KR100273508B1 - Power transfer switch - Google Patents

Abstract

The present invention provides the movable contactors 17a and 17b to supply normal power to the commercial power supply terminal 40 and supply emergency power to the emergency power supply terminal 41 to supply current to the load-side terminal 42. In the power switch for operating the power supply, the operating iron core 16 is moved into the coil by the excitation of the input coil 14, the operation lever integrally formed on the operation shaft 30 by the movement of the movable iron core 16 13 is rotated by the moving distance of the movable iron core 16 while being pulled about the operation shaft 30, and assembled by a pin at the end of the operation lever 13 when the operation lever 13 is rotated while being pulled. When the connecting lever 12 is lowered and the connecting lever 12 is lowered, the upper selector roller 11 is located at the lowest point of the center along the V-shaped guide groove 10, and the selector rollers 11 are a pair. The control levers 24a and 24b to the lowest point of the center of the V-shaped guide groove 10, and the pair of control levers 24a and 24b. When the control rollers 24a and 24b are rotated inward, respectively, when the roller is lowered to the lowest point in the center by the switching roller 11, both the movable contacts 17a and 17b respectively connected to the control shaft are separated from the load-side stationary contactors 18. When the power is not supplied to all of the switching state [OFF], and when the switching state is completed within one minute, the movable iron core 16 is pulled out of the input coil 14 by the elastic force of the compression spring 15, and the operation lever ( 13 is a circular recovery around the operating shaft 30, the connecting lever 12 assembled at the end of the operating lever 13 by the pin moves to the upper side, at this time, the control lever A (31) and the control lever B The switching roller 11 moves to the right or left side of the V-shaped guide groove 10 by the 32. When the switching roller 11 moves to the right of the V-shaped guide groove 10, the left control lever 24a is moved. ) Moves to the upper side so that the control shaft 19a rotates, and the control shaft 19a When the connected movable contactor 17a is connected to the load-side stationary contactor 18, the commercial power is connected to the load side, and the input coil 14 is excited again and the movable iron core 16 moves into the input coil 14, and the above operation is performed. Repeating to make a state in which both power is not supplied [OFF], when the switching state is finished within one minute, the switching roller 11 is moved to the left of the V-shaped guide groove 10 and the control lever on the right ( 24b moves upward, the control shaft 19b rotates, the movable contact 17b connected to the control shaft 19b is connected to the load side fixed contact 18, and emergency power is connected to the load side.

Description

Power switch

The present invention relates to a power switching switch for alternately connecting two different power supplies, such as a normal power supply and an emergency power supply, to the load side. More specifically, the present invention can switch between the two power sources (A, B) alternately, it is possible to switch only from the A power supply state to the B power supply or from the B power supply state to the A power supply, the electrical circuit and the mechanism inside The present invention relates to a power switching switch that can maintain both power supplies (A, B) in an OFF state within a time period of less than one minute by means of a mechanical auxiliary stop device.

Power switchgear for connecting two different power sources such as commercial power source and emergency power source or star connection power source and delta connection power source to the load side is developed and used according to its capacity and application.

Korean Utility Model Publication No. 87-1383 discloses a power switching switch comprising an operating lever, a control shaft, a movable contactor, a point plate and a latch. In addition, the present applicant has developed a more improved power switching switch than the invention of the utility model has been filed as a patent application No. 96-32363 (August 2, 1996).

The conventional power supply switching switch is directly connected without a constant stop time when switching the commercial power supply and the emergency power supply. Such a connection supplies power to the load facility when the power to be connected is not stabilized, and as a result, an unstabilized current is supplied to the load facility. Especially when the load facility is sensitive, the supply of unstable currents has a number of adverse effects on the load facility.

The present inventors can alternately switch between two power sources, such as commercial power supply and emergency power supply, for the purpose of supplementing the disadvantages of the conventional power switching switch as described above, and a minute by a mechanical auxiliary stop device installed in the electrical circuit and the mechanism. Within a time period, preferably, about 30 seconds, a power supply switching switchgear capable of switching off both power sources has been developed.

