KR101860263B1 - Automatic power switching device - Google Patents

Abstract

The present invention relates to an automatic power switching device which easily switches to emergency power during a commercial power outage by a horizontal moving unit consisting of an electromagnet, switches to commercial power when commercial power is restored, and has a simple structure to markedly reduce manufacturing costs. Also, the automatic power switching device is attached in an emergency power distribution box of a large building to switch from commercial power to emergency power and from emergency power to commercial power. When the supply of commercial power is stopped and emergency power is supplied while normally using commercial power by connecting commercial power to an emergency power distribution line by drawing commercial power into the emergency power distribution box, power is supplied to an electromagnet designed in the automatic power switching device attached in the emergency power distribution box, and a connection state of commercial power is completely blocked by an attracting principle of an electromagnet. When commercial power is blocked, emergency power is connected to the distribution line to normally supply emergency power. When commercial power is resupplied and emergency power is blocked, the electromagnetic force also dies out to return to a commercial power connection state by an action of a pushing force of an elastic member such as a spring designed and connected to the electromagnet.

Description

[0001] Automatic power switching device [0002]

The present invention provides a power source capable of easily switching to an emergency power source during commercial power interruption through a left and right moving unit made up of electromagnets and switching to a commercial power source when returning from a commercial power source, And an automatic switching device.

In addition, the present invention is a device installed in an emergency power distribution box of a large building and capable of switching from a commercial power supply to an emergency power supply and from an emergency power supply to a commercial power supply. In the emergency power supply distribution box, Power is supplied to the electromagnet designed in the automatic power switching device of the present invention attached to the emergency power distribution box when the power of the commercial power is interrupted while the electric power of the commercial power is supplied while the power is supplied to the emergency power line, When the commercial power is disconnected and the emergency power is connected to the emergency power wiring line at the same time as the commercial power is cut off, the emergency power is normally supplied, and when the commercial power is supplied again and the emergency power is cut off, The action of the pushing force of the elastic member such as the spring designed to connect with the electromagnet after the power is extinguished As relates to a power conversion device of the automatic way in which the original position at the commercial power source connection.

When the commercial power supply is interrupted, the large buildings are supplied with the emergency power supply to the emergency power distribution box located on each floor through the special wiring of the emergency power supply. In the emergency power distribution box, emergency lighting lamps, The existing wiring system is wired with redundant wiring lines for commercial power supply because all of these emergency power supply wiring lines are wired in a redundant manner and a large amount of electric wires are wasted. In addition, a corridor commercial lamp, The redundant arrangement of the commercial lighting and the emergency lighting in the office caused unnecessary waste of electric wires and electric lamps.

In addition, an empty office in the large building or an office that has been off early may also turn off the commercial power supply, and the emergency light is turned on even in an empty office that has been already turned off when the emergency power is supplied, There is a problem that an emergency light must be turned on in all offices or offices of the building even in case of a simple power failure.

In addition, existing alternate power conversion devices are complex and include backflow prevention circuits, so that the life of the building should be simple and simple, And did not satisfy the structural efficiency.

In addition, the alternate power switching system using the conventional electromagnet is designed in such a manner that the electromagnet operates as a commercial power source, so that the power of the commercial power source continuously flows into the electromagnet until the life of the building is reached, And only the alternate power source is designed to be disconnected or connected, so that it can not be put into practical use by switching to another power source.

In addition, in the existing method, charger is installed inside the commercial power source lamp so that the charger is supplied with the charged emergency power in the case of power failure, so that the redundancy between the commercial power source wiring line and the emergency power source wiring line is eliminated, , It is possible to reduce the waste of electric wires and electric lamps. However, there is a disadvantage that unnecessary energy wastage which must be constantly supplied to the inside of the charger in proportion to the contrast of commercial power supply interruption, And the inconvenience that many chargers have to be replaced several times until the lifetime of the building is shortened due to the long life of the charger, and the charger must be inspected from time to time inside the lamp installed with each charger.

