JPH08331712A - Movable type distribution board - Google Patents

Abstract

PURPOSE: To provide a movable type distribution board in which a power supply having plural kinds of rated voltages can be used by dividing a voltage from one main power supply and at the same time a distribution board main body can be freely moved to an optimal operation place. CONSTITUTION: A distribution board main body is moved by a caster to an optimal operation place in which there is at least one main power supply, and when the plug of a power cord from a main power supply is plugged in the plug-in part of an input-side outlet 21 and at the same time a circuit breaker 31 is brought into an open state, a pilot lamp 41 is turned on and a power supply voltage (200V) is inputted to the input terminal 71a of a transformer 71. The inputted voltage is transformed into plural kinds of predetermined rated voltages (100V, 400V) by the transformer 71, and the transformed power is fed from each output terminals 71b... to outlets 22, 23, 24 by way of an output-side circuit 90.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mobile distribution board,
In particular, the present invention relates to a mobile type distribution board in which a main power supply can be used for power distribution and a power supply having a plurality of types of rated voltages can be used, and the distribution board body can be moved to an optimum work place.

[0002]

2. Description of the Related Art A method of using a distribution board is known as a method of distributing power from a main power supply to obtain power. Then, in the distribution board, as a conventional method for taking a power source of a plurality of types of rated voltage, there is, for example, one as shown in FIG. That is, this is, for example, 100V, 200V, 4
If 00V power supply is required for work at the same time, 10
Connect the main power source of 0V, 200V, 400V to the input side of the distribution board 1 by separate power cords 2a, 2b, 2c,
Power is supplied from the outlets 100a, 200V, and 400V of the power distribution output side, which are 100V, 200V, and 400V, respectively.

[0003]

However, in such a distribution board, when the main power source of 100V, 200V, and 400V is not near the work place, it is necessary to replenish the power source with an extension cord. Yes, it becomes complicated. In addition, in some cases, the work place must be moved to a place where all the main power sources are located, so that there is a problem that the optimum work place cannot be selected. Therefore, the present invention has been made in view of the above-mentioned conventional problems, and it is possible to use a power source having a plurality of types of rated voltages by distributing power from one main power source and to freely move to an optimum work place. The purpose is to provide a distribution board.

[0004]

Therefore, the invention according to claim 1 includes at least one input side plug insertion portion and a plurality of output side plug insertion portions in the distribution board body, Transforming means for transforming the input voltage inputted from the input side electric circuit into a plurality of predetermined rated voltages, one end connected to each output terminal of the transforming means, and the other end connected to the output side plug insertion part. It is configured to include an output side circuit and a moving unit that is provided at the bottom of the distribution board body and configured to move the distribution board body.

Further, the transforming means may be constituted by a transformer. The moving means may be a caster. Further, each output side circuit for each rated voltage may be branched into a plurality of circuits. Further, the invention according to claim 5 is further provided with a current interruption means in the output side circuit, and when the overcurrent flows to the output side by the current interruption means, the output side circuit is interrupted and the output side circuit is turned off. It is configured to prevent current from flowing.

[0006]

According to this structure, in the invention according to claim 1, after the main body of the distribution board is moved to the most suitable working place where at least one main power source is provided by the moving means (for example, the caster), the main power source is removed from the main power source. When the plug of the power cord is inserted into the input side plug insertion portion, power is input to the input terminal of the transformer (for example, a transformer), and the transformer transforms it into a plurality of predetermined rated voltages. Then, the transformed electric power is supplied from each output terminal through the output side circuit.

According to this, since it is possible to use a power source having a plurality of types of rated voltage by dividing the power from one main power source, there is no need to separately obtain power from a plurality of power sources as in the conventional case.
However, it is possible to carry out work by moving the distribution board body to an optimum work place.

According to the invention of claim 5, the current cutoff means provided in each output side circuit cuts off the output side circuit when an overcurrent flows to the output side. According to this, it is possible to prevent an overcurrent from flowing to the output side.

