits on the axis of this intermediate wheel. The armature A is set up in such a way that its ^{pallet directed towards the coil C 1} , in the normal position of the armature, is closer to the pins of the pin wheel c than the pallet inclined towards the coil C, so that it only grips the pin wheel c on one side. It is firmly connected to a balance beam B by the axis f; the latter has iron cores QQ at both ends. ¹ , which are movable up and down in the coils CC ^1; by means of the adjusting screws ww ¹ , the hanging or the engagement of the iron cores QQ ¹ in the wire coils C ¹ can be regulated within certain limits. The movement of the anchor A respectively. of the beam B is located at the upper part of the frame G screws ρ ρ regulated. A roller \ is rotatably mounted in a lever ^ ¹ and this can swing up and down around the pivot point \ ^{2 on the frame G.} At its outer end, the lever ^ ^{1 is} in connection with the adjusting screw Z ¹ , which passes through a nose / on the balance beam B and carries the adjusting nut h at its upper end.

The adjusting nut h is set at a certain distance from the nose /. This distance depends on the size of the path which the balance beam B describes on the screw spindle '/ ¹ . About the role \ is a cord or chain e; the same loops around a great part of the circumference of the roll \ and goes from there to the cord slice i on the axis x; the other end of this cord is firmly connected to the carbon holder η , which can be moved up and down in the slotted tube F. The guide tube F itself is insulated from the base plate H. A second cord or chain e ¹ is connected to the other carbon holder t , which is guided in the tube F ¹ , the other end of this cord e ¹ is wound over the cord roller ν. How ι seen from the Fig., The cords are ee ^l wound so, that χ during movements of the shaft in one or other sense, winds a cord, the other handles, and thereby is achieved, that when the shaft rotates χ in the direction of arrow J the coal holder t with the associated coal k is moved downwards, the other coal holder η with the associated coal k ^{l is} moved upwards. The weight o, which is connected to the former and at the same time serves as a guide for the coal holder t in the tube F ^1, serves to secure the downward movement of the coal holder t. Since the burning of the positive coal takes place in a ratio of approximately 2: 1 to that of the negative coal, the radii of the cord rolls ν and i are approximately 2: 1, so that the upper positive coal k is once again as fast as the negative carbon is pushed and so the arc remains in relatively the same position. The cord e 'is passed just above the base plate H over the role m . The operation of the lamp shown in Fig. 1 to 5 is as follows:

If the lamp is switched into a circuit, the positive current enters terminal II, from here it passes through the coil C of greater resistances, from here by means of the line m ¹ to terminal I, which is insulated on the base plate H, and back to the battery or dynamo. The iron core Q, which hangs on the balance beam B, is drawn into the coil C by the current present in the coil C , so that it moves downwards. As a result, the balance beam B is also moved downwards on its right-hand side, FIG. 1, so that the armature A rigidly connected to it moves out of the pins of the pin wheel c on the left ^{-hand side, directed towards C 1} , with which it has hitherto was engaged, moved; This frees the pin wheel c and the entire wheel mechanism is rotated by the weight ο of the carbon holder t , so that the axis χ moves in the direction of the arrow J. By rotating the axis χ in the sense described, however, it is achieved that the coal holder t with the coal k goes downwards, while at the same time the coal holder η on the cord e is moved upwards; in this way the coals are moved against one another until they collide with one another. In the same moment when the contact between the two carbon spikes takes place, the current passes instead through the coil C with grofsem resistances from the terminal II by the base plate H, from here by means of tube F ^1, coals kk \ brush holder η and tube fin coil C ¹ of low resistance, from here via terminal I back to the battery or dynamo. As a result of the current flowing through the coil C ₁ , the iron core Q _{1 is drawn} into the coil C ₁ , consequently the left side of the balance beam B is pulled downwards and the left pallet of the armature A is thereby placed in the pin wheel c . This brings the regulating mechanism to a standstill. In the case of the movement of the balance beam B described in this way , the control device I ¹ \ has not been taken into account. With the last-described downward movement of the balance arm B on its left side, the screw nut h, which was lifted up when the left lever arm was moved upward, also went down again and the roller \ has sunk as a result of its own weight; but this also causes the cord e, and with it the lower carbon holder η of the carbon k ^}, to move downwards, so that the lower carbon moves somewhat away from the upper one, and in this way an electric arc arises.

If, however, the arc becomes longer due to the burning of the coals and the resistance in the main circuit increases, the current in the main circuit becomes weaker, but stronger in the secondary circuit. The main current goes from terminal II through the carbons k and k ^l to terminal I, the coil C, which is connected to the secondary circuit, pulls in the iron core Q as a result of the increasing secondary current, the balance beam B makes a small movement, as a result of which the armature drives the pin of the pin wheel that was held at that moment. As a result, the upper carbon k moves a little downwards, the arc becomes shorter and the current in the main circuit becomes stronger again. Conversely, this reduces the secondary current in the coil again, as a result of which coil C runs

the core Q. loose again and the anchor pallet on the left engages in the pin wheel c again. If the coals continue to burn, the game begins again, as the current in the main circuit becomes stronger again. Since the current in the main circuit does not suddenly decrease, and that in the secondary circuit does not suddenly increase as a result, the coal is not pushed in abruptly, but continuously, always keeping pace with the burning of the coals.