SUMMARY OF THE INVENTION An object of the present invention is to provide a power switching switch that can alternatively connect two different power sources such as a commercial power source and an emergency power source to the load side, and can switch both power sources.

It is another object of the present invention to switch between two different power sources and to alternately connect them to the load side, by switching between the two power sources within one minute by means of an electrical circuit and a mechanical auxiliary stop installed in the instrument. It is to provide a power switching switch that can be.

The above and other objects of the present invention can be achieved by the present invention described in detail.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a view showing a driving mechanism for the power switching operation of the power switching switch according to the present invention.

2 is a diagram showing the mechanism of the pair of control levers 24a and 24b, the pair of limit switches 35a and 35b, and the intermediate switching plate of the power switching switch according to the present invention.

3 is a schematic plan view of a power switching switch according to the present invention.

4 is a diagram showing the mechanism of the movable contactors 17a and 17b and the load-side stationary contactor 18.

5 is a control circuit diagram of a power switching switch according to the present invention.

Brief description of the main symbols in the drawings

10: V-shaped guide groove 11: switching roller

12: Lever 13: Control lever

14: Input coil 15: Compression spring

16: moving core 24: control lever

25: intermediate switching plate 26: guide pin

27: limit switch pusher 28: limit switch

30: operating axis 31: selection lever A

32: Selection lever B 35: Limit switch

37: torsion spring B 40: commercial power supply terminal

41: emergency power terminal 42: load side terminal

The present invention provides the movable contactors 17a and 17b to supply normal power to the commercial power supply terminal 40 and supply emergency power to the emergency power supply terminal 41 to supply current to the load terminal 42. In the power switch for operating the power supply, the operating iron core 16 is moved into the coil by the excitation of the input coil 14, the operation lever integrally formed on the operation shaft 30 by the movement of the movable iron core 16 13 is rotated by the moving distance of the movable iron core 16 while being pulled about the operation shaft 30, and assembled by a pin at the end of the operation lever 13 when the operation lever 13 is rotated while being pulled. When the connecting lever 12 is lowered and the connecting lever 12 is lowered, the upper selector roller 11 is located at the lowest point of the center along the V-shaped guide groove 10, and the selector rollers 11 are a pair. Of control levers 24a and 24b are pulled down to the lowest point of the center of the V-shaped guide groove 10, and a pair of control levers 24a and 24b are provided. As the control shafts 24a and 24b rotate inwards, respectively, when the rollers 11 descend to the lowest point in the center, the movable contacts 17a and 17b respectively connected to the control shafts are separated from the load side dynamic contactors 18 so that the two power sources When all of these parts are switched to the OFF state and the switching state is completed within one minute, the movable iron core 16 is pulled out of the feeding coil 14 by the elastic force of the compression spring 15, and the operation lever 13 ) Is restored to the center around the operating shaft 30, the connecting lever 12 assembled to the end of the operating lever 13 by the pin moves to the upper side, at this time, the control lever A (31) and the control lever B ( 32) the changeover roller 11 moves to the right or left side of the V-shaped guide groove 10. When the changeover roller 11 moves to the right side of the V-shaped guide groove 10, the left control lever 24a is moved. Moves upward and the control shaft 19a rotates, and the control shaft 19a When the connected movable contactor 17a is connected to the load-side stationary contactor 18, the commercial power is connected to the load side, and the input coil 14 is excited again and the movable iron core 16 moves into the input coil 14, and the above operation is performed. Repeating to make a state in which both power is not supplied [OFF], when the switching state is finished within one minute, the switching roller 11 is moved to the left of the V-shaped guide groove 10 and the control lever on the right ( 24b moves upward, the control shaft 19b rotates, the movable contact 17b connected to the control shaft 19b is connected to the load side fixed contact 18, and emergency power is connected to the load side.

Switching switch according to the present invention is composed of the operating mechanism (1) and the control mechanism (A) 2, the control mechanism (B) 3 and control mechanism (C) 4, the charger mechanism (5), the control circuit (6). The operating mechanism 1, the control mechanism A 2, the control mechanism B 3, the control mechanism C 4, and the charger mechanism 5 are divided into three parts by partition walls 20 and 22, respectively. 1 is a view showing a driving mechanism for the power switching operation of the power switching switch according to the present invention.

