JPH054175Y2 - - Google Patents

Description

[Detailed description of the invention] [Industrial application field] This invention relates to a power switching switch, and in particular, it is a device that switches and selects a required power source from multiple power sources to serve the same load. The present invention relates to a power switching switch for supplying electric power.

[Prior Art] FIG. 4 is a basic system diagram showing a conventional general power switching switch. In this Figure 4, 3
A phase (R, S, T) power switch is illustrated, and here, the first switch corresponding to the first system power supply is shown as an example.
The main parts thereof include an input terminal section I ₁ , a second input terminal section I ₂ corresponding to the second power supply system, and a common output terminal section O. Now, taking the R phase as an example, the first input terminal 2 corresponding to the first system power supply and the second input terminal 4 corresponding to the second system power supply have the first and second input terminals, respectively. Fixed side contacts 1 and 3 are provided correspondingly. Correspondingly, first and second movable contacts 5 and 6 are provided, and a common output terminal 7 is connected to a required load (not shown). The power switch configured in this manner is operated by an appropriate operating mechanism 8. Further, an interlock mechanism 9 is provided to ensure the operation described below.
That is, a first opening/closing contact portion consisting of a first stationary contact 1 and a first movable contact 5 on the power supply side of the first system;
Or, the second fixed side contact 3 on the power supply side of the second system
The operating mechanism 8 and the interlock mechanism 9 are operated so that only one of the second opening/closing contact sections consisting of the second movable contact 6 and the second movable contact 6 is brought into a closed state.

FIG. 5, FIG. 6, and FIG. 7 are all schematic configuration diagrams of conventional power switching switches, and illustrate various arrangement relationships of input terminal portions and output terminal portions with respect to the base body.

First, the power switch shown in FIG. 5 has an input terminal on the front surface and an output terminal on the back. arranged on the front side of the rectangular base 10,
The output terminal section 7 on the load side is arranged on the back side of the base body 10. In this example, the first and second
The opening/closing contact portion will be arranged on the surface side of the base body 10.

By the way, assuming that the one in Figure 5 is adopted for mounting on a back-closed panel,
There was a problem in that it became difficult to wire and connect the conductive wire to the output terminal section 7.

Next, the power supply switching switch illustrated in FIG. 6 is of the input terminal surface type-output terminal surface type, and has the first and second input terminals 2 and 4 on the power supply side. are arranged on opposite sides A and B on the surface side of the rectangular base 10, and the output terminal section 7 on the load side
is arranged on either side A or B on the front side of the base 10 (in FIG. 6, side B is selected). In this example, the first and second opening/closing contact parts are also arranged on opposite sides A and B on the surface side of the base body 10.

By the way, if the configuration shown in Fig. 6 were adopted, the input terminal section and the output terminal section would be too close to each other, making it difficult to connect the conductor wires and making it difficult to ensure a sufficient insulation distance. There was a problem that it became difficult.

Finally, the power supply switching switch illustrated in FIG. 7 is of a type in which the input terminal part is on the back side and the output terminal part is on the back side. and all of the output terminal section 7 on the load side,
It is arranged on the back side of the rectangular base 10.

By the way, if the one shown in Fig. 7 is adopted, although it is suitable for a panel with an open back, it is necessary to provide a considerable amount of space when applied to a panel with a closed back. Another problem was that it was difficult to install it and to connect the conductor wires.

[Problem to be solved by the invention] As mentioned above, there are various types of conventional power switching switches, but due to the way the input terminal section and output terminal section are led out, the conductor There were problems in that wiring and connections were difficult, and installation was also difficult.

This invention was made in order to solve the above-mentioned problems, and the purpose is to obtain a power switching switch that allows easy wiring and connection of conductors, as well as easy installation. do.

[Means for Solving the Problems] The power supply switching switch of this invention has: a rectangular base made of an insulating material; a plurality of mutually interlocked switches provided on the surface of the base body, the number of which is the same as the target power supply; A plurality of input terminal portions for power connection led out in a surface connection manner from one end of each of the opening/closing contact portions toward either of the two opposing sides of the base body; Said opening/closing contact portions; All of the other ends of the parts are led out to the back surface side of the base, and the other ends are collectively parallel to the two opposing sides of the base for each phase of the power supply, and each phase is parallel to the two opposing sides of the base. A conductor arranged so as not to overlap when viewed from the back side of the base body and led out to the other side of the base body: and an output terminal of the conductor formed in a surface-connected manner outside the other side of the base body. It consists of ;

[Function] In this invention, the wiring and connection of the conductive wires can be easily done, and the installation thereof is also facilitated.