In order to overcome such a problem, various kinds of automatic change-over switches have been proposed. Among them, a switch device of an automatic change-over switch which can prevent a malfunction occurring during power conversion from a commercial power source to an emergency power source is disclosed in a registered patent publication no. 10-0933048. However, the Korean Registered Patent Publication No. 10-0933048 has a problem in that the manufacturing cost is increased due to the complicated structure.

Korean Registered Patent Publication No. 10-0933048

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide an electric power supply system for an electric power supply system, And it is an object of the present invention to provide an automatic power switching device that can be manufactured with a simple structure and can significantly reduce manufacturing cost.

In addition, the present invention is a device installed in an emergency power distribution box of a large building and capable of switching from a commercial power supply to an emergency power supply and from an emergency power supply to a commercial power supply. In the emergency power supply distribution box, Power is supplied to the electromagnet designed in the automatic power switching device of the present invention attached to the emergency power distribution box when the power of the commercial power is interrupted while the electric power of the commercial power is supplied while the power is supplied to the emergency power line, When the commercial power is disconnected and the emergency power is connected to the emergency power wiring line at the same time as the commercial power is cut off, the emergency power is normally supplied, and when the commercial power is supplied again and the emergency power is cut off, The action of the pushing force of the elastic member such as the spring designed to connect with the electromagnet after the power is extinguished And in that the object of the invention is to provide a power conversion device of the automatic way in which the original position at the commercial power source connection.

According to another aspect of the present invention, there is provided an automatic power switching apparatus for converting an emergency power supply into a commercial power supply when the commercial power supply is interrupted and a commercial power supply when the commercial power is restored, the apparatus being connected to a commercial power supply, A commercial power source side terminal portion comprising a plurality of terminals to be disposed; An emergency power source side terminal unit connected to the emergency power source and comprising a plurality of terminals alternately arranged at a predetermined interval in a plurality of terminals of the commercial power source side terminal unit; A load side terminal portion connected to the load, the load side terminal portion comprising a plurality of terminals disposed on the opposite sides of the commercial power source side terminal portion and the emergency power source side terminal portion; A rotary connection part having a lower part axially coupled to the load-side terminal part so as to be positioned between the commercial power-source-side terminal part and the emergency power-source-side terminal part; And an electromagnet including an electromagnet for connecting the upper portion of the pivotal connection portion to the commercial power-source-side terminal portion or the emergency power-source-side terminal portion, wherein the rod includes a rod having a through hole through which the pivotal connection portion passes, And an automatic power switching device is provided.

An elastic member is provided between the engagement jaw and one side of the bobbin of the electromagnet to move the rod in one direction of the rod by an elastic force to bring the rod back to its original position .

The rod of the electromagnet constituting the left and right moving part is made of an insulator, and the through-hole is formed at a predetermined interval from one side to the other side; And a second rod formed on the other side of the one rod and made of a permanent magnet and having the latching jaw formed on one side thereof.

Here, one side of the other rod is screwed to the other side of the one rod, and the latch jaw is formed of a washer provided to the other rod.

The through-hole of the rod may extend leftward and rightward from the one side of the rod to the other side by a predetermined length.

Further, a guide slit is formed in the front side of the front side, which extends left and right at a predetermined length from one side to the other side, and the guide slit A housing in which a fixing slit communicating with the guide slit is vertically extended on the other side of the slit; A lever housed in a guide slit of the housing and rotatably connected to a rod of an electromagnet constituting the left and right moving part and rotatably connected to the fixed slit while the rod is moved from one side of the guide slit to the other side, Is preferably provided.

It is preferable that the fixed slit is vertically extended to the other side of the guide slit in a direction of the upper side of the guide slit.

The automatic power switching apparatus of the present invention can switch easily to the emergency power source through the left and right moving unit made of the electromagnet and can switch to the commercial power source when returning to the commercial power source and also the manufacturing cost is remarkably reduced There is an effect that can be.