The screw nut h on the upper end of the screw Z ¹ is set in a certain width from the nose Z. This width is regulated according to how long the path is, which the balance beam B and thus also the nose I describes. When regulating the arc, the nose / describes the path from no to mo, Fig. 3, that is only to the screw nut h; this distance is approximately ι mm. If, on the other hand, the lamp is put into operation, i.e. if an arc is to arise, the balance arm B makes a considerably larger movement of about 7 mm, so that the adjusting nut h is raised. Since the nut with the roller h ^ fixedly connected, it is moved in the formation of the arc, the role \ and thereby η in significant Mafse the brush holder in the height. By means of the adjusting screw ρ the size up to which the coal tips have to burn can be regulated so that the automatic feeding of the coal by the regulating mechanism occurs again. The regulation of the coal tip removal also occurs if one of these should suddenly break off. The lamp thus regulates itself entirely according to the difference in current intensity in the main circuit and in the secondary circuit; you can therefore switch on a whole series of lamps in one or more circuits. In the arrangement of FIG. 6, the coil C with iron core Q. is replaced by the electromagnet P Q. and the armature E. In this case the balance beam B is provided with the armature E at its right end and the iron core Q. ¹ and the coil C ^{1 are} replaced by an adjustable spring M on the left side, Fig. 6. The mode of operation is the same here, as stated earlier.

The roller \ is immediately attached to the balance beam B so that it can rotate. In the device shown in FIG. 7, the arrangement is made that the coal holder T ^{0 of} the lower coal A: ¹ is rotatably fastened about the pin y ° and the upper coal holder t ° is moved up and down by means of a rack e °. The rack e ° engages in the drive wheel a °, which is connected to the steering wheel c ° by wheels b °. In the climbing wheel c °, the half-bencher A ⁰ grips the lever JV ⁰ , which moves around the axis x ° . The half banker A ⁰ carries at its lower end M ⁰ ■ a rod / i °, which has a screw with the screw nut L ⁰ on its lower end. If the arc is to be created, the current goes through the electromagnet Q ⁰ P ⁰ , which attracts the iron armature E ⁰ , the half-banker ^ 4 °, as a result, releases the climbing gear c ° with its upper arm and the rod e ° can pass through its own severity resp. Go downwards o ° through the weight load until coal k hits the coal k ^{l of} the lower coal holder. As soon as this occurs, the current goes through the carbon kk ^x to the battery, since the terminal II is directly connected to the carbon holder T ⁰ . When the current in the electromagnet has decreased in this way, the iron armature E ^{0 is released} from the electromagnet Q ⁰ P ⁰ and armature A ⁰ engages in the gear c °, so that further sinking of the rack e ° is prevented. With the armature A ⁰ , the rod h ° also goes down, the screw nut loosens the carbon holder T ⁰ , so that the carbon k ^l is removed from the carbon k of the upper carbon holder and the arc is created. When regulating the arc, the lower carbon holder remains at rest, because the rod h ° connected to the armature A ° can at most describe the path from mo ° to no ° .

Claims (2)

Patent Claims: 1. On electric arc and differential lamps, the roller ^ which by means of the screw Z ¹ , adjusting nut h and nose Z is connected to the lever B _{carrying the iron cores Q. Q 1} , and via which roller the cord e for the lower one Coal carrier η is wound, in combination with the rollers i and v, to which the cord e for the lower coal holder η and the cord e for the upper coal holder t is attached, so that the roller \ remains idle in the regulation of the arc When the arc arises, however, the height is increased, whereby the size of the arc and the size of the regulation can be adjusted by means of the adjusting screws Zi and y . 2. The device claimed in 1. in combination with the anchor A BEZW. .A ⁰ , which is firmly connected to the lever B and whose one pallet grips into the pin wheel c when the coals are in the normal position, while the same is carried out by means of the lever B through the electric magnet is brought to mesh with the pin wheel c . The rod h ° on the lower part of the armature A ° ^{dominated by the electromagnet Q 0} P ⁰ , which passes through the rotatable lower coal carrier T ⁰ and carries a device L ⁰ adjustable against the latter for the production of any voltage arc, so that during the increase of the main current resistance, the armature E ^{0 is} attracted, the coals kk ¹ are brought closer to each other, when the main current resistance subsides, the rod h ^ö sinks and the carbon holder T ⁰ goes down to the device L ⁰ and forms the voltaic arc. For this purpose ι sheet of drawings.