DE695701C - Electric arc lamp - Google Patents

Description

Electric arc lamp The invention relates to an electric one Arc lamp with a drive and control device for the speed of the Moving the negative coal forward or backward.

In the case of electric arc lamps with automatic feed control, it is desirable to move the negative coal forward and backward at different speeds. to be able to move backwards, so that on the one hand the negative carbon until ignition the lamp advanced at high speed and in the same way for rapid Creation of the arc - is withdrawn at high speed. Should on the other hand, when the bow is burning, the coals are only pushed back or forward a little a small speed is used, and a larger one is required The control can change the distance between the two coals with a correspondingly larger Speed. Automatic feed controls are now known with those for the movement of the negative coal in each direction two different ones Speed levels are provided.

The invention relates to a control device in which the Feed speed of the negative coal is continuous and stepless, so that the continuity and evenness of the arc actually apply to the whole Burning time of the coals is guaranteed. The activation of the direction of movement and the feed rate is done with the help of a tension or Current relay in a manner known per se by locking pawls "engaging in detent disks".

According to the invention, the position of two is for each direction of movement Pawls opposite a ratchet disc that is firmly coupled to the feed device controlled by depending on the arc voltage cam changed in such a way that their engagement time in the associated detent disc is different is long: The pawls are controlled by guide rods attached to the pawls, which is the surface of the cam. comb off. The cams consist of a solid semicircular Part that is attached to the support bearing of the motor-driven shaft, and a second movable, connected to the armature of the voltage or current relay; also semicircular part. The fixed and moving cam parts are like that arranged that their semicircular surfaces in the normal state, i.e. H. with correct Arcing conditions, together form a circular surface, while, in the case of incorrect arc ratios, the movable cam parts opposite the Normal position are shifted. The two movable cam parts are like this arranged to each other so that the actuation of the forward and reverse clutch does not occur simultaneously can take place and both clutches are switched off in the normal state.

An embodiment of the arc lamp according to the invention is intended to Hand of the illustrations are explained in more detail.

Fig. I shows a perspective view of the feed control itself, and Fig.2 shows the side view of the arc lamp with carbon holder and feed device represent: Figs. 3, 4 and 5 show different positions of the cam disk 35 and 41 from Fig. I, shown schematically.

In Fig. I, io denotes a drive shaft that is in the support bearings i i and 12 runs and transmits their movement to the shafts 13 and 14: The wave io is driven by your Motö-r i5 via a worm gear at a certain speed driven, and the shafts 13 and 14 transmit, as can be seen from Fig. 2, this movement via the two articulations i9 and 22: the negative and arc lamp positive charcoal. When the shaft 13 is rotated in one direction, the worm gears 18 push the negative face forward. When turning after the other way they push the coal backwards, d. H. the negative coal 17 is removed from the positive carbon 20. Through the shaft 14 and the articulated arm 22 the positive coal is set in rotation and also forwards from time to time pushed.

The gear for the drive shafts 13 and 14 is in a housing 24 housed, on which a stand a3 for the coal holder and feed device is attached.

In Fig. F, the drive shaft 14 is driven directly by shaft -io via two bevel gears 2 5: -The drive shaft 13 is normally decoupled from shaft io, but can be driven by the clutches 26 and 27, with clutch 26 during the reverse movement and clutch 27 is used in the forward movement of the negative coal.

Since both clutches are designed perfectly evenly, should only the one will be described in detail.

The reverse clutch 26 contains the lever 28, which is fixed in the middle sitting on the axis io and on. both ends with a pin 29 and 29 'each to hold the pawls 30 and 30 'is provided: The detent disk 31 is with the bevel gears 32 and 33 directly connected and rotatable on the axis io. Two springs 34 and 3q. ' press the two pawls onto the detent disc 31.

The coupling 26 contains the adjustable cam 35, which consists of a fixed part 36 with the support bearing ii and a movable part of the bracket 38. Both parts are semicircular and arranged on the axis io that they form a circle when the control device is switched off. The pawls 30 and 30 'each have a guide rod at their ends which combs the circumference of the cam and takes part in every change in shape of the cam surface. When the control device is switched off, the two cam halves move the guide rods 4o and 4o 'in such a way that the pawls 30 and 30' cannot engage in the detent disk 31.