In addition, the automatic power switching device of the present invention can be applied to the fire fighting method without redundant installation of commercial lighting and emergency lighting, and redundant wiring of commercial power electric wiring and emergency power wiring.

In addition, the automatic power switching device of the present invention draws commercial power into an emergency power distribution box and normally uses emergency power, emergency guide light, emergency power outlet, etc. as a commercial power supply. However, the power supply of the commercial power supply is stopped, Is supplied to the emergency power distribution box located at each floor of the building, it is cut off from the commercial power connection state and connected to the emergency power supply line at the same time as the commercial power supply is cut off. Thus, all of the commercial power supply emergency power supply wiring line By replacing the functions with the emergency power supply, the duplication of the wiring was solved and the lamp was used as it was, so that the redundant arrangement of the lamp was not only solved, but also the wiring line was used as it was. Was turned off in a commercial power state, Of the power supplied from the power source is also supplied.

In addition, since the emergency power supply wiring line is connected to a commercial power supply and used from time to time, it is not necessary to periodically check the emergency power supply separately.

In addition, since the electromagnet is connected to the emergency power supply side, the supply of commercial power is interrupted, and the electromagnet is operated only when the emergency power is supplied, thereby minimizing unnecessary energy wastage.

In addition, since a simple structure in which the electromagnet is automatically operated when the emergency power source is supplied without any additional operation of the user, there is no concern for the convenience of the user and the reverse current phenomenon, and furthermore, Since it is a simple structure that can reduce unnecessary budget wastage and hardly have a failure rate, it is effective to make the failure rate not to exist until the life of the building is exhausted.

1 is a cross-sectional view schematically showing an automatic power switching device, which is an embodiment of the present invention,
2 is a cross-sectional view schematically showing a guide portion for guiding a left-right movement of the rod,
Figs. 3 and 4 are sectional views schematically showing the operating states of the right and left moving parts,
5 is a plan view schematically showing a through-hole formed at regular intervals in the rod,
6 is a partially enlarged perspective view schematically showing a lever provided on the rod for moving the rod,
Figs. 7 and 8 are sectional views taken along line A-A in Fig. 6,
9 and 10 are partial cutaway front views schematically showing an operating state of the lever.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings. It is to be understood that the scope of the present invention is not limited to the following embodiments, and various modifications may be made by those skilled in the art without departing from the technical scope of the present invention.

1 is a cross-sectional view schematically showing an automatic power switching apparatus according to an embodiment of the present invention.

As shown in FIG. 1, the automatic power switching device, which is an embodiment of the present invention, is used to switch to an emergency power supply when a commercial power supply fails and to convert the commercial power supply into a commercial power supply. A terminal portion 30, a load-side terminal portion 40, a rotation connecting portion 50, and a left and right moving portion 60. [

The commercial power source side terminal portion 20, the emergency power source side terminal portion 30, the load side terminal portion 40, the rotating connection portion 50 and the left and right movable portions 60 may be provided at predetermined intervals in the housing 10.

The commercial power source side terminal unit 20 includes a plurality of terminals disposed on the upper side of the housing 10 at a predetermined distance from one side of the housing 10 to be connected to a commercial power source.

The emergency power source side terminal unit 30 is disposed on the upper side of the housing 10 in a state where the plurality of terminals of the commercial power source side terminal unit 20 are alternately arranged at regular intervals, Terminal.

The load side terminal portion 40 is provided on the lower side of the housing 10 so as to be disposed on the opposite side of the commercial power source side terminal portion 20 and the emergency source side terminal portion 30 from one side of the housing 10 to the other side And are connected to the load at regular intervals.

The lower portion of the pivotal connection portion 50 is provided inside the housing 10 in a state where the pivotal connection portion 50 is vertically positioned between the commercial power source side terminal portion 20 and the emergency power source side terminal portion 30, Is connected to the load-side terminal portion (40).

