KR102267007B1 - Dc switch - Google Patents

Abstract

Disclosed is a direct current switch. The direct current switch according to an embodiment of the present invention comprises: a first switch part; a second switch part which connects one side of the first switch part and one pole of a direct current power source in series, or disconnects the same; a third switch part which connects the other side of the first switch part and a load in series or disconnects the same; a capacitor which is installed to form a parallel circuit with the first switch part; and a control part which operates the first to third switch parts together by a user's operation, connects the first switch part later than the second and third switch parts when the power source is connected, and separates the first switch part before the second and third switch parts when the power source is disconnected. Therefore, the present invention is capable of allowing direct current to be opened/closed without generating an arc.

Description

DC switch {DC SWITCH}

The present invention relates to a DC switch that opens and closes a DC power supply without generating an arc.

Recently, as digital products and lighting using direct current are rapidly increasing, and distributed power generation technologies in the form of direct current such as new and renewable energy generation are spreading, interest in direct current distribution is increasing.

However, in DC power, unlike AC power, since current continuously flows at a constant level, an arc may occur between the contacts of the switch when the current is cut off. Since the arc generated when the switch is opened and closed involves high heat, it can cause burnout of contacts or conductors and carbonization of insulating materials. Therefore, there is a problem in that it is difficult to use a conventional contact-type switch to open/close a DC power supply.

One aspect of the present invention is to provide a DC switch capable of opening and closing a DC power supply without generating an arc.

According to an aspect of the present invention, a first switch unit; a second switch unit for connecting or disconnecting one side of the first switch unit and one pole of the DC power supply in series; a third switch unit for connecting or disconnecting the load from the other side of the first switch unit in series; a capacitor installed to form a parallel circuit with the first switch unit; and the first to third switch units are operated together by a user's operation, and when power is connected, the first switch unit is connected later than the second and third switch units, and when power is disconnected, the first switch unit is connected to the first switch unit. A direct current switch comprising a; a manipulation unit to be separated before the second and third switch units may be provided.

The first switch unit includes a first fixed terminal, a first movable terminal that is in contact with or separated from the first fixed terminal, and a first support terminal for supporting the first movable terminal in a seesaw motion manner, and the second switch unit includes a second A fixed terminal, a second movable terminal that is in contact with or separated from the second fixed terminal, and a second support terminal for supporting the second movable terminal in a seesaw motion manner, wherein the third switch unit includes a third fixed terminal and a third fixed terminal It may include a third movable terminal that is in contact with or separated from the third movable terminal, and a third support terminal that supports the seesaw movement of the third movable terminal.

The manipulation unit may operate the first to third movable terminals by a rotation operation to contact or separate the first to third fixed terminals.

The manipulation unit elastically presses the support positions of the first to third movable terminals, respectively, and moves beyond the support positions of the first to third movable terminals to operate the first to third movable terminals. It may include a pressurizing part.

The plurality of pressing parts may operate together when the operation unit rotates, and the supporting positions of the first movable terminals may be spaced apart from the supporting positions of the second and third movable terminals in a direction in which the plurality of pressing parts move.

The distance L1 between the supporting position of the first movable terminal and the movable terminal may be longer than the distance L2 between the supporting position of the second and third movable terminals and the movable terminal.

The side of the first movable terminal in contact with the first fixed terminal is bent and extended in a direction spaced apart from the first fixed terminal, and the side of the second and third movable terminals in contact with the second and third fixed terminals is the side of the first movable terminal. It may be bent and extended in a direction adjacent to the second and third fixed terminals.

The first to third movable terminals may be bent and extended in opposite directions opposite to the side in contact with the first to third fixed terminals.

The first to third switch units may be installed to be spaced apart from each other in the direction of the rotation axis of the manipulation unit inside the insulating case.

The manipulation unit includes a handle rotatably coupled to the insulating case; a plurality of extension parts respectively extending from the inside of the handle part toward the supporting positions of the first to third movable terminals and supporting each of the pressing parts to move forward and backward; and a spring installed in each of the plurality of extensions and pressing each of the pressing units.

The first to third movable terminals each include rotation limiting parts extending from both sides of the support position to both sides of the respective extension parts, and each of the extension parts operably receiving each of the rotation limiting parts while limiting the operation range. It may include a groove.

The first to third switch units may be electronic switches whose opening/closing timing is controlled by a control device.

