DE1074767B - Device for regulating the contact time for mechanical contact rectifiers - Google Patents

Description

GERMAN

The invention relates to mechanical contact rectifiers of those described in U.S. Patent 2,693,569 Art. The invention is based on the object of a device that works simply and reliably to regulate the contact time to create in such contact rectifiers, the contact contact duration at a fixed Setting device can be set and changed during operation of the contact rectifier can.

A device of this kind, in which the contact contact time can be set and changed during operation of the contact rectifier on a fixed setting device, is already known. In this arrangement, in which the change in the plunger length is also effected by a screwing movement of the tappet parts connected to one another by screwing takes place against one another, is the The lower part of the ram is secured against rotation in the ram guide by a wedge and is guided in a sliding manner. However, this anti-rotation lock by means of a keyway guide in the lower tappet part has different features Disadvantages on; First of all, this additional keyway means additional friction and thus, in view of the high stress on the plungers of such mechanical contact rectifiers, increased Wear, and not only when the device for contact duration control is actuated during operation, but also during normal operation of the contact rectifier; must also to achieve a sufficient Guide the lower plunger part of this have a certain minimum length, so that a shortening the overall length of the plunger, as it may be desired for special applications, certain limits are set by the requirement of a linear, against tilting because of the resulting carefully secured slide guide are intended for increased wear.

To avoid these disadvantages, a device for regulating the duration of contact is included mechanical contact rectifiers with one actuated by a rocker arm, of two by screwing connected parts existing plunger, in which the upper, acting on the lifting contact The plunger part can be rotated by means of a worm wheel and is not connected to it in a keyway the worm wheel participating in the ram movement is longitudinally displaceable, designed according to the invention, that the lower plunger part on a low-friction rotatably mounted cross bolt of the actuating it The rocker arm is secured against rotation by means of a tongue and groove.

This measure provides an optimal solution to the problem on which the invention is based for regulation

the contact contact time

with mechanical contact rectifiers

Applicant:

ITE Circuit Breaker Company,
Philadelphia, Pa. (V. St. A.)

Representative: Dipl.-Ing. C. Wallach, patent attorney,
Munich 2, Kaufingerstr. 8th

Claimed priority:
V. St. v. America August 29, 1952

Edward John Diebold, Ardmore, Pa. (V. St. A.),
has been named as the inventor

aims. A separate guide for the lower part of the ram is no longer necessary in the training according to the invention; those with such The above-mentioned disadvantages associated with guidance are therefore avoided. By having the lower part of the ram its lower end rests on the cross bolt of the rocker arm by means of tongue and groove a reliable protection against rotation achieved.

Instead of the sliding that occurs in the known arrangement and is associated with considerable wear Friction of the lower tappet part in its keyway guide results in the device according to FIG Invention almost exclusively the rolling friction of the cross-pin bearing in the rocker arm; the remaining Sliding friction part in the tongue and groove connection of the plunger end with the cross bolt is due to the Insignificance of the relative movement that occurs here is practically negligible.

Because a separate guide for the lower part of the plunger is not necessary, it can be removed from the screw connection with the upper plunger part protruding length can be made practically as small as desired, if this is desirable for structural reasons to reduce the dimensions.

According to an advantageous embodiment of the invention it is provided that the keyway of the The upper part of the ram in the worm wheel consists of several splines distributed over the circumference.

909 7281/437

Further advantages and details of the invention emerge from the following description of a Embodiment based on the drawing; in this shows

Fig. 1 is a perspective view of the tappet assembly a mechanical contact rectifier with the control device according to the invention,

2 is an exploded view of a tappet with the control device,

Fig. 3 is a partially sectioned view of the plunger assembly and the associated removable and exchangeable contact unit.

In Fig. 1, the plunger arrangement of a mechanical contact rectifier with the regulating device and the control for the plunger is shown in perspective. For the sake of simplicity, only the switching device of a multiphase contact rectifier used for a phase α is shown; the switching devices for the other phases can of course be designed in the same way.

A synchronous motor 40 drives the shaft 41. A cam 42 fixedly connected to the shaft 41 drives an eccentric 43 which is connected to the crank arm 50, 51 by a bolt 52. This is rotatable by means of a bearing 54 '(FIG. 3) on a fixed axis 54 for the overlap control stored, so that the reciprocating motion transmitted by the cam 42 to the eccentric 43 also the crank arm 50, 51 is communicated.

