BG111411A - Spring energy accumulator for power stepped switch voltage regulator - Google Patents

Abstract

The spring energy accumulator is applied to making leaps and bounds switch of contact system of power stepped switch voltage regulator. It provides a synchronized action of the movable contacts the contact picker and a system of powerful switch. It has a simple structure with high energy parameters. On the bearing shield (1) is fitted with a frame (2) with guides (3), two sledges (5) and toggle springs (6). There have charging arm (10) with a rolling bearing (8) and switching rocker arms (20) with camp (18) and satellite gear wheel (22). There have charging arm (10) with a rolling bearing (8) and switching rocker arms (20) with camp (18) and satellite gear wheel (22). Both camps (8, 18) are located between the two sledges (5). Satellite gear wheel (22) is associated with differential dental mechanism composed of a rotating glass (25) with internal dental crown (24), Central pinion (26) with the shaft (27), actuating the contact system of commuter systems, hollow shaft (32) with the gear wheel (31). The shaft (32) was incorporated with Maltese wheel (34) and the gear wheel (31) is the coupled with the satellite gear (30), bearing of a stationary axle (29).

Description

(54) SPRING ENERGY BATTERY FOR POWER VOLTAGE REGULATOR POWER SWITCH

FIELD OF THE INVENTION

The invention relates to a power switch of a step voltage regulator, in which the spring energy accumulator is one of the main units. It performs a jump switching of the power switch in two directions.

BACKGROUND OF THE INVENTION

A spring energy accumulator (1) is known, comprising a drive shaft connected by levers and gears with switching springs. Beneath these mechanisms is a gear differential mechanism comprising a central shaft connected to a power switch, a hollow shaft connected to a Maltese gear and a synchronizing housing with internal teeth. The two end positions of the power switch are fixed by a locking mechanism. There is also a turntable shaft connected to a Maltese gear.

The disadvantage of this spring energy accumulator is that it is very complex. Another disadvantage is that it has a small and non-optimized torque, which is not suitable for power switches with high resistance torque, such as those with vacuum arc quenching chambers.

£ Known and spring energy accumulator (2), containing switching springs stretched between two sledges, which move on parallel guides. Between the two sledges there is a roller or rolling bearing connected to a shaft of a power switch and a roller or rolling bearing connected to a loading arm with a rod connected to a drive shaft. The two end positions of the power switch are fixed by a locking mechanism.

The disadvantage of this spring energy accumulator is that it cannot be applied to power switches that require synchronization between the rotation of the shaft driving the contact Q system of the power switch and the Maltese gear driving the movable contacts of the selector.

SUMMARY OF THE INVENTION

The object of the invention is to provide a spring energy accumulator having a simplified construction and a large optimized torque, while synchronizing between the rotation of the contact shaft driving the system and the rotation of the Maltese gear of the movable contacts of the selector.

The problem is solved with a spring energy accumulator for a power switch, comprising a drive shaft connected to a Maltese gear and a selector shaft connected to a reversing fork. There are two sledges moving on guides and connected by switching springs. Between the sledges there is a rolling bearing located on the loading arm and a rolling bearing mounted on a switching rocker, which also has a satellite gear, and a differential gear mechanism is connected. The switching rocker is held in both end positions by a locking mechanism.

According to the invention, a frame with two guides and two slides sliding on them is mounted on a round or other shaped shield. It has a loading arm mounted on a pre-shaft shaft. At the other end of the drive arm there is a rolling bearing or roller located between the two sledges. A charging rod is connected to the charging arm, the other end of which is connected to a gear, which rotates 180 ° in one shift. This gear is engaged is another gear mounted on the drive shaft. The shift rocker has on one side a rolling bearing or pulley located between the two sledges, and on the other side a satellite gear, engaged with an internal ring gear ring and a central gear connected to a shaft that switches the contact system. of the power switch.

The Maltese wheel is mounted on a hollow shaft mounted coaxially on the shift shaft. This shaft has a central gear engaged with a satellite gear mounted on a fixed axis.

The switching rocker is held in both end positions by locking pins with rollers which are functionally connected by cams mounted on the drive arm. The cams can be adjusted and fixed with bolts so that the moment of actuation of the spring energy accumulator can be adjusted.

If greater initial forces are required, additional side springs can be used.

An advantage of the spring energy accumulator according to the invention is that a synchronized action of the Maltese wheel and the switching shaft of the contact system of the power switch with a simple and reliable construction with high energy parameters can be achieved.

EXPLANATION OF THE ATTACHED FIGURES

An exemplary embodiment of the spring energy accumulator according to the invention is shown in the attached figures, of which:

Figure 1 is a longitudinal section through the spring energy accumulator.

Figure 2 is a front view of a spring-loaded battery.

Figure 3 - cross section through the differential gear mechanism.

EXAMPLES OF EMBODIMENT OF THE INVENTION

The spring energy accumulator is mounted on a round support shield (Fig. 1, Fig. 2). On a supporting frame 2 attached to the shield 1, two parallel circular guides 3 are mounted. Two slides 4 and 5 slide on them, between which switching springs 6 are stretched. A rolling bearing is located between the extended sleeve 7 of the slide 4 and the slide 5. 8 (possibly a roller) fastened by means of an axle 9 to a drive arm 10. Note that the mechanism is shown in the middle position. In working position, sleds 4 and 5 are located at one of the end points.

The loading arm 10 has an axis 11 to which is attached one end of a loading rod 12. The other end of the rod 12 is connected to an axis 13 of a gear 14 which rotates 180 ° in one shift. The gear 14 is engaged with a small gear 15 mounted on a drive shaft 16, rotating 360 ° in one shift. The loading arm 10 is mounted at the other end of the shaft 17 of a known pre-selector.

Between the two sledges 4 and 5 under bearing 8 there is a bearing 18, fixed by an axis 19 of a rotating keel 20. On the other side of the rocker 20 is mounted an axle 21, on which is mounted a satellite gear 22 (Fig. 3), fixed to the rocker 20 through a frame 23. The gear 22 is engaged on the one hand to a ring of internal teeth 24 of a rotating cup 25 and on the other hand to a central gear 26 connected to a shaft 27 driving a known contact system of a power switch. The cup 25 is housed in a housing 28 located below the support shield 1 and fixedly connected to it. A fixed shaft 29 is mounted on the housing 28, on which a second satellite wheel 30 is mounted. It is engaged on the one hand with the internal gear 24 and on the other hand with a central gear 31, a component of a hollow shaft 32 mounted in the cup. 25. A flange 33 for a known insulating cylinder and a Maltese wheel 34 are attached to the hollow shaft 32, by means of which the individual steps are positioned. The Maltese wheel 34 is actuated by a drive shaft 35 through the fork 36. The selector shaft 17 is inverted by the fork 37 in a known manner by the Maltese wheel 34.

The end positions of the spring energy accumulator are fixed by a locking mechanism consisting of two symmetrically located locking pins 38 connected to a spring 39. In the end positions the locking pins 38 are released from the two cams 40 mounted on the drive arm 10 which act on the rollers 41. The position of the cams 40 can be adjusted and fixed by the bolts 42, thus changing the release moment of the switching springs 6. In some cases it is necessary to provide a greater initial force. This is done by the side springs 43, one of which is fixed to the frame 2 and the other to the cup 44.

The operation of the spring energy accumulator is as follows: From a mechanism not shown, the shaft 16 with the gear 15 is rotated 360 ° for one change and through the fork 36 the Maltese wheel 34 is moved in one step. The hollow shaft 32 is rotated at the same angle, with the gear 26 rotating the cup 25 in the opposite direction via the satellite gear 30. At the same time, the shaft 27 rotates in the same direction and at the same angle as the Maltese gear. wheel 34. In this case, the rocker 20 is locked by the locking mechanism in one of the two end positions, and the rod 12 moves the drive arm 10, the bearing 8 and one of the slides 4 or 5. The switching springs 6 are tensioned. At a predetermined number of revolutions, the locking mechanism releases the locking slide and the power switch is switched abruptly.

Claims (4)

1. .Spring energy accumulator for power switch of step voltage regulator, comprising a drive shaft connected to a Maltese gear, a pre-selector shaft connected to a reversing fork, two sledges moving on guides and connected to switching springs, retaining arm , located between the sledges, a rocking bearing with a rolling bearing, also located between the sledges and connected to a gear differential mechanism, the switching rocker being held in one of the two end positions by a locking mechanism characterized in that on a round or other bearing shield (1) is mounted frame (2) with two guides (3) and two sledges (4,5), between which there is a rolling bearing or roller (8) on the loading arm (10) and a rolling bearing or roller (18) on switching rocker (20), the charging arm (10) is mounted on the shaft (17) of the pre-selector and is connected to a charging rod (12), controlled by a gear (14), driven by the drive shaft (16) and performing 180 ° rotation in one shift, and the shift rocker (20) has a satellite gear (22) engaged on one side with the inner ring gear (24) of a rotating comb (25) and on the other side with a central gear 26) on a shaft (27) switching the contact system of the power switch. A spring energy accumulator according to claim 1, characterized in that the Maltese wheel (24) is mounted on a hollow shaft (32) coaxially mounted on the shaft (27) and having a central gear (31) engaged with a satellite gear. wheel (30) mounted on a fixed axle (29). Spring energy accumulator according to claims 1 and 2, characterized in that the switching rocker (20) is held in the end positions by locking pins (38) with rollers (41) which are functionally connected to cams (40), mounted on the charging arm (10), the cams (40) being able to be adjusted and fixed with bolts (42) so that the moment of actuation of the spring energy accumulator can be adjusted. Spring energy accumulator according to claims 1, 2 and 3, characterized in that additional side springs (43) can be used if higher starting forces are required.