[0009]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings. First, FIGS. 1 to 4 are views showing an external configuration of a movable distribution board 10 according to the present invention. FIG. 1 is a front view of the movable distribution board 10, and FIG. Rear view, Figure 3
Is a right side view and FIG. 4 is a sectional view taken along line AA of FIG. In the figure, a distribution board main body 11 is formed of a sheet metal into a box shape, and a panel for mounting various devices, that is, a front panel 12 and a rear panel 1 on a front portion and a rear portion.
Equipped with 3.

At the lower part of the front panel 12, a plurality of outlets 21, 22 ... Having a plug insertion portion are arranged side by side. In the figure, the outlet 21 is an input side outlet for 200V input. Yes, outlets 22, 22,
Reference numeral 22 denotes an output side outlet for 100V output. In the middle part of the front panel 12, the circuit breaker 31 of the input side circuit and the earth leakage circuit breakers 32, 3 of the output side circuit as current interrupting means.
2 and 32 are provided, and the earth leakage breaker 32 cuts off the circuit when an overcurrent exceeding the rating flows in the output side circuit.

In addition, indicator lights 41, 42, 42, 42 are provided above the circuit breakers 31, 32, respectively. In the indicator light 41, a power cord from the main power source is connected to the input side outlet 21. The circuit breaker 31 is turned on (displayed in red) in the open state. In addition, the indicator lights 41, 42,
When the output side circuit, which will be described later, is turned on (displayed in white), an overcurrent flows through the output side circuit 42, 42, and when the leakage breakers 32, 32, 32 interrupt the output side circuit, the output side circuit is closed. It's turned off. Front panel 12
AC voltmeter 51, AC ammeters 52, 5
2, 52 are provided, and the voltmeter 51 measures and displays the input voltage on the input side, and the ammeter 52 measures and displays the current flowing through each output side circuit. In addition, 61, ... are nameplates of each device.

Next, in the lower portion of the rear panel 13, a plurality of outlets 23, 23, 2 having plug insertion portions are provided.
4, 24 are arranged side by side, and in the figure, an outlet 23,
Reference numeral 23 is an output side outlet for 200V output, and outlets 24 and 24 are output side outlets for 400V output. The middle part of the rear panel 13 is provided with an earth leakage breaker 32, ... Of the output side circuit, and the earth leakage breaker 32 interrupts the circuit when an overcurrent exceeding the rating flows in each output side circuit. It is supposed to do.

Indicator lights 42, ... Are provided above the earth leakage breakers 32 ,.
2, ... Lights up (white display) when the output side circuit is in the open state, and an overcurrent flows in the output side circuit, causing an earth leakage breaker 32,
When the output side circuit is cut off by 32 and 32 and the closed state is established, the light is turned off. An alternating current ammeter 52, ... Is provided in the upper part of the rear panel 13, and the ammeter 5
2, the current flowing through each output side circuit is measured and displayed.

As shown in FIG. 3, an opening / closing door 14 used for inspection and repair is provided on the side surface of the distribution board body 11. In addition, 15 shows a handle. Distribution board body 11
A transformer 71 serving as a transformer is installed inside a U-shaped mounting plate 72. The transformer 71 transforms the input voltage (200 V) input from the input side outlet 21. (Step down to 100V, 400
It is designed to boost to V). Casters 16, ... As moving means are provided on the bottom surface of the distribution board main body 11 so that the distribution board main body 11 can be moved to a predetermined position. Reference numeral 17 is a lock member for stopping the rotation of the casters 16 and fixing the distribution board body 11 at a fixed position.

Next, the operation of the movable type distribution board according to the present invention will be described with reference to the circuit diagram of FIG. In the figure, the circuit diagram shows the input side circuit 80 connected to the input side terminal 71a of the transformer 71 and the output side terminal 7 of each rated voltage of the transformer 71.
1b ... is connected to the output side circuit 90, and the output side circuit 90 of each rated voltage is branched into a plurality.