According to another aspect of the present invention, a first switch unit; a second switch unit for connecting or disconnecting one side of the first switch unit and one pole of the DC power supply in series; a third switch unit for connecting or disconnecting the load connected to the other side of the first switch unit and the other pole of the DC power supply in series; a capacitor installed to form a parallel circuit with the first switch unit; and the first to third switch units are operated together by a user's operation, and when power is connected, the first switch unit is connected later than the second and third switch units, and when power is disconnected, the first switch unit is connected to the first switch unit. A direct current switch comprising a; a manipulation unit to be separated before the second and third switch units may be provided.

The DC switch according to the embodiment of the present invention can smoothly open and close the DC power supply without generating an arc because the opening and closing timing of the first switch unit and the opening and closing timing of the second and third switch units can be different even when the operation unit is operated identically .

In the DC switch according to an embodiment of the present invention, the first switch unit is connected later than the second and third switch units in a way that the supporting position of the first movable terminal and the supporting position of the second and third movable terminals are different, and the second An operation in which the first switch unit is separated before the second and third switch units may be implemented. Therefore, it is possible to simplify the configuration of the DC switch and implement the time difference opening and closing of the first switch unit and the second and third switch units only by the user operating the operation unit.

1 is a perspective view of a DC switch according to an embodiment of the present invention.
2 is a cutaway perspective view showing the internal configuration of a DC switch according to an embodiment of the present invention.
3 is a schematic circuit diagram of a DC switch according to an embodiment of the present invention.
4 is an operation timing diagram of a DC switch according to an embodiment of the present invention.
5 is an exploded perspective view of a DC switch according to an embodiment of the present invention.
6 is a cross-sectional view taken along the line VI-VI' of FIG. 2 .
7 is a cross-sectional view taken along line VII-VII' of FIG. 2 .
FIG. 8 is a cross-sectional view taken along line VIII-VIII' of FIG. 2 .
9 shows the operation of the switch units when the power supply of the DC switch is connected according to an embodiment of the present invention.
10 shows the operation of each switch unit when the DC switch is disconnected from the connected state in the power supply according to the embodiment of the present invention.
11 shows a state in which each switch unit of the DC switch according to an embodiment of the present invention is completely separated.
12 is a perspective view illustrating a coupling relationship between a second movable terminal and an extension of a DC switch according to an embodiment of the present invention.
13 shows a modified example of a DC switch circuit according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The following examples are presented in order to sufficiently convey the spirit of the present invention to those of ordinary skill in the art to which the present invention pertains. The present invention is not limited to the embodiments presented herein and may be embodied in other forms. The drawings may omit the illustration of parts irrelevant to the description in order to clarify the present invention, and may slightly exaggerate the size of the components to help understanding.

1 and 2 , the DC switch 100 according to an embodiment of the present invention includes an insulating case 110 , first to third switch units 120 , 130 , 140 installed in the insulating case 110 , and an insulating case 110 . ) is rotatably connected to and includes a manipulation unit 160 for operating the first to third switch units 120, 130, and 140 to connect or disconnect DC power.

The direct current switch 100 may be installed on a wall of a building in a state in which a part of the operation unit 160 is exposed, and the first to third switch units 120, 130, 140 that are opened and closed in a contact type are connected to a load (lights or home appliances, etc.) It can open and close the connected DC power supply. Here, the first to third switch units 120 , 130 , and 140 are mechanical switches that are opened and closed in a contact type, but the shapes of the first to third switch units 120 , 130 and 140 are not limited thereto. The first to third switch units 120 , 130 , and 140 may be electronic switches whose respective opening/closing timings are controlled by a control device.

Referring to FIGS. 2 and 5 , the insulating case 110 includes a first case 111 accommodating the first to third switch parts 120 , 130 , 140 spaced apart therein, and a first case 111 covering the first case 111 . Two cases 112 may be included.

The manipulation unit 160 is rotatably coupled to the front surface of the second case 112 and rotates to both sides within a limited range by the user's manipulation of the handle unit 161 and the second case 112 from the inside of the handle unit 161 . It includes a plurality of extension parts 162 extending through the first to third switch parts 120, 130, 140 toward the position. The first to third switch units 120 , 130 , and 140 are installed to be spaced apart from each other in the direction of the rotation axis of the handle unit 161 in the insulating case 110 . 1 and 5, reference numeral 101 denotes a cover member mounted on a wall surface or the like.

The DC switch 100 may open and close the first to third switch units 120 , 130 , and 140 while the plurality of extension units 162 rotate when the user rotates the handle 161 of the manipulation unit 160 . That is, the first to third switch units 120 , 130 , and 140 can be opened and closed with one operation.