To explain these processes there are different positions in Fig. 3 to 5 the cam is recorded in relation to the drive shaft io and the detent disk 31. The diameter of the movable cam part 37 bAv. q: 3 is denoted by R and the center of the moving. Cam half 37 finite C. The lower semicircle represents the fixed and the upper cam half with radius R.

Fig.3 shows schematically the state when the control device is switched off. No part of the movable semicircle of the cam cuts through the circle which is formed by the detent disk 31, so that the pawls 30 and 30 'do not engage in the detent disk and it thus stands still.

The downward movement of the cam half 37 is schematically shown in Figure 4 shown so that the upper semicircle with your radius R is the circle of the detent disc 31 cuts through from points I to I '. Consequently, the one along the surface the cam moving guide pin engages pawls 30 and 30 'from I to I' Let the teeth of the box washer engage. 7? I this position the Coupling 26 is the detent disc twice with each rotation by both pawls taken along by the drive mass. The angle I-io-I 'in Fig. Q. approximately i2o °, d. H. with every rotation of the shaft io the detent disc is moved by 2q.oo from the drive shaft is entrained.

The size of the angles I-io-I 'depends on the position of the upper semicircle 37 of the cam, and thus the rotation of the detent disk is also from the cam position addicted. Because the drive shaft moves at a certain constant speed rotates, the rotation of the detent disc is also at a certain cam position be constant. By adjusting the upper semicircle of the cam, the Speed of rotation of the detent disc can be changed.

Fig.5 shows the cam position for the opposite case as in Fig. q .. The upper part 37 of the cam lifts through the guide rods 40 and 40 'the pawls 30 and 30' still further from the detent disk 31, but without to influence the controls. In this case the moving part controls 4.3 the cam 41 in the coupling 27, which corresponds entirely to the cam 35 in the coupling 26 is constructed, the pawls 4.5 and 45 'such that they are in the box disc 44. intervene.

The structure and operation of the forward clutch 27 is similar that of the reverse clutch 26.

The cam 41 consists of the movable part 4.3 and the fixed part 42. The box washer 4.4. can be taken along by two pawls 45 and 45 ', by the guide rods 46 and 0, which comb the surface of the cams, being controlled. The fixed and moving parts of the cam 41 are shifted by 180 ° compared to the corresponding parts of the cam 35, so that according to Fig. i the fixed cam part 42 is in the forward clutch 27 above and the movable below, while in the Reverse clutch 26 of the fixed cam part 36 below and the movable one above. The fixed cam parts are supported by the support bearings i i and 12 - and the movable ones Cam parts held by the lever 38.

Since the movable cam parts 37 and. 47 are arranged on opposite sides of the drive shaft and are jointly controlled by a lever 38 , the two clutches 26 and 27 never work simultaneously. For example, when lever 3.8 is moved upward, corner 41 is contracted and clutch 27 is in operation, while cam 35 is pulled apart and clutch 26 is inoperative. On the other hand, when the lever 39 moves downward, the cam 35 is contracted and clutch 26 is operated, while NOcke 41 is pulled apart and clutch 27 is disabled. The mutual actuation of clutch 26 or 27 rotates drive shaft 13 in the opposite direction, depending on whether the negative coal is to be pushed forward or backward.

The lever 38 is held by the armature 5o which is rotatably mounted on the electromagnetic device 51 which is operated by the coil 5: 2. The coil 52 is parallel to the positive and negative carbon, and the position of the lever arm 51 is therefore influenced by the arc voltage. The spring 53 on the armature 50 acts as a magnetic one. Force against.