[Example] Figures 1 to 3 are all schematic configuration diagrams showing a power switching switch that is an example of this invention. First, if we look at Figure 1, it shows that
The two-circuit type power switching switch according to the above embodiment is shown as a side sectional view. Next, referring to Fig. 2, it shows a system diagram of the basic two-circuit power switch in the above embodiment transformed into a four-circuit power switch. ing. Looking at Figure 3, we can see that the two-circuit power switch of the above embodiment is applied by extending the conductor on the load side and forming it on the busbar of the distribution board. It is shown as an operation example diagram. Note that in FIGS. 1 to 3, parts that are the same as or equivalent to those in FIGS. 4 to 7 are given the same symbols. In addition, in FIGS. 2 and 3, three phases (R, S,
T) is illustrated as an example of the power switching switch, and here also, the first input terminal section corresponding to the first system power supply is
I ₁ , second input terminal section corresponding to the second system power supply
I ₂ and a common output terminal section O as its main parts. Now, taking the R phase as an example, the first input terminal 2 corresponding to the first system power supply and the second input terminal 4 corresponding to the second system power supply have the first and second input terminals, respectively. Fixed side contacts 1, 3
are provided accordingly. Corresponding to these, first and second movable contacts 5 and 6 are provided, and a common output terminal 7 is connected to a required load (not shown).

Here, with reference to FIGS. 1 and 2, a basic two-circuit type power switching switch which is an embodiment of this invention will be explained. On the surface of the rectangular base 10 made of a suitable insulating material, there are provided a first opening/closing contact section consisting of a first stationary contact 1 and a first movable contact 5 on the power supply side of the first system, and a second switching contact section. A second opening/closing contact section consisting of a second fixed contact 3 and a second movable contact 6 on the power supply side of the system is provided. The first input terminal 2 from the first fixed contact 1 is led out toward one predetermined side of the base 10, and the second input terminal 4 from the second fixed contact 3 is led out from the opposite side of the base 10. They are led out toward the sides, and are all arranged in a surface-connected manner. Further, the lead-out end portion 11 connected to the first and second movable contacts 5 and 6 corresponding to the first and second fixed contacts 1 and 3 is led out to the back side of the base body 10. A conductor 12 is further connected to this lead-out end 11 . The conductor 12 is arranged parallel to the two sides of the base body 10 from which the first and second input terminals 2 and 4 are led out within the width of the base body 10 for each phase of the power supply, and in a plane. Alternatively, they may be arranged so as not to overlap each other when viewed from both directions of the base body 10. Then, a predetermined one other than the two sides of the base body 10 is
On the outside of the side (third side), an output terminal 7 to a load (not shown) is provided in a surface-connected manner.

As is clear from the above explanation, first,
The second input terminals 2, 4 and the common output terminal 7,
By arranging them individually on the three sides of the base 10, wiring and connection work of the conductive wires to these terminals is extremely facilitated.

Further, the opening and closing operations of the first and second movable contacts 5 and 6 corresponding to the first and second fixed contacts 1 and 3, respectively, are performed by an operating mechanism 8 provided on the same base body 10. . Furthermore, an interlock mechanism 9 is provided to ensure the operation described below. In other words, the first opening/closing contact section consists of the first stationary contact 1 and the first movable contact 5 on the power supply side of the first system, or the second stationary contact 3 on the power supply side of the second system. The second movable side contactor 6
It is operated by the operating mechanism 8 and the interlock mechanism 9 so that only one of the opening/closing contact portions is in a closed state.