The first switch unit 120 serves as a main switch for opening and closing DC power, and may be located in the center of the insulating case 110 . The second switch unit 130 and the third switch unit 140 are respectively disposed on both sides of the first switch unit 120 and are connected to the first switch unit 120 in series with the auxiliary switches for opening and closing DC power, respectively. can play a role

3 is a schematic circuit diagram of the DC switch 100 . Referring to FIG. 3 , the first switch unit 120 is connected in series with the second switch unit 130 and the third switch unit 140 disposed on both sides, respectively. The second switch unit 130 is connected in series to the positive electrode of the DC power source 104 , and the third switch unit 140 is connected in series with the load 105 such as a lamp connected to the negative electrode of the DC power source 104 . . In addition, the DC switch 100 includes a capacitor 107 installed to form a parallel circuit with the first switch unit 120 .

In the DC switch 100 , the first to third switch units 120 , 130 , and 140 operate together when the user operates the manipulation unit 160 . However, when the power is connected, the first switch unit 120 is connected later than the second and third switch units 130 and 140, and when the power is disconnected, the first switch unit 120 is connected to the second and third switch units. It separates before (130,140).

As shown in FIG. 4 , when power is connected, the first switch unit 120 is connected later with a time difference after the second and third switch units 130 and 140 are connected. When the power is disconnected, the first switch unit 120 is first disconnected, and the second and third switch units 130 and 140 are separated later with a time difference.

Referring to FIG. 3 , in the DC switch 100 , the capacitor 107 is charged when the second and third switch units 130 and 140 are first connected when power is connected. And when the first switch unit 120 is connected later in a state in which the capacitor 107 is charged, the load current flowing through the first switch unit 120 decreases. Therefore, it is possible to prevent an arc from occurring at the contact point of the first switch unit 120 when the power is connected.

When the power is disconnected, the first switch unit 120 is first disconnected while the second and third switch units 130 and 140 are connected. In this case, the load current flowing through the first switch unit 120 flows to the capacitor 107 , and the load current flowing through the first switch unit 120 is reduced. Accordingly, it is possible to prevent an arc from occurring at the contact point of the first switch unit 120 when the power is disconnected. In addition, since the second switch unit 130 and the third switch unit 140 are separated when the capacitor 107 is in a charged state, an arc is generated even when the second switch unit 130 and the third switch unit 140 are separated. can be prevented

As such, in the DC switch 100 of this embodiment, since the first switch unit 120 and the second and third switch units 130 and 140 are opened and closed with a time difference, it is possible to smoothly open and close the DC power supply without generating an arc.

Next, detailed configurations of the first to third switch units 120 , 130 , 140 and the manipulation unit 160 that enable the above operations will be described with reference to FIGS. 2 and 5 to 8 .

5 and 6, the first switch unit 120 has a first fixed terminal 121 provided with a fixed contact 121a on one side, and a movable contact 122a that is in contact with or separated from the first fixed terminal 121. ) having a first movable terminal 122, and a first support terminal 123 having a support portion 123a for supporting an approximately middle portion of the first movable terminal 122 in a seesaw motion possible.

Referring to FIG. 6 , the first fixed terminal 121 is fixed to one side of the first case 111 , and the first support terminal 123 is the first case 111 opposite the first fixed terminal 121 . fixed on the other side. The first movable terminal 122 is accommodated in a groove provided between the first fixed terminal 121 and the first support terminal 123 to be seesaw movement. The support portion 123a for supporting the first movable terminal 122 is provided integrally with a portion bent and extended inwardly of the groove from the first support terminal 123 .

The first switch unit 120 may connect or disconnect power by the movable contact 122a being in contact with or separated from the fixed contact 121a by the seesaw movement of the first movable terminal 122 .

As shown in FIGS. 5 and 7, the second switch unit 130 includes a second fixed terminal 131 provided with a fixed contact 131a, and a movable contact 132a that is in contact with or separated from the second fixed terminal 131. ) having a second movable terminal 132, and a second support terminal 133 having a support portion 133a for supporting the second movable terminal 132 in a seesaw motion possible.

As shown in FIGS. 5 and 8, the third switch unit 140 includes a third fixed terminal 141 provided with a fixed contact 141a, and a movable contact 142a that is in contact with or separated from the third fixed terminal 141. ) having a third movable terminal 142, and a third support terminal 143 having a support portion 143a for supporting the third movable terminal 142 in a seesaw motion possible.