As shown in FIG. 1, in the operating mechanism part 1, the operating lever 13 is supported by the operating shaft 30 which rotates between the first partition wall 20 and the frame 29 in the middle portion thereof. It is rotatably attached by the movable iron core 16, and the operating lever 13 is momentarily rotatable by the compression spring 15 between the operating lever 13 and the input coil 14, and the compression spring 15 The link force is interlocked by the axial force of) to finally maintain the pressure point force between the load-side fixed contact 18 and the movable contact 17a, 17b. The compression spring 15 is compressed when the movable core 16 is attracted to the input coil 14 and is restored when the input coil 14 is flushed to return the movable core 16 and the operating lever 13.

FIG. 2 is a diagram showing the mechanism of a pair of control levers 24a and 24b, a pair of limit switches 35a and 35b and an intermediate switching plate 25 of a power switching switch according to the present invention, and FIG. A schematic plan view of a transfer switch.

The connecting lever 12 is connected to the operating lever 13 so that the switching roller 11 at the upper end of the connecting lever 12 guides the V-shape at the center of the first partition wall 20 by the rotational movement of the operating lever 13. Move along the groove 10. When the operating lever 13 rotates toward the input coil 14, the switching roller 11 moves to the lowermost end of the V-shaped guide groove 10 by the connecting lever 12 connected to the operating lever 13.

The switching roller 11 moves freely along the V-shaped guide groove 10 of the first partition wall 20 and penetrates through the first partition wall 20 to protrude into the control mechanism B 3 and the control mechanism C portion 4. And move in conjunction with the control levers 24a and 24b of the control mechanism B section 3.

The selection lever A 31 and the selection lever B 32 positioned at the upper portion of the V-shaped guide groove 10 of the first partition wall 20 are rotated by the circular groove 9 located at the top of the V-shaped guide groove 10. The angle is controlled and is interlocked with the torsion spring A 21 mounted on the upper left side of the first bulkhead 20 to rotate by a predetermined angle and always closes one direction of the V-shaped guide groove 10 so that the switching roller 11 Limit the movement of in one direction. The torsion spring A 21 mounted on the upper left side of the first partition 20 exerts a force when closing one direction of the V-shaped guide groove 10 by the axial force.

When the operating lever 13 rotates to the input coil 14 side, the selection lever B 32 is pushed down along the V-shaped guide groove 10 and descends to the bottom of the V-shaped, but is switched by the torsion spring A 21. After 11) has passed, the upper side of the previously inserted V-shaped guide groove 10 is closed by the control lever B 32 so that it cannot be re-inserted again, and the switching roller 11 is again V-shaped guide groove ( When moving along 10), the control lever B 32 serves as an auxiliary guide so that the switching roller 11 moves only in one direction of the V-shaped guide groove 10.

And when the switching roller 11 moves in the opposite direction of the V-shaped guide groove 10, the switching roller 11 is pushed up while pushing the lower end of the selection lever A (31) and linked with the selection lever A (31) At the moment when the torsional top dead center of the torsion spring A 21 is exceeded, the selection lever A 31 and the selection lever B 32 are rotated in the opposite directions to the previous directions, and are mounted on the selection lever B 32 and the first partition 20 The selection lever B pin 34 penetrating through the circular groove 9 of) is blocked at the end of the circular groove 9 so that the selection lever A 31 and the selection lever B 32 stop the rotation and the torsion spring A ( It is stopped under the power of torsional axis of 21).

The control shafts 19a and 19b for controlling the movable contactors 17a and 17b connecting the pulsating contactor 18 on the load side and the A or B side power supply in the charger port 5 and the control levers 24a and fixed thereto. 24b is alternately rotated by a switching roller 11 which protrudes from the charging mechanism part 5 to the control mechanism B 3 and the control mechanism C portion 4 and moves along the V-shaped guide groove 10. While supplying power to A and B.

