KR101063832B1 - Power switching structure for auto transfer switch - Google Patents

Abstract

The present invention relates to a power switching structure of a power switching switch which is intended to prevent the uninterruptible power supply and the electrostatic power supply from being supplied at the same time by preventing the rotation switching terminal, which should be in the idle state, from being contacted with the fixed terminal by a switching shock.
According to the structure of the conventional power switchgear, the fixed terminal by sliding the other interlocking link to be in the idle state by the switching shock generated when any one interlocking link is switched to contact the fixed terminal. There is a problem that the contact phenomenon occurs in contact with.
The present invention provides a switching structure that can be in contact with the fixed terminal in any one path from one connecting means for transmitting the driving force by the rotational force switching impact due to the contact of the rotation switching terminal and the fixed terminal by a high switching speed In this case, it is possible to prevent the contact phenomenon by preventing other connection paths from occurring, thereby providing a power switching structure of a power switching switch suitable for a driving unit (operating means) that provides a fast switching speed at which a switching shock can occur. To provide.

Description

POWER SWITCHING STRUCTURE FOR AUTO TRANSFER SWITCH}

The present invention relates to a power supply switchgear, and more particularly, the fire and explosion caused by the uninterruptible power supply and the electrostatic power supply at the same time by preventing the contact switching contact with the fixed terminal by the switching shock, etc. The present invention relates to a power switching structure of a power switching switch in order to prevent such an accident.

In case of large-scale workplaces such as hospitals, factories, research institutes, broadcasting stations, etc., where there is a problem when the power supply is cut off, we have a generator to generate emergency power. In order to supply) when a problem occurs in the commercial power supply, a high-pressure closed water switchgear including a power switching switch is installed and operated.

1 is a perspective view of an operation part of a conventional power switching switch, Figure 2 is a view showing a state in which the operation unit and the movable terminal of the conventional power switching switch.

Referring to Figures 1 and 2 will be described the conventional power switching switch as follows.

As shown in the figure, the operation unit 100 of the conventional power switching switch is connected to the movable terminal 400 that is in contact with the commercial, emergency power side fixed terminals (600a) (600b) in the energization unit to switch function It is provided with a switching device for switching between commercial power supply and emergency power supply.

The movable terminal 400 is a commercial power contact 410 and an emergency power contact 410a coupled to the commercial power side and emergency power side body parts 400a and 400b respectively formed separately, and the body parts 400a. A power supply line 420 coupled to one end of both power contacting portions 410 and 410a at the same time, and a load side fixed terminal 700 coupled to the power connection line 420; The commercial power source side and emergency power side body portion (400a) (400b) is composed of a movable terminal support (500) that is coupled and supported by the movable terminal rotary shaft (430).

Here, a current flowing from the commercial power contact 410 or the emergency power contact 410a of the movable terminal 400 through the power connection line 420 is transmitted to the load side fixed terminal 700. .

Meanwhile, in the body parts 400a and 400b, commercial and emergency power contact parts 410 and 410a are opposite to the first connector 300 and the second connector which are connected to the operation part 100 of the power transfer switch. 300a are combined, respectively.

The first and second connectors 300 and 300a are connected to the commercial power side cam 200 and the emergency power side cam 200a coupled to the commercial power side fixed shaft 210 and the emergency power side fixed shaft 210a. The commercial power supply interlock link 120 and the emergency power link interlock 120a that form the operation unit 100 are coupled to the commercial power supply side cam 200 and 200a.

Here, the commercial, emergency power side cam (200, 200a) is coupled to the fixed shaft (210, 210a) and the first, second connector 300, 300a and commercial, emergency power interlocking link (120) ( Drive 120a).

In addition, the commercial, emergency power interlocking links 120, 120a are coupled to the hinge 160 together with the selector 150, the third connector 140 and the fourth connector 130, which will be described later, the main rotary shaft 111 It is driven by the force transmission of the coupled main cam 110.

The third connector 140 is coupled to a separate fixing pin 141, one side is fixed, the other side is coupled to the hinge 160, the rotation, the fourth connector 130 is the main cam 110 ) And hinge 160 is rotated.

The selector 150 selects the commercial power linkage link 120 or the emergency power linkage link 120a by the operation of a solenoid (not shown) configured separately, and the middle of the two power linkage links 120 and 120a. It is fastened to the force transmission pin 121 formed in the portion allows the movable terminal 400 to select a commercial power source, a neutral point or an emergency power source.