Most of the configuration of the second switch unit 130 and the third switch unit 140 is similar to that of the first switch unit 120 except that the installation location is different. The opening/closing timing is different from that of the first switch unit 120 .

As shown in FIG. 2, the manipulation unit 160 makes the first to third movable terminals 122, 132, and 142 seesaw motion by rotating the handle 161 to contact or contact the first to third fixed terminals 121, 131, and 141. can be separated.

The manipulation unit 160 includes a plurality of pressing parts 163a, 163b, and 163c, each of which is accommodated in a forward and backward manner in a plurality of extension parts 162 extending toward the supporting positions of the first to third movable terminals 122, 132, and 142, and a plurality of extensions It includes a plurality of springs (164a, 164b, 164c) for pressing each pressing portion (163a, 163b, 163c) in the state accommodated in the portion 162, respectively. Accordingly, the plurality of pressing parts 163 may elastically press the opposite side of the support positions of the first to third movable terminals 122 , 132 , and 142 . Here, the support position is a portion in which the first to third movable terminals 122, 132, and 142 are supported by the support portions 123a, 133a, and 143a, respectively.

The operation unit 160 moves to both sides beyond the support position of the first to third movable terminals 122, 132, and 142 while rotating the plurality of pressing portions 163a, 163b, and 163c together by the rotation operation of the handle portion 161. The first to third movable terminals 122 , 132 , and 142 can be opened and closed by the seesaw movement of the first to third switch units 120 , 130 , and 140 .

6 and 9, in the DC switch 100, the position of the support part 123a for supporting the first movable terminal 122 of the first switch part 120 is that of the second and third movable terminals 132 and 142. A set distance d is spaced apart from the support portions 133a and 143a in the direction in which the plurality of pressing portions 163 move. That is, the support portions 133a and 143a of the second and third movable terminals 132 and 142 are located on the same line, and the support portion 123a of the first movable terminal 122 is the support portion of the second and third movable terminals 132 and 142 ( 133a, 143a) to the opposite side of the movable contact point (122a) can be arranged by moving a set distance (d). With this configuration, the distance L1 between the support position of the first movable terminal 122 and the movable terminal 122a is the support position of the first and third movable terminals 132 and 142 and their movable terminals 132a and 142a. It may be provided longer than the distance L2 between them.

As shown in FIG. 9, the DC switch 100 includes pressing parts 163b and 163c for pressing the second and third movable terminals 132 and 142 when the operation unit 160 is operated for connection of power. Since the first movable terminal 122 moves in the opposite direction beyond the support position before the pressing part 163a for pressing the first movable terminal 122, the movable contacts 132a and 142a of the second and third movable terminals 132 and 142 are connected to the second and third fixed terminals. (131a, 141a) is connected first, the movable contact (122a) of the first movable terminal (122) is connected to the first fixed terminal (121a) later.

As shown in FIGS. 10 and 11 , the DC switch 100 has a pressing unit 163a that presses the first movable terminal 122 as opposed to the case of FIG. 9 when the operating unit 160 is operated to disconnect power. ) moves in the opposite direction beyond the support position before the pressing parts 163b and 163c for pressing the second and third movable terminals 132 and 142, so the movable contact 122a of the first movable terminal 122 is the first fixed terminal ( 121 is first separated from the fixed contact 121a, and the movable contacts 132a and 142a of the second and third movable terminals 132 and 142 are separated from the second and third fixed terminals 131a and 141a later.

As such, in the DC switch 100 of this embodiment, the first switch unit 120 is the second and second in a manner that the support position of the first movable terminal 122 and the support position of the second and third movable terminals 132 and 142 are different. An operation in which the third switch unit 130 and 140 is connected later, and the first switch unit 120 is separated before the second and third switch units 130 and 140 can be easily implemented. That is, it is possible to implement the time difference opening and closing of the first switch unit 120 and the second and third switch units 130 and 140 only by the user operating the manipulation unit 160 .

9 and 10 , the first movable terminal 122 has a side in contact with the first fixed terminal 121a is bent and extended in a direction spaced apart from the first fixed terminal 121a, and the second and third movable terminals are movable. The terminals 132 and 142 may be bent and extended in a direction in which a side in contact with the second and third fixed terminals 131a and 141a approaches the second and third fixed terminals 131a and 141a. In this way, even if the manipulation unit 160 is operated in the same manner, the time difference between the opening and closing of the first switch unit 120 and the opening and closing of the second and third switch units 130 and 140 may become more clear.