First, the caster 16 is used to form the main body 1 of the distribution board.
Move 1 to an optimal work location with at least one mains supply. Then, when the plug of the power cord is inserted from the main power source into the plug insertion portion of the input side outlet 21 and the circuit breaker 31 is opened, the indicator light 41 is turned on, and the power supply voltage (200
V) is input. The input voltage is transformed into a predetermined rated voltage of a plurality of types (100V, 400V) by the transformer 71, and the transformed electric power is passed from each output terminal 71b ... 24
More power.

As described above, since it is possible to use a power source having a plurality of types of rated voltage by distributing power from one main power source, there is no need to separately supply power from a plurality of power sources as in the conventional case, and the caster is still possible. The distribution board main body 11 can be moved to an optimum work place by 16 to perform work.

Further, the earth leakage breakers 32, ... Provided in the respective output side circuits 90 .. It is possible to prevent overcurrent from flowing.

In the above embodiment, the input voltage is set to 200.
Although it is set to V, it is not limited to this, and it is 100V.
Alternatively, it may be 400V. However, input voltage is 200V
In this case, the size (weight) of the transformer can be reduced to about 1/2 and weight reduction can be achieved as compared with the case where the input voltage is 100V.

[0020]

As described above, according to the first aspect of the present invention, the transformer means for transforming the input voltage inputted from the input side electric circuit into plural kinds of predetermined rated voltage, and one end of the transformer means. An output side circuit connected to each output terminal and having the other end connected to the output side plug insertion portion, and a moving means provided at the bottom of the distribution board body and configured to move the distribution board body. Since it has been equipped, it is possible to use a power supply with multiple types of rated voltage by dividing the power supply from one main power supply. It is possible to work by moving the distribution board body to the work place.

According to the fifth aspect of the invention, the output side circuit is provided with the current cutoff means for shutting off the output side circuit when the overcurrent flows to the output side. Therefore, the overcurrent flows to the output side. Can be prevented.

[Brief description of drawings]

FIG. 1 is a front view showing a mobile distribution board according to the present invention.

FIG. 2 is a rear view of FIG.

FIG. 3 is a right side view of FIG.

FIG. 4 is a sectional view taken along line AA of FIG.

FIG. 5 is a circuit diagram of a mobile type distribution board according to the present invention.

FIG. 6 is a schematic view showing a conventional distribution board.

[Explanation of symbols]

 10 Mobile distribution board 11 Distribution board main body 12 Front panel 13 Rear panel 14 Opening door 15 Handle 16 Caster 17 Lock member 21 Input side outlet 22, 23, 24 Output side outlet 31 Circuit breaker 32 Earth leakage breaker 41, 42 Display Light 51 AC voltmeter 52 AC ammeter 61 Name plate 71 Transformer 71a Input side terminal 71b Output side terminal 72 Mounting plate 80 Input side circuit 90 Output side circuit

Claims (5)

[Claims] 1. The distribution board main body is provided with at least one input side plug insertion section and a plurality of output side plug insertion sections, and the input voltage input from the input side electric circuit is provided with a plurality of predetermined ratings. A transformation means for transforming to a voltage, an output side circuit having one end connected to each output terminal of the transformation means and the other end connected to the output side plug insertion portion, and provided on the bottom of the distribution board body, A moving type distribution board, comprising: a moving means configured to move the distribution board body, and a moving means. 2. The mobile distribution board according to claim 1, wherein the transformer means comprises a transformer. 3. The movable type distribution board according to claim 1, wherein the moving means is a caster. 4. The output side circuit for each of the rated voltages is branched into a plurality of parts.
The mobile distribution board according to any one of 1. 5. Each of the output side circuits is provided with a current cutoff means, and the current cutoff means cuts off the output side circuit when an overcurrent flows to the output side to prevent the overcurrent from flowing to the output side. The moving type distribution board according to any one of claims 1 to 4.