4 is a diagram showing the mechanism of the movable contactors 17a and 17b and the load-side stationary contactor 18, and FIG. 5 is a control circuit diagram of the power switching switch. The operation of this switching switch will be described together with the control circuit diagram of FIG.

When the A power supply is turned on, the switch starts with the B power supply turned on. That is, when the power supply to the B power supply is supplied from the A power supply. When the operating voltage is first applied to the A power supply when the A power supply is turned on, the M1b and the M1 of the limit switches 35a and 35b mounted on the center left side of the rear of the first partition wall and the white mounted at the center of the operating mechanism frame 29 The operating power is applied to the input coil 14 through the switch 28 Hb, and the movable iron core 16 is sucked in, so that the operating lever 13 rotates to the input coil 14 side and is connected to the operating lever 13. And the switching roller 11 at the upper end thereof move to the lowermost end of the V-shaped guide groove 10, and both powers are turned off by the control shafts 19a and 19b linked thereto.

As the operation lever 13 starts to rotate toward the input coil 14, the operating power is not immediately applied to the input coil 14 from the white limit switch 28 Hb, but bypasses the timers and resistors of T1 and T2 to the input coil ( After 14) is excited, the minimum operating voltage that can be maintained while the fixed iron core 36 and the movable iron core 16 are attached is maintained.

At this time, the intermediate switching plate 25, which is mounted at the center of the second partition wall 22 and whose rotation angle is limited by the stop pin 23 at the bottom, in order to continuously apply the operation power, is located at the upper center of the rear surface of the first partition wall 20. The limit switches 35a and 35b are pressed to keep the connection of M1b and M1 by the torsion spring B 37 located.

Next, the timer of T1 and T2 keeps both powers OFF within 1 minute according to the user's optional preference. After that time, the timer circuit is disconnected, so that the excitation of the injection coil 14 is burnt and the shaft force of the compression spring 15 is removed. By this, the operation lever 13 rotates rapidly in the direction opposite to the input coil 14.

At this time, the switching roller 11 moves along the V-shaped guide groove 10 and pushes the intermediate switching plate 25 and the limit switches 35a and 35b open as the intermediate switching plate 25 moves, and thus the operation power is cut off. Lose.

When the switching roller 11 pushes up the intermediate switching plate 25 and passes through the top dead center of the torsion spring B 37, the intermediate switching plate 25 linked thereto is opposed by the torsional axis of the torsion spring B 37. Direction is rapidly rotated and stopped by the stop pin 23 at the lowermost end of the second partition wall 22. This makes it ready for the B power supply.

In order to input to any one of A and B power sources, first, the switching roller 11 and the connecting lever 12 moving along the V-shaped guide groove 10 while being turned on to one of A and B power sources are used as a medium. Linked to the operation lever 13 is rotated and the compression spring 15 is installed between the operating lever 13 and the input coil 14 is connected to the movable iron core 16 in the coil, the input coil 14 When this excitation is performed, the operation spring 13 is rotated in the direction of the input coil 14, and the compression spring 15 is compressed. At this time, the movable contacts 17a and 17b of the A and B power supply and the load side fixed contactor are charged at the charger port 5. The control rollers 19a and 19b and the switching roller 11 interlocked with the operation lever 13, which acts as a closing and tripping function between the 18 and the lower part of the V-shape along the V-shaped guide groove 10, are turned off. In accordance with the user's needs, both the electrical power supply and the control mechanism A portion 2 can be maintained in the OFF state within one minute.

When the switching roller 11 descends to the lower end of the V-shaped guide groove 10 for the temporary power-off function of both power supplies, a force is applied to the torsion spring of the torsion spring A 21 mounted on the upper center of the first partition wall 20, and the In the second partition 22, the intermediate switching plate 25, which is controlled by the stop pin 23 at the lower center and interlocked with the control levers 24a and 24b, controls the control circuit 6 to continuously supply the operation power. In the operating mechanism 1, the limit switch 28 on the control circuit 6 is opened by the linear movement of the limit switch pusher 27 by the guide pin 26 of the operating lever 13, and the input coil ( After the excitation of 14), the operating iron core 16 performs a temporary stop function by bypassing the operating voltage so as to maintain a minimum operating voltage that can be maintained in a fully input state.