The first to third movable terminals 122 , 132 , and 142 may extend oppositely to the side (fixed contacts) in contact with the first to third fixed terminals 121 , 131 and 141 by bending in opposite directions. In this way, since both sides of the first to third movable terminals 122 , 132 , and 142 are balanced based on the supporting position, the operation of the first to third movable terminals 122 , 132 , and 142 can be smooth.

Referring to FIG. 11 , the second movable terminal 132 includes a rotation limiting part 132b extending from both sides of the supporting position to both sides of the extended part 162 of the manipulation unit 160 , and the extended part 162 is rotated. It includes a support groove 166 for limiting the operating range of the seesaw movement while operably receiving the limiting portion (132b). The installation structure of the first movable terminal 122 and the third movable terminal 142 is the same. As such, since the first to third movable terminals 122, 132, and 142 maintain a state in which the rotation limiting portions 132b enter the support grooves 166, the operation range at the time of opening and closing can be accurately maintained, it can be prevented

13 shows a modified example of the DC switch 200 circuit. The DC switch 200 of FIG. 13 has the same mechanical configuration as the above-described example, such as the manipulation unit 160 and the first to third switch units 120, 130, and 140, but with a different circuit connection. In the DC switch 200 of FIG. 13 , the first to third switch units 120 , 130 , and 140 may be mechanical switches or electronic switches.

The DC switch 200 of FIG. 13 includes a first switch unit 120, a second switch unit 130 for connecting or disconnecting one side of the first switch unit 120 and the positive pole of the DC power source 104 in series, and a second The load 106 connected to the other side of the first switch unit 120 and the third switch unit 140 for connecting or disconnecting the negative pole of the DC power source 104 in series, and the first switch unit 120 are installed to form a parallel circuit. A capacitor 107 is included.

The manipulation unit 160 operates the first to third switch units 120 , 130 , 140 together by the user's manipulation like the aforementioned embodiment, and when the power is connected, the first switch unit 120 operates the second and third switch units. It is connected later than (130, 140) and allows the first switch unit 120 to be disconnected before the second and third switch units 130 and 140 when the power is disconnected.

As such, since the DC switch 200 of FIG. 13 also opens and closes the first switch unit 120 and the second and third switch units 130 and 140 with a time difference, it is possible to smoothly open and close the DC power supply without generating an arc. In addition, in the DC switch 200, the load such as a light bulb can be completely insulated from the DC power source 104 in a state in which the first to third switch units 120, 130, and 140 are all separated. The maintenance of (106) can be safely performed.

100: DC switch, 104: DC power,
105,106: load, 107: capacitor,
110: insulating case, 120: first switch unit,
121: a first fixed terminal, 122: a first movable terminal,
123: a first support terminal, 130: a second switch unit,
131: a second fixed terminal, 132: a second movable terminal,
133: second support terminal, 140: third switch unit,
141: a third fixed terminal, 142: a third movable terminal,
143: a third support terminal, 160: an operation unit,
161: handle part, 162: extension part,
163a, 163b, 163c: pressing parts.

Claims (11)

a first switch unit;
a second switch unit for connecting or disconnecting one side of the first switch unit and one pole of the DC power supply in series;
a third switch unit for connecting or disconnecting the load from the other side of the first switch unit in series;
a capacitor installed to form a parallel circuit with the first switch unit; and
The first to third switch units are operated together by a user's operation, and when power is connected, the second and third switch units are first connected and the first switch unit is further connected later in a state in which the connection is maintained, and a manipulation unit for allowing the first switch unit to be separated first, and the second and third switch units to be further separated later in a state in which the separation is maintained.
The first switch unit includes a first fixed terminal, a first movable terminal that is in contact with or separated from the first fixed terminal, and a first support terminal for supporting the first movable terminal in a seesaw motion,
The second switch unit includes a second fixed terminal, a second movable terminal that is in contact with or separated from the second fixed terminal, and a second support terminal for supporting the second movable terminal in a seesaw motion manner,
The third switch unit includes a third fixed terminal, a third movable terminal that is in contact with or separated from the third fixed terminal, and a third support terminal for supporting the third movable terminal in a seesaw motion,
The operation unit,
The handle part rotates to both sides by the user's operation; and
The first to third support terminals are elastically pressed toward the support positions of the first to third movable terminals supported by the first to third support terminals, and the first to third movable terminals are moved to both sides beyond the support positions by the rotation operation of the handle. Including; a plurality of pressing parts for operating the three movable terminals together,
When the plurality of pressing parts move to one side beyond the support position, the first to third movable terminals contact the first to third fixed terminals, and when moving to the other side beyond the support position, the first to third Separating the movable terminal to the first to third fixed terminals,
The support positions of the second and third movable terminals supported by the second and third support terminals are located on the same line in the direction of the rotation axis of the handle,
The support position of the first movable terminal supported by the first support terminal is a contact between the first to third movable terminals and the first to third fixed terminals from the support positions of the second and third movable terminals. spaced apart in the direction in which the pressing part moves,
The distance L1 between the supporting position of the first movable terminal and one end of the first movable terminal in contact with the first fixed terminal is the distance L1 between the supporting positions of the second and third movable terminals and the second and third fixed terminals. A DC switch provided longer than a distance (L2) between one ends of the second and third movable terminals in contact with the terminals. delete delete delete delete According to claim 1,
The first movable terminal is bent and extended in a direction that the side in contact with the first fixed terminal is spaced apart from the first fixed terminal,
The second and third movable terminals are a DC switch in which a side in contact with the second and third fixed terminals is bent and extended in a direction adjacent to the second and third fixed terminals. 7. The method of claim 6,
The first to third movable terminals are direct current switches in which opposite sides of the side in contact with the first to third fixed terminals are bent and extended in opposite directions. According to claim 1,
The first to third switch parts are installed to be spaced apart from each other in the direction of the rotation axis of the operation part inside the insulating case,
The operation unit,
a handle portion rotatably coupled to the insulating case;
a plurality of extension portions respectively extending from the inside of the handle portion toward the supporting positions of the first to third movable terminals and supporting the respective pressing portions so as to move forward and backward; and
A DC switch comprising a; a spring installed in each of the plurality of extensions to press the respective pressing parts. 9. The method of claim 8,
The first to third movable terminals each include a rotation limiting portion extending from both sides of the support position to both sides of the respective extensions,
A DC switch including a support groove for limiting an operating range while operably accommodating each of the respective extensions of the respective rotation limiters. delete a first switch unit;
a second switch unit for connecting or disconnecting one side of the first switch unit and one pole of the DC power supply in series;
a third switch unit for connecting or disconnecting the load connected to the other side of the first switch unit and the other pole of the DC power supply in series;
a capacitor installed to form a parallel circuit with the first switch unit; and
The first to third switch units are operated together by a user's operation, and when power is connected, the second and third switch units are first connected and the first switch unit is further connected later in a state in which the connection is maintained, and a manipulation unit for allowing the first switch unit to be separated first, and the second and third switch units to be further separated later in a state in which the separation is maintained.
The first switch unit includes a first fixed terminal, a first movable terminal that is in contact with or separated from the first fixed terminal, and a first support terminal for supporting the first movable terminal in a seesaw motion,
The second switch unit includes a second fixed terminal, a second movable terminal that is in contact with or separated from the second fixed terminal, and a second support terminal for supporting the second movable terminal in a seesaw motion manner,
The third switch unit includes a third fixed terminal, a third movable terminal that is in contact with or separated from the third fixed terminal, and a third support terminal for supporting the third movable terminal in a seesaw motion,
The operation unit,
The handle part rotates to both sides by the user's operation; and
The first to third movable terminals supported by the first to third support terminals are elastically pressed toward the support positions, and the first to third movable terminals are moved to both sides by the rotational operation of the handle, crossing the support positions. Including; a plurality of pressing parts for operating the three movable terminals together,
When the plurality of pressing parts move to one side beyond the support position, the first to third movable terminals contact the first to third fixed terminals, and when moving to the other side beyond the support position, the first to third Separating the movable terminal to the first to third fixed terminals,
The support positions of the second and third movable terminals supported by the second and third support terminals are located on the same line in the direction of the rotation axis of the handle,
The support position of the first movable terminal supported by the first support terminal is a contact between the first to third movable terminals and the first to third fixed terminals from the support positions of the second and third movable terminals. spaced apart in the direction in which the pressing part moves,
The distance L1 between the supporting position of the first movable terminal and one end of the first movable terminal in contact with the first fixed terminal is the distance L1 between the supporting positions of the second and third movable terminals and the second and third fixed terminals. A DC switch provided to be longer than a distance (L2) between one ends of the second and third movable terminals in contact with the terminals.

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