The cross arms of the crank arms 50, 51 are connected by crank bolts 60, 61, which the tappets 62, 63 drive. The bolts 60 and 61 are rotatably mounted in the cross arms of the parts 50, 51 so that they are in remain permanently in engagement with the push rods 62 and 63 in the manner described in more detail below can.

The tappets 62 and 63, which are designed in a corresponding manner, are shown in the disassembled state in FIG. 2 and shown in the side view in FIG. 3. When the push rod 63 through the swing arm pin 60 is moved upward, the movable disc-shaped bridging contact 31 is against the Bias of the contact spring 81 (Fig. 3) is raised so that it is removed from the fixed AC contact 28 and the fixed DC contact 26 (+) releases.

The structure and mode of operation of the adjustable plunger 62 will be discussed in the following description Hand of Figs. 2 and 3 explained.

The push rod 100 is provided with external keyways 101 at its lower part and with external keyways 101 at its upper part an insulated head 102 is provided. The head 103 reduced in cross section and that in cross section enlarged parts 104 of the insulated head 102 are selected so small in diameter that they pass through the opening which are formed by the space between the fixed contacts 25,27 so that the head 103 can grasp the contact ring 30. So if the contact rod 100 of the When the swing arm pin 60 (or 61) is raised, the reduced cross-section 103 of the moves Isolating head 102 through the inner opening of the fixed contacts 25, 27 (or 26, 28), so that the Part 103 detects the lower surface of the contact ring 30 (or 31) and this against the bias the contact spring 80 (or 81) lifts into the open contact position.

The insulating material 102 prevents the movable contact 30 or 31 from moving away from the stationary ones Contacts removed with an oscillating movement, so that at the same time a delayed contact separation is avoided, which would limit the safety range of the switching stage.

The outer keyways 101 attached to the lower part of the contact rod 100 are aligned with the inner ones Splines 105 of worm wheel 106 in engagement. The plunger part 100 thus leads against the worm wheel 106 a vertical movement, but is due to a rotational movement against the worm wheel

ίο the engagement of the keyways 101 and 105 prevented. As explained in more detail below, the worm wheel 106 cannot perform any vertical movement, but is open limited orbital movement. The worm wheel 106 meshes with the worm 108 which, as can be seen in FIGS. 1 and 2, is actuated by the shaft 109 '. For one to be done by hand Rotation of the shaft 109 'rotates the worm 108 so that the worm wheel 106 revolves. By the engagement of the inner splines 105 of the worm wheel 106 with the outer splines 101 of the tappet member 100 this will also perform a rotary movement. As explained in more detail below, the The lower plunger part 110 is screwed into and out of the upper plunger part 100. By a Rotation of the screw 108 can therefore change the overall length of the ram 62.

The lower part of the plunger part 100 is hollow and provided with an internal thread 111, which engages with the external thread of the lower plunger part 110. In the lower part of the ram part 110 a collar 112 is provided, which acts as a stop or seat for the disc 113 of the return spring 116 serves. This spring is arranged concentrically to the lower tappet part 110 and rests with her lower end on the disc 113 and with its upper end on the fixed plate 107. On the lower The end of the adjusting screw 110 is a slot

117 is provided, which on the wedge or projection

118 on the swing arm bolt 60 fits. Through the engagement between projection 118 and slot 117 a rotation of the lower plunger part 110 is prevented, so that this only a vertical movement can perform. During the operation of the rectifier, the synchronous motor 40 is driven by an eccentric 43 and crank arm 50, 51 cause the bolt 60 to oscillate, the upper part 100 of the The ram move with the lower portion 110 as a single unit.

As mentioned, the bolts 60 and 61 are mounted in bearings 60 'and 61' of the transverse arms 50 and 51, respectively. the Parts 117 and 118 between plunger 62 and bolt 60 are by the action of the spring 116 and by the Rotational movement of the bolts 60 and 61 in the associated bearings of the pivot arms (Fig. 3) always in Intervention.

FIG. 3 shows the mounting and the structure of the plunger from FIG. 2.

A housing 145 serves as a guide and vertical support for the plunger part 100. The friction-reducing Bearings 126, 127 on the ram part 100 serve as a support and guide for the vertical movement of the plunger part 100. This part is supplied with oil by a pressure lubrication device, which in the area between the plunger 100 and the housing 145 through the opening 128 from the oil chamber 129 is fed. On the upper part of the push rod 100 are several oil drip rings 130, 131, 132 provided, which prevent the excess oil from the insulating head 103 and thus the bridging contact 30 can reach. Through reflux openings

135 , the excess oil can flow back through the inner cavity of the push rod 100.

The entire plunger device 62 of the removable contact device 71 and of the housing 145 is supported by stationary components 141 and 142 . The lower fixed part 141 has an extension 107 which serves as a bearing support for the worm wheel 106 and also as an upper abutment for the return spring 116 . The flange 148 on the housing 145 acts as a stop for the spacer sleeve 149. At the same time, the flange 148 serves as an upper stop for the worm wheel spring 150 or 154, the lower end of which rests on the worm wheel 106 in order to keep it in permanent contact with the annular shoulder 107 keep.

The operation of the push rod device 62, 63 is as follows:

The rotating synchronous motor 40 causes an oscillating movement of the crank arm 50, 51 about the fixed axis 54. Due to the slidable engagement between the slot 117 and the wedge 118 of the push rod or the swing arm bolt 60 or 61 in connection with the guide of the housing 145 , the Push rod 100 only granted vertical movement. Since the plungers 62 and 63 are mounted on opposite ends of the crank arm 50, 51 , they perform their movements with a phase shift of 180 °. In a certain position of the upward stroke, the insulating head 103 detects the bridging contact 30 and lifts it against the downward bias (of about 70 kg) of the contact spring 80 , so that the circuit between the phase line 10 a at the fixed contact 27 and the negative DC line 21 at contact 25 is interrupted. The bridging contact 30 remains raised against these stationary contacts for the remainder of the upstroke and for a specified time or distance of the upstroke of the plunger 62 .

For a certain speed of the synchronous motor 40 , the point in time and the duration of the contact closure and opening is a function of the effective length of the plungers 62, 63. As mentioned, length adjustment of the individual plungers 62, 63 for phases a, b and c the worm 108 is provided with the worm wheel 106 . The worm wheel 106 is constantly pressed against the ring shoulder 107 by the spring 150 or 154 and can therefore neither perform a vertical movement either by itself or with the plunger part 100.

When the rectifier is in operation, the spline connection 101 to 105 between the worm wheel 106 and the plunger part 100 causes the swing arm pin 61 to move the plunger 62 back and forth on a vertical stroke while the worm wheel 106 is stationary.

By means of the worm 108 and the worm wheel 106 , the effective length of the ram 62 can thus be set when the machine is running and when it is under load. As the operator rotates the worm 108 and thus the worm wheel 106 , the ram part 100 is also rotated. However, since the lower tappet part 110 is fixed to the oscillating pin 60 or 61 by the aforementioned keyway connection and is held in engagement therewith by the spring 116 , the tappet part 110 does not rotate when the worm wheel 106 rotates. The tappet part 100 is therefore adjusted relative to the lower tappet part 110 in one direction or the other (depending on the direction of rotation of the worm 108) in order to change the effective length of the tappet 62 .

As described in the US Pat. No. 2,693,596 mentioned above, the mechanical rectifier works at its greatest efficiency when the contact converter closes and opens the contacts at the appropriate time during the current graduation caused by the switching inductor. By using the invention, the length of the plunger 62 can be changed in order to set the point in time and the duration of the contact closure and opening and thereby achieve the highest efficiency of the operation and the appropriate safety in the event of overload and idling.

Claims (2)

Patent claims: 1. Device for regulating the contact contact time in mechanical contact rectifiers with a plunger actuated by a rocker arm, consisting of two parts connected by screwing, in which the upper plunger part acting on the lifting contact can be rotated by means of a worm wheel and does not participate in the plunger movement in a keyway Worm wheel is longitudinally displaceable, characterized in that the lower plunger part (110) rests on a low-friction, rotatable cross bolt (60, 61) of the rocker arm (51) which actuates it, secured against rotation by means of tongue and groove (117 or 118). 2. Device according to claim 1, characterized in that the keyway guide of the upper tappet part (62) in the worm wheel ( 106) consists of a plurality of keyways (101 or 105) distributed over the circumference. Considered publications:
German patents No. 712 446, 874 054,
888 183; Swiss patents No. 246431, 250581. 1 sheet of drawings 909 728/437 1.60