Therefore, according to the selected position of the selector 150, the contact state of the movable terminal 400 and the commercial terminal, the emergency power side fixed terminal 600 is any one of the commercial power contact, the neutral point, and the emergency power contact. You can choose.

However, the conventional power switching switch as described above is a long hole formed on one side of the commercial power interlocking link 120 and the emergency power interlocking link (120a) is coupled to the hinge 160, depending on whether the selector 150 is selected The interlocking link of any one of the commercial power interlocking link 120 and the emergency power interlocking link 120a is slidably moved to contact the movable terminal 400 with the fixed terminal 600, thereby switching any one interlocking link. Therefore, the interlocking link which should be in the resting state is slid and moved by the switching shock generated when the movable terminal 400 comes into contact with the fixed terminal 600, thereby causing a contact phenomenon in contact with the fixed terminal 600. There is a problem, and as the above-mentioned haptic phenomenon occurs, there is a very big problem that commercial power and emergency power are supplied at the same time, resulting in a risk of fire and explosion accident due to overvoltage.

Particularly, if the switching speed is slow, problems such as arc generation may occur, and thus, a configuration of an operation unit (driving means) for providing a contact action at a high reaction speed is required. In this case, the switching shock due to the sliding operation of the connection link and the contact of the movable terminal and the contact terminal may be further increased, thereby causing the problem as described above.

The present invention comprises a connection means for the uninterruptible power supply or the electrostatic power supply in accordance with the selection by the selector for selecting the uninterruptible power supply or the electrostatic power supply, and provides a switching structure that can be contacted with the fixed terminal in one path Even if a switching shock occurs due to the contact between the rotation switching terminal and the fixed terminal due to the switching speed, other connection paths do not exist, and thus, the switching switching terminal should be at rest due to a switching shock generated when the rotation switching terminal contacts the fixed terminal. Another rotation switching terminal is to provide a power switching structure of the power switching switch that can prevent the contact phenomenon by preventing contact with the fixed terminal.

Power supply switching structure of the power switch of the present invention,

A rotation switching terminal for contact switching of the uninterruptible power supply terminal or the electrostatic power supply terminal with the load terminal connected to the load; In the power transfer switch comprising a switching means for selectively electrically connected to the uninterruptible power fixed terminal or the electrostatic power fixed terminal by

The switching means,

It consists of a first selector and a second selector having two symmetrical shapes having a structure rotatable and rotatable about a fixed axis, and according to the driving force transmitted from the control link unit and the position at which the driving force is transmitted, A selection link part for driving the rotation switching terminal part by transferring the second selection part to the uninterruptible power supply side cam and the electrostatic power supply side cam for transmitting the driving force to the rotation switching terminal part while being partially separated while rotating about the fixed shaft;

Control link for driving control of the rotation switching terminal unit by selectively transmitting the driving force to the first selection unit or the second selection unit by the driving force transmitted according to the selection switching for supplying the uninterruptible power supply, the neutral point or the electrostatic power supply of the driving unit. Characterized in that it comprises a part.

According to the present invention, in providing a contact path between the rotation switching terminal and the fixed terminal, by providing a power switching path through one control path, even if a switching shock occurs, the other rotation in the contact state of the rotation switching terminal The switching terminal portion cannot be contacted by the switching shock, so that the mixing phenomenon can be completely prevented.

Therefore, when a fast switching speed is required in order to solve problems such as arcing, such a structure is also used to construct a driving unit (manipulation means) that provides a fast switching speed according to an explosive instantaneous force by using the pressing force of the elastic means. Therefore, even if the switching shock is increased, there is no fear of mixing, and thus, the switching selective switching structure applicable to the structure in which the switching shock can be increased can be provided.

1 is a perspective view of an operation unit of a conventional power switch.
Figure 2 is a view showing a state in which the operation unit and the movable terminal of the conventional power switching switch.
Figure 3 is a view showing a power switching structure of the power switch of the present invention.
Figure 4 is an exploded perspective view for showing the structure of the selection link portion in the present invention.
5 to 7 is a view showing the operation of the power switching structure of the power switching switch in the present invention, Figure 5 is a view showing the operating state of the neutral point, Figure 6 shows an uninterruptible power supply state 7 is a diagram illustrating a state of supplying electrostatic power.

Referring to the embodiment shown in Figures 3 to 7 attached to the power switching structure of the power switching device according to the present invention will be described the structure and operation as follows.

A fixed terminal portion comprising an uninterruptible power supply terminal 20a connected to an uninterruptible power supply, an electrostatic power supply terminal 20b connected to an uninterruptible power supply, and a load terminal 30 connected to a load, and electrically connected to the load terminal 30. A rotation switching terminal part 40 including an uninterruptible power supply terminal contact portion 41 and an uninterruptible power supply terminal contact portion 42 electrically connected to the uninterruptible power supply terminal 20a or the electrostatic power supply terminal 20 and electrically connected thereto; Switching means for selectively electrically connecting the rotation switching terminal part 40 to the uninterruptible power supply terminal 20a or the electrostatic power supply terminal 20b;

The switching means includes an uninterruptible power connection link 50 for connecting an uninterruptible power supply of the rotation switching terminal unit 40, an electrostatic power connection link 51 for connecting an electrostatic power source, an uninterruptible power connection link 50, and an electrostatic power connection The uninterruptible power supply side cam 60 and the electrostatic power supply side cam 70 for driving the uninterruptible power connection link 50 and the electrostatic power connection link 51 according to the force transmitted to the link 51 and the uninterruptible power supply side cam ( 60 and a rotational force connected and transmitted to the first connection link 80 and the second connection link 90 and the first connection link 80 and the second connection link 90 which are connected to the electrostatic power supply side cam 70. According to the selection link unit 100 for transmitting to the uninterruptible power supply side cam 60 or the electrostatic power supply side cam 70, and the rotational force transmitted in accordance with the selection for supplying the uninterruptible power supply, the neutral point or the electrostatic power supply of the drive unit 10 It is configured to include a control link unit 200 for transmitting to the selection link unit 100,

The control link unit 200 is connected to the drive unit 10 is rotated about the fixed shaft 212 according to the rotational transmission cam 211 and the rotational force transmitted to the rotational transmission cam 211 for transmitting the rotational force. The first control link 210 and one end is connected to the first control link 210 and the other end is connected to the selection link unit 100 to move forward and backward in the direction of the selection link unit 100 and A second rod including a selection rod 221 connected to the selection switch unit 300 to operate vertically according to the operation of the selection switch unit 300, and a selection bar 222 for coupling to the selection link unit 100. It consists of a structure including a control link (220).

The selection link unit 100 includes two first selection units 110 and symmetrical to form a guide slot for providing a movable path by combining selection bars 222 of the second control link 220. 2 selector 120 is made of a structure coupled to the rotatable structure,

The first selector 110 has a coupling part 114 having a first fixed shaft coupling hole 111 to which the fixed shaft 115 is coupled to engage and rotate the second selector 120, and the uninterruptible power supply side. Guide slots for the selection bar 222 of the second control link 220 through coupling with the first link connection hole 112 and the second selector 120 for connecting with the first connection link 80. It comprises a first guide hole 113 for forming,

The second selection unit 120 is fitted to the coupling portion 114 with the first selection unit 110, the second fixed shaft coupling hole 121 and the second connection link to the electrostatic power supply so that the fixed shaft 115 can be fitted And a second guide hole 123 for forming a guide slot for the selection bar 222 of the second control link 90 and a second link connecting hole 122 for connecting with the 90. .

The present invention is to configure a control link that can be connected to only one side of the contact selection path of the rotation switching terminal to the fixed terminal, to achieve a reliable contact to only one side during operation,

The selection link unit 100 for selecting a contact point of the uninterruptible power supply terminal 20a or the uninterruptible power supply terminal 20b and the rotation switching terminal portion 40 at the neutral point is a selection bar 222 of the second control link 220. The first selection unit 110 and the second selection unit 120, which form two symmetrical shapes, are combined in a rotatable structure so as to form a guide slot for providing a movable path.

That is, the selection bar 222 of the second control link 220 is formed along the first guide hole 113 and the second guide hole 123 formed in the first selection unit 110 and the second selection unit 120. While moving, the first selection unit 110 or the second selection unit 120 is pushed out, and the first selection unit 110 or the second selection unit 120 rotates about the fixed shaft 115 and the counterpart side. It has a structure that opens apart from the selection part.

The control link unit 200 includes a first control link 210 that rotates according to the rotational force transmitted from the rotational transfer cam 211 connected to the driving unit 10, and the front and rear sides of the control link unit 210 according to the rotation of the first control link 210. It consists of a second control link 220 that moves backward, the second control link 220 is moved forward, backward in accordance with the rotation of the first control link 210, the force acting on the selection rod 221. It consists of a structure that moves up and down.

The selection rod 221 is connected to the selection switch unit 300 of the driving unit 10 so that the direction of the force acting on the selection rod 221 varies depending on the operation of the selection switch unit 300 according to a state of forming a contact point. do.

3 illustrates an embodiment of the selection switch unit 300 of the driving unit 10 on one side of FIG. 3.

As shown, the selection rod rotating bar 320 connected to the selection rod 221 is moved up and down in accordance with the selection switch 310, the second control link 220 is moved up and down, and thus the first guide hole The first selector 110 or the second selector 120 may be selected by entering into the 113 or the second guide hole 123.

Here, the selection switch 310 may be configured as a solenoid switch.

Referring to the accompanying drawings of the present invention having such a configuration will be described in detail the operation process as follows.

The driving rotational force of the driving unit 10 is transmitted to the rotation transmission cam 211, the rotation transmission cam 211 transmits its rotational force to the first control link (210).

The first control link 210 is rotated about the fixed shaft 212 by the force transmitted by the rotational transmission cam 211, so that the lower end of the first control link 210, the selection link unit 100 Forward and backward in the direction of.

Accordingly, the second control link 220 connected to the first control link 210 pushes or pulls the selection link unit 100 while moving forward and backward.

At this time, the selection rod rotating bar 320 of the selection switch unit 300 connected to the selection rod 221 of the second control link 220 is moved up and down by the selection switch 310. It moves up and down, and thus the second control link 220 is moved.

Accordingly, the second control link 220 is moved up and down by a force acting on the selection rod 221, and is advanced by the first control link 210, the first selector 110 or the second selector. Will act to push 120.

The selection link unit 100 has a structure in which the first selection unit 110 and the second selection unit 120 are divided by the second control link 220 while rotating about the fixed shaft 115. The first connection link 110, the uninterruptible power supply side cam 60, the uninterruptible power supply link 50 or the second connection link 90, the emergency power supply side cam 70, the electrostatic power supply connection link 51 connected to the position of By operating the rotation switching terminal unit 40 through the uninterruptible power supply terminal 20a or the electrostatic power supply terminal 20b is operated.

That is, the driving unit 10 supplies the rotational driving force for rotating the first control link 210 to the rotational transfer cam 211 according to the uninterruptible power supply, the electrostatic power supply, and maintaining the neutral point, and the selection switch unit 300. In order to act on the selection rod 221 to move the selection rod 221 up and down position, and to move the second control link 220 up and down position to enable the selection of uninterruptible power supply or electrostatic power supply.

FIG. 5 is a view showing a state located at a neutral point, FIG. 6 is a view showing a state in which the rotation switching terminal portion 40 is in contact with the uninterruptible power supply terminal 20a, and FIG. 7 is a view of a rotation switching terminal portion 40 in the electrostatic power supply terminal. The figure which showed the state contacted with 20b.

The operation process will be described with reference to the drawings as follows.

As shown in FIG. 5, in the neutral state, the first control link 210 and the second control link 220 are maintained as they are, and the selection rod pivot bar 320 of the selection switch unit 300 is also centered. In this state, the second control link 220 is positioned at the center of the first selection unit 110 and the second selection unit 120 of the selection link unit 100.

Therefore, the rotation switching terminal portion 40 maintains a neutral state not in contact with any fixed terminal.

When the uninterruptible power is selected to supply the uninterruptible power in this neutral state, the selection rod rotating bar 320 is moved upward by the selector switch 300, and at the same time, the rotation driving force is transmitted to the rotational transfer cam 211. do.

Accordingly, the first control link 210 rotates about the fixed shaft 212 and rotates to the position as shown in FIG. 6.

Therefore, the second control link 220 is moved forward by the first control link 210, and is moved upward by the selection rod rotating bar 320 connected to the selection rod 221 of the selection link unit 100 The selection bar 222 connected to the guide slot moves along the first guide hole 113 of the first selection unit 110 to push out the first selection unit 110.

The first selector 110 is separated from the second selector 120 while rotating about the fixed shaft 115.

Then, as the first selection unit 110 is moved upward, its force is transmitted to the first connection link 80, and the first connection link 80 is driven, and the force is applied to the uninterruptible power supply side cam 60. Is passed.

In addition, the uninterruptible power supply connecting link 50 is pushed by the uninterruptible power supply side cam 60, and the uninterruptible power supply terminal contact portion 41 of the rotation switching terminal part 40 comes into contact with the uninterruptible power supply terminal 20a.

When the electrostatic power is selected, as shown in FIG. 7, the selector switch 310 moves downward, and thus the first control link 210 rotates while the second control link 220 moves downward. As it is moved along the second guide hole 123 of the second selection unit 120 by the force transmitted, the second selection unit 120 is pushed out.

Therefore, the second selector 120 is separated from the first selector 110.

As the second selector 120 is pushed out, the force transmitted from the second control link 220 is transmitted to the second connection link 90, and as described above, the electrostatic power supply side cam 70 and the electrostatic power supply. It is transmitted to the rotation switching terminal 40 through the connecting link 51, the lower side of the rotation switching terminal 40 is advanced, the electrostatic power terminal contact portion 42 is in contact with the electrostatic power terminal 20b.

As such, according to the positional movement of the second control link 220, the first selector 110 and the second selector 120 of the selection link unit 100 are selected to rotate the switching terminal unit 40 in one path. Will be driven.

Claims (3)

Rotation switching terminal for contact switching between the uninterruptible power supply terminal or the electrostatic power supply terminal with the load terminal connected to the load, and driving the rotational switching terminal by transmitting the driving force by the rotational force of the drive unit to the uninterruptible power supply side and the electrostatic power supply side link means In the power transfer switch comprising a switching means for selectively electrically connected to the uninterruptible power fixed terminal or the electrostatic power fixed terminal by
The switching means,
Composed of the first selection unit 110 and the second selection unit 120 having two symmetrical shapes having a structure that can be coupled and rotated around the fixed shaft 115, the driving force transmitted from the control link unit 200 And the first selector 110 or the second selector 120 rotates about the fixed shaft 115 to be partially separated according to the position at which the driving force is transmitted, thereby transmitting the driving force to the rotation switching terminal 40. A selection link unit 100 which is transmitted to the uninterruptible power supply side cam 60 and the electrostatic power supply side cam 70 to drive the rotation switching terminal part 40;
Rotates by selectively transmitting the driving force to the first selection unit 110 or the second selection unit 120 by the driving force transmitted according to the selection switching for supplying the uninterruptible power, the neutral point or the electrostatic power of the driving unit 10. Power supply switching structure of the power supply switchgear characterized in that it comprises a control link unit 200 for driving control of the switching terminal unit (40). According to claim 1, The control link unit 200 is connected to the drive unit 10, the rotational transmission cam 211 for transmitting the rotational force, and the fixed shaft 212 in accordance with the rotational force transmitted to the rotational transmission cam (211) The first control link 210 rotates around the first and the first control link 210, one end is connected to the first control link 210, the other end is connected to the control link unit 200, forward and backward in the direction of the selection link unit 100 The selection bar is connected to the selection switch unit 300 of the driving unit 10 and includes a selection rod 221 to be operated up and down according to the operation of the selection switch unit 300, and a selection bar for coupling to the selection link unit 100. Power switching structure of the power switching switch, characterized in that the structure comprising a second control link (220) comprising a (222). According to claim 1 or claim 2, wherein the selection link unit 100 is formed in a symmetrical shape to form a guide slot for providing a movable path coupled to the selection bar 222 of the second control link 220 The first selection unit 110 and the second selection unit 120 is made of a structure coupled to the rotatable structure,
The first selector 110 and the second selector 120 may include a first connection link 80 connected to the uninterruptible power supply side cam 60 and a second connection link 90 connected to the electrostatic power supply side cam 70. A first guide hole for coupling with the first link connecting hole 112 and the second link connecting hole 122 to form a guide slot for the selection bar 222 of the second control link 90. 113 and the second guide hole 123, and the first fixed shaft coupling hole 111 and the second fixed shaft coupling hole 121 for coupling the fixed shaft 115, respectively, the first selection unit ( 110 or the second selection unit 120, the power switch of the power switching switch, characterized in that for forming a coupling portion 114 for coupling the first selection unit 110 and the second selection unit 120 rescue.

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