The mode of operation is as follows: When the current is switched on, but the coals are still disconnected, the full voltage is applied to the coil 52. The electromagnet pulls the rotatable armature 50 against the spring force and thus throws the lever arm 38 upwards or rotates it against it clockwise around its axis. This movement is transmitted to the cams 35 and q.1. The movable cam part 37 is moved upwards and prevents the pawls from engaging the box disc, as shown in FIG. The movable cam part 43 is also moved upwards, and in coupling 27 the pawls engage the box disc, as shown in Fig. Q. shows, but the movable and fixed part of the cam 41 is to be interchanged in the drawing. In this position of the cam 41, the forward clutch 27 closes so that the drive shaft io transmits its movement to the shaft 13 and the worm gear 18 pushes the negative carbon at high speed onto the positive carbon in order to ignite the lamp. Under this condition, the cam part 42 is pressed by the armature 5o to its innermost position, so that the pawls 45 and 45 'engage in the box disc during the entire revolution of the shaft io and the shaft 13 therefore has its greatest speed.

As soon as the lamp has ignited, the voltage across coil 52 drops at the touch of the coals. Because of this drop in voltage, the coil can 52 no longer hold the rotatable armature 5o against the spring force. The spring force rotates the armature clockwise, thereby moving the lever arm 38 downwards.

This movement closes the reverse clutch and opens the forward clutch. First, the movable cam part 37 is in its innermost position, so that the pawls engage during the entire revolution and rotate the shaft 13 in the reverse direction at the highest speed. However, this speed is gradually decreased as the arc voltage increases; since the armature 5o is attracted and the cam portion 37 is moved upward. The pawls 3o and 30 'are thereby partially released from the box disc.

The movable part 43 of the cam 4i is moved downwards at the same time, and the pawls can thus engage even less in the box disc; as shown in Fig.5, where again the movable and fixed cam parts have to be exchanged. This position is now the reverse clutch 26 in operation, the shaft 1 3 rotates so that -the negative carbon is removed from the positive, so that the arc can occur at the cam 35th -As soon as this has happened, the voltage on the two coals and thus also on the coil 53 increases; so that the armature 50 is attracted against the spring force 53 until a state of equilibrium is reached. In this case, the lever arm 38 will bring the cams 35 and 41 into the neutral position of the control, as Fig. 3 shows, and the two clutches 26 and 27 are out of operation. Obviously, the rotatable armature 5o will now be rotated from its equilibrium state to one side or the other when the conditions of the arc change, and the cams 35 and 41 are shifted so that a favorable distance between the positive and negative carbon is maintained.

The degree of movement of the armature 5o from its equilibrium state is therefore of the arc voltage and thus of the amount by which the carbon is used Producing the most favorable working condition must be moved depending.

As FIGS. 3 and 5 show, the rotational speed of the shaft 13, which brings the negative carbon into the correct position relative to the positive carbon, is determined by the degree of armature movement. If the arc ratios are correct, this rotation is insignificant and the speed of rotation is low in relation to the maximum speed when the lamp is ignited.

Claims (4)

PATENT CLAIMS: i. Electric arc lamp with a drive and Control device for the speed of forward and backward movement of the negative Coal, in which the activation of the Direction of movement and the feed speed by engaging in box washers Ratchets takes place, characterized in that for each direction of movement Position of two pawls (30, 30 'for backward, 45, 45' for forward) opposite a ratchet slide that is firmly coupled to the feed device (3i for backwards, 4.4. for forward) by cams controlled depending on the arc voltage (35 for backwards, 41 for forward) is changed in such a way that its engagement date is of different lengths in the associated box washer. 2. Arc lamp according to claim i, characterized in that the control of the pawls (30, 30 ', 45, 45 ") by guide rods attached to the pawls are carried out, which the surface of the cams (35,4) comb off. 3. Arc lamp according to claim i and 2, characterized in that the cams (35, 41) from a solid, semicircular part (36, 4.2) which is attached to the support bearing the motor-driven shaft is attached, and a second movable, connected to the armature of the voltage or current relay, also semicircular Part (37, 43) exist and that the fixed and movable cam parts are arranged are that their semicircular surfaces in the normal state, i.e. H. with correct Arcing conditions, together form a circular surface while at incorrect arc conditions' the moving cam parts compared to the Normal position are shifted. 4. arc lamp according to claim i to 3, characterized in that; that the two movable cam parts are arranged to one another so that the actuation the forward and reverse clutch does not take place at the same time and, in the normal state, both Clutches are switched off.