JPH0467725A - Power supply - Google Patents

Abstract

PURPOSE:To take out doubled power without increasing the capacity of individual power supply plug by connecting the other power line of a first plug and one power line of a second plug, on the input side of a relay, with a relay drive coil. CONSTITUTION:On the output side of relays 4, 5, one power line 6 of a first plug 2 is connected with one power line 7 of a second plug whereas the other power line 8 of the first plug is connected with the other power line 9 of the second plug. When the first and second plugs 2, 3 are connected, respectively, with power supply plugs l, 11 with normal polarities, a voltage is applied on a relay drive coil 10 to close the relays 4, 5. Consequently, the power supply plugs l, 11 are connected in parallel thus increasing the capacity of output line 12.

Description

[Detailed Description of the Invention] [Field of Industrial Application] The present invention relates to a power supply device, and particularly to a power supply device that receives power from a commercial power source, such as a power supply device suitable as a power source for an electro-tension joint. Regarding.

[Conventional technology]

Generally, when receiving power from a commercial power supply, it is done by inserting a plug into a power supply tap (outlet), but in this case, the power consumption of the device receiving power must be smaller than the capacity of the power supply plug. There is a need. If excessive current flows, the fuses installed in each power tap will blow, ensuring safety.

[Problem to be solved by the invention]

By the way, since this power supply is only made from one power supply plug, there is a problem in that the capacity of the outlet is the upper limit of the power, and there are restrictions on the devices that can be connected. To solve this problem, it would be possible to increase the capacity by modifying the power supply tap.C) Remodeling work is required, which increases the cost.

The present invention has been made in view of the above-mentioned problems, and a technical object thereof is to provide a power supply device that can connect large-capacity electrical equipment without increasing the capacity of a single outlet.

[Means to solve the problem]

In order to solve the above-mentioned technical problem, the present invention has the following configuration.
and a second plug, and a first plug connected to this plug, respectively.
and a second relay, on the output side of the relay, one power line of the first plug is connected to one power line of the second plug, and the other power line of the first plug is connected to one power line of the second plug. The other power line of the first plug and one power line of the second plug are connected to the other power line, and the other power line of the first plug and the second power line are connected to each other on the input side of the relay. One power line of the plug is connected to the relay drive coil to create a power supply device [Operation] When the first and second plugs are connected to the plurality of power supply taps with the correct polarity, current flows to the relay drive coil. The power supply tap and the output side of the relay are electrically connected. Therefore, the output side has twice the capacity of a single power supply tap.

In addition, since the relay drive coil is connected to the other power line of the first plug and one power line of the second plug on the input side of the relay, the first and second plugs 2
．． Unless both of 3 are connected with the correct polarity, the relay will not turn on.

Therefore, there is no risk of a short-circuit accident occurring, and
The relay will not operate if only one power supply tap is connected, which prevents the fuse from blowing out due to accidental use of the device.

Furthermore, it is safe because even if one plug is connected, no voltage is generated in the unconnected plug.

〔Example〕

An embodiment of the present invention will be described based on FIG.

The power supply plugs 1 and 11 have a 100V commercial AC source, and first and second plugs 2 and 3 can be detachably connected to the power supply plugs 1 and 11.

The first plug 2 has one power line 6 and the other power line #
j8 is connected, and the second plug 3 is connected to
One power line 7 and the other power line 9 are connected, respectively.

The one power line 6 and the other power line 8 are connected to the first relay 4
Connected to the input side of one power line 7 and the other power line 9
is connected to the input side of the second relay 5. These relays 4 and 5 are opened and closed in conjunction with each other by a relay drive coil 10, and their contacts are closed only when current flows through the relay drive coil 10.

The other power line 8 of the first plug 2 and the one power line 7 of the second plug 3 on the input side of the relay 4.5.
is connected to the relay drive coil 10.

On the output side of this relay 4.5, one power line 6 of the first plug 2 is connected to one power line 7 of the second plug, and the other power line 8 of the first plug is connected to the second power line 7.
is connected to the other power line 9 of the plug. and,
The other power line 8 of the first plug 2 and one power line 7 of the second plug serve as an output line 12.

In the example, this power supply device was used as a power source for an electro-tension joint. An electro-tension joint is a synthetic resin pipe joint that has been developed in recent years and is used for water and sewage pipes, gas pipes, etc. First, a joint with a coil inside is prepared, synthetic resin tubes are inserted into the joint from both sides, and then the coil is energized to weld the joint and each synthetic resin tube.

The current required to heat the coil is approximately 25 A1 for a pipe with a nominal diameter of 150 mm and approximately 30 A for a nominal diameter of 200 mm, but the capacity of a typical outlet is 100 V.
It is ISA.

Here, the first and second plugs 2.3 are connected to the power supply tap 1.
, 11 with the correct polarity, voltage is applied to the relay drive coil 10 and the relay 4.5 is closed.

Then, the power supply plugs 1.11 are connected in parallel, and the capacity of the output line 12 is 100 V 30 A! :
ft, ko (100V30A+ to D output line 12
7) When the heating plug of the electro-tension joint was connected, complete welding was achieved within the specified time.In addition, this device can of course be applied to a variety of power sources, including a 4m commercial AC power source, a DC power source, and a high voltage power source. In Although,
The power supply plugs 1.11 connected to this device must be powered by power lines branched from the same transformer, with the same voltage and phase. Also, when using it as a DC power source, it is necessary to pay attention to the voltage and ground potential.

In this way, unless both the first and second plugs 2.3 are connected with the correct polarity, the relay will not turn on and there is no risk of overloading the power supply plug 1.11. In addition, since the relay 4 does not operate when only one of the first and second plugs 2.3 is connected, no voltage is generated in the unconnected plug, and there is no risk of electric shock. . Moreover, the first and second plugs 2.3
When connected in reverse, the circuit is disconnected, so there is no danger of short circuits and it is safe.

In the embodiment, two plugs were used to obtain twice the capacity, but it is also possible to use n plugs to obtain n times the capacity. In that case, an AND circuit may be provided to detect the polarity of each power supply tap, and each relay may be closed on the condition that all the polarities are aligned.

〔Effect of the invention〕

According to the present invention, twice the power can be extracted without increasing the capacity of each power supply tap. Also,
The relay will not turn on unless both the first and second plugs 2.3 are connected with the correct polarity.

Furthermore, since the relay 4 does not operate when only one of the first and second plugs 2.3 is connected, the output terminal 11
No voltage will be generated.

Therefore, it is extremely safe and can be implemented at low cost.

[Brief explanation of drawings]

FIG. 1 is a circuit diagram showing an embodiment of the present invention. 1, 11・Electricity supply tap, 3.Second plug, 5.-Second relay 8.9 ・Other power line Le. 2. First plug, 4 First relay 6, 7・One power line, 10 ・Relay drive carp

Claims (1)

[Claims] (1) A first plug that is detachably connected to multiple power supply taps.
and a second plug, and a first plug connected to this plug, respectively.
and a second relay, on the output side of the relay, one power line of the first plug is connected to one power line of the second plug, and the other power line of the first plug is connected to the second power line. , the other power line of the first plug and one power line of the second plug are used as output lines, and the other power line of the first plug and the second power line are connected to each other on the input side of the relay. A power supply device characterized in that one power line of the plug is connected to a relay drive coil.