The pivoting connection part 50 may be made of a conductive material.

Next, the left and right moving portions 60 may be provided in the inner middle portion of the housing 10.

The left and right moving part 60 is composed of an electromagnet provided with a rod 610.

A cross section of the rod 610 of the electromagnet constituting the left and right moving part 60 may be formed in various shapes such as a circular shape and a through hole through which the rotating connection part 50 vertically penetrates, (611) are formed at regular intervals in the other direction from one side of the rod (610).

The electromagnet constituting the left and right moving part 60 is supplied with an emergency power source from an emergency generator or the like and moves the rod 610 from one side of the rod 610 to the other side to move the upper part of the rotatable connection part 50 Side terminal portion 20 or the emergency-power-source-side terminal portion 30, respectively.

2 is a cross-sectional view schematically showing a guide portion for guiding a left-right movement of the rod.

A guide unit 130 may be further provided to guide the rod 610 of the left and right moving unit 60 to move left and right while preventing the rod 610 from being biased downwardly of the rod 610.

The guide unit 130 is installed in the housing 10 so as to be protruded from the inner side of the front side and the inner side of the rear side of the housing 10 in the direction of the rod 610 by a predetermined length, In the direction of the other side.

The rod 610 may be received between the guide portions 130.

3 and 4 are sectional views schematically showing the operating states of the right and left moving parts.

3 and 4, a locking protrusion 612, which may be formed in various shapes such as an annular shape, may be vertically formed on the other side of the rod 610 of the electromagnet forming the left and right movable portions 60. [

An elastic member 630, which may be a spring or the like, may be provided between the engagement protrusion 612 and one side of the bobbin 620 of the electromagnet.

The rod 610 may be received inside the elastic member 630, which may be a spring or the like.

3, an emergency power source is supplied to an electromagnet which can form the left and right movable unit 60, so that the rod 610 of the electromagnet is connected to the rod (not shown) The elastic member 630 can be retracted while being automatically moved to the other side of the emergency power source side terminal portion 610 so that the upper portion of the pivotal connection portion 50 can be connected to the emergency power source side terminal portion 30 in contact with each other.

4, when the emergency power supply to the electromagnet which can form the left and right movable portions 60 is interrupted due to the return of the commercial power, the elastic force of the elastic member 630, And the upper portion of the pivot connection portion 50 may be connected to the commercial power source side terminal portion 20 in contact with the rod 610. [

5 is a plan view schematically showing through-holes formed at regular intervals in the rods.

The upper part of the pivotal connection part 50 is pivoted to one side and the other side of the pivotal connection part 50 so as to be easily contacted to the commercial power source side terminal part 20 and the emergency power source side terminal part 30 5, the through-hole 611 of the rod 610 may be formed in a variety of shapes such as a rectangular slit shape or an elliptical shape extending leftward and rightward from the one side of the rod 610 by a predetermined length have.

6 is a partially enlarged perspective view schematically showing a lever provided on the rod for moving the rod, and Figs. 7 and 8 are sectional views taken along the line A-A in Fig.

6 to 8, the rod 610 of the electromagnet forming the left and right moving part 60 may include a rod 613 and a rod 614.

The one side rod 613 may be formed of an insulator and the one side rod 613 may have a plurality of through holes 611 formed at one side of the one side rod 613 in the other direction at regular intervals.

The other rod 614 may be a permanent magnet formed on the other side of the one rod 613.

The latching protrusion 612 may be formed on one side of the other rod 614.

For example, an insertion shaft 616 can be fixed to one side of the other rod 614 by various methods such as adhesive fixing while being inserted into an insertion groove 615 formed on the other side of the one rod 613 .

7 and 8, the insertion shaft 616 of the other rod 614 is connected to the other rod 614 so that the one rod 613 and the other rod 614 can be smoothly separated from each other, The engaging protrusion 612 may be inserted into the insertion groove 615 of the one side rod 613 while the insertion shaft 616 of the other side rod 614 is accommodated in the inside, And a washer provided at one side of the first rod 614 to prevent the one rod 614 and the other rod 614 from being loosened.