Particularly referring to FIG. 2, this figure shows the basic two-circuit power switching switch in the embodiment of this invention transformed into a four-circuit power switching switch. , is shown as a systematic diagram. In this FIG. 2, the following means have been added. In other words, the third power supply corresponding to the third system power supply
a third input terminal 2' in the input terminal section _I3 , and
The fourth input terminal 4' in the fourth input terminal section _I4 corresponding to the power supply of the fourth system has a third input terminal,
Fourth fixed side contacts 1', 3' are provided correspondingly. Corresponding to these, third and fourth movable contacts 5', 6' are provided, and a common output terminal 7 is connected to a required load (not shown). A third opening/closing contact section consisting of a third stationary contact 1' and a third movable contact 5' on the power supply side of the third system, and a fourth stationary contact 3 on the power supply side of the fourth system ' and a fourth movable contact 6' constitute a fourth opening/closing contact portion. Also,
From the third and fourth movable side contacts 5' and 6', the base 1
A conductive wire 12 is extended toward the back side of 0 and connected to a corresponding lead-out end. Furthermore, an interlock mechanism 9 is provided, so that when one required opening/closing contact section is in a closed state, the other three
The opening/closing contact portions are configured to be in an open state.

Next, with particular reference to FIG. 3, there is illustrated a two-circuit type power switching switch in which the conductor on the load side is extended and formed on the bus bar of the distribution board. That is, by extending the conducting wire 12 on the power switching switch side, the conducting wire 12' on the distribution board side is formed.
Then, power can be supplied to each of the plurality of circuit breakers 13 via the branch bus 12'a. In this way, the power supply can be easily connected to the distribution panel, and the space occupied by the overall device can be reduced. Furthermore, in FIG. 3, a distribution board can be added by extending the conductive wire 12 to the opposite side (for example, upward in the figure).

[Effects of the invention] As explained above, the power supply switching switch according to the invention has: a rectangular base made of an insulating material; a number of mutually interlocking switches provided on the surface of the base, the same number as the target power supplies; a plurality of opening/closing contact parts; a plurality of input terminal parts for power connection led out in a surface connection manner from one end of each of the opening/closing contact parts toward either of two opposing sides of the base body; ; All of the other ends of the opening/closing contact portion are led out to the back side of the base, and the other ends are parallel to the two opposing sides of the base for each phase of the power supply, and each A conductor arranged so that the phases do not overlap when viewed from the back side of the base and led out to the other side of the base; and a conductor formed in a surface-connected manner on the outside of the other side of the base. An output terminal of a conductor; each of the power supplies of the plurality of systems is connected to one input terminal of the corresponding switching contact part, and the target load is connected to the other input terminal of the switching contact part. The terminals are connected to the output terminal for each phase, making it easy to wire and connect the conductors to the input and output terminals, and even when the number of power supply systems increases. For example, it is possible to easily connect a power source to a load such as a distribution panel.

[Brief description of the drawings]

1, 2, and 3 are schematic configuration diagrams showing a power switching switch that is an embodiment of this invention, and FIG. 4 is a basic system diagram showing a conventional general power switching switch. FIG. 5, FIG. 6, and FIG. 7 are schematic configuration diagrams of conventional power switching switches. I ₁ is the first input terminal part, I ₂ is the second input terminal part, O
is an output terminal section, 2 is a first input terminal, 4 is a second input terminal, 1 and 3 are first and second fixed side contacts, 5 and 6
1 and 2 are first and second movable side contacts, 8 is an operating mechanism, and 9 is an interlock mechanism.

Claims (1)

[Claims for Utility Model Registration] A rectangular base made of an insulating material; A plurality of mutually interlocked opening/closing contact parts provided on the surface of the base and having the same number as the target power supply; The opening/closing contact parts a plurality of power supply connection input terminal portions led out in a surface-connected manner from one end of each to one of the two opposing sides of the base; the other end of the opening/closing contact portion is all connected to the base; The other end is arranged parallel to the two opposing sides of the base body for each phase of the power supply, and the phases are arranged so that they do not overlap when viewed from the back side of the base body. a conductor led out to the other side of the base; and an output terminal of the conductor formed in a surface connection type outside the other side of the base; A power switching switch configured to switch and select one required power source to supply power to a target load; wherein each of the plurality of power sources is connected to one of the corresponding switching contact parts. A power supply switching switch connected to a terminal part, wherein the target load is connected to an output terminal part in which the other terminal part of the switching contact part is grouped together for each phase of the power supply.