Then, when the user's selective time passes, the operation voltage is cut off and the operation lever 13 is rotated and returned by the storage energy of the compression spring 15, and at the same time, the switching roller 11 follows the V-shaped guide groove 10. The A or B power supply side input movable contactors 17a and 17b are fed to the load side fixed contact 18 by the control levers 24a and 24b and the control shafts 19a and 19b which are raised by the switching roller 11.

At this time, the selection of the two power source A, B is applied to the opening and closing of one of the V-shaped guide groove 10 by the control lever (24a, 24b) interlocked with the torsion spring A (21), so that the switching roller 11 is only one place Control to move only.

At the same time, the limit switch pusher 27 is returned by the guide pin 26 attached to the operation lever 13 with the return of the operation lever 13 and is ready for the next input.

It is an object of the present invention that two different power sources, such as a commercial power supply and an emergency power supply, can be connected to the load side alternatively, and when the two different power sources are switched and alternatively connected to the load side, an electrical circuit and a mechanical installed inside the apparatus The auxiliary stop device has the effect of the invention to provide a power switching switch that can switch both power supplies within a minute.

Simple modifications or changes of the present invention can be easily carried out by those skilled in the art, and all such modifications or changes can be seen to be included in the scope of the present invention.

Claims (4)

In the power switching switch for operating the movable contactor (17a, 17b) to supply the commercial power to the commercial power supply terminal 40, supply the emergency power to the emergency power supply terminal 41 to supply current to the load-side terminal 42, A movable iron core 16 which is moved into the coil by the excitation of the input coil 14 and is extended to the operation lever 13 and connected; An operating lever 13 connected to the movable iron core 16 and connected to an end thereof with a connecting lever 12 and rotating around the operating shaft 30 by a moving distance of the movable iron core 16; A connection lever 12 connected to an end of the operation lever 13 and having a switching roller 11 integrally assembled at the other end thereof; A switching roller 11 moving along the V-shaped guide groove 10; A compression spring (15) for returning the operating lever (13); A selection lever A 31 and a selection lever B 32 for guiding the switching roller 11 to the V-shaped guide groove 10; A pair of control levers 24a and 24b for moving up and down according to the movement of the switching roller 11 and being fixed to the pair of control shafts 19a and 19b to rotate by shanghai distance of the control shafts 19a and 19b; An intermediate switching plate 25 for operating the pair of limit switches 35a and 35b; And A pair of movable contactors (17a, 17b) coupled to the extended shafts of the control shafts (19a, 19b) and repeating connection with the load side dynamic contactor (18) by rotation of the control shaft; Power switching switch, characterized in that consisting of. The limit switch (28) according to claim 1, further comprising a limit switch (28) which is opened by the linear movement of the limit switch pusher (27) by the guide pin (26) of the operating lever (13). Power change over switch. According to claim 1, wherein the switching roller 11 is pushed up the intermediate switching plate 25 while passing through the top dead center of the torsion spring B 37, the intermediate switching plate 25 is linked to the torsion spring B (37) Power supply switching switch characterized in that the rapid rotation in the opposite direction by the torsional axial force of the stop by the stop pin (23) at the bottom of the second bulkhead (22). According to claim 1, When the operating voltage is applied by the commercial power supply to the center of the frame 29 and M _1b and M ₁ of the limit switches (35a, 35b) mounted on the center left side of the rear of the first partition wall (20) The operating power is applied to the input coil 14 through the supplied limit switch 28 Hb and the movable iron core 16 is sucked in, so that the operating lever 13 rotates to the input coil 14 side and is connected to the operating lever 13. (12) and the switching roller 11 of the upper end is moved to the lowermost end of the V-shaped guide groove 10, the power supply characterized in that both the power supply is switched [OFF] by the control shaft (19a, 19b) linked thereto Switching switchgear.