9 and 10 are partial cutaway front views schematically showing an operating state of the lever.

Next, when a safety accident occurs in which the emergency power is not supplied to the electromagnet constituting the left and right movable part 60 in the state where the commercial power is temporarily out of order due to natural disaster, accident, or the like, A lever 70 may be further provided to move the lever 610 left and right.

9 and 10, a guide slit 110 may be formed at the middle portion of the front side of the housing 10 to extend leftward and rightward from the one side of the housing 10 to a predetermined length .

A fixing slit 120 communicating with the guide slit 110 may be formed on the other side of the guide slit 110 to extend vertically.

The lever 70 can be received in the guide slit 110 of the housing 10.

6 and 7, a receiving tube 710 may be formed on the front side of the lever 70 to receive the rod 610 horizontally.

For example, the receiving tube 710 may be provided on the outer surface of the other side of the rod 613 while the other side of the rod 613 of the rod 610 is wrapped around the receiving tube 710, The other side of the engaging protrusion 612 can be in contact with the engaging protrusion 612.

However, in the case of the receiving tube 710 of one example, since the rod 610 can be moved only in the other direction of the rod 610 by using the lever 70, 8, it is preferable that one rod 613 of the rod 610 is moved in the direction of one side and the other side of the rod 610, Like stepped groove 617 is formed in the other outer surface of the one side rod 613 to have a certain depth to the inside of the one rod 613. The receiving tube 710 is accommodated in the stepped groove 617 .

One side of the receiving tube 710 of another example may be in contact with one side of the annular stepped groove 617 and the other side of the receiving tube 710 of another example may be in contact with the latching jaw 612.

An operator or the like can manually move the rod 610 together with the lever 70 and move the rod 610 manually in the other direction of the rod 610 The lever 70 may be rotated in the direction of the fixed slit 120 and fixed to the fixed slit 120 as shown in FIG.

The lever 70 fixed to the fixed slit 120 is fixed to the fixed slit 120 in a state of being not separated from the fixed slit 120 by the elastic force of the elastic member 630, 120 in a state in which it is locked

When the emergency power source to the electromagnet constituting the left and right movable portion 60 is supplied in a state where the lever 70 is not locked in the fixed slit 120, the lever 70 is moved along the rod 610 And can be automatically moved toward the other side of the rod 610.

However, when the lever 70 is positioned in the upper direction of the fixed slit 120 extending in the lower direction of the other side of the guide slit 110, the lever 70 is biased by the self- The rod 610 is lowered by the fixed slit 120 located in the lower direction of the rod 70 and is fixed to the fixed slit 120 so that the rod 610 is moved in the direction of the rod 610 by the elastic force of the elastic member 630 There is a possibility that a problem that can not be restored can be caused by shifting to one side.

In order to solve such a problem, the fixed slit 120 may be extended to the other side of the guide slit 110 by a predetermined length in the upper direction or the lower direction of the guide slit 110, 10, the guide slit 110 may be vertically extended to a predetermined length in the upward direction.

The number of the commercial power source side terminal portion 20, the emergency power source side terminal portion 30 and the load side terminal portion 40 is determined to be the number corresponding to the power source of the power source (single phase 2 wire, 3 phase 3 wire, 3 phase 4 wire) .

The present invention configured as described above can be more easily converted into an emergency power source through a left and right moving unit 60 made of an electromagnet when the commercial power source is blacked out and converted into a commercial power source when the commercial power source is recovered, There is an advantage that the unit price can be remarkably reduced.

10; A housing, 20; Commercial power terminal,
30; Emergency power supply terminal, 40; A load side terminal portion,
50; Pivotal connection, 60; However,
70; lever.

Claims (7)

1. A power automatic switching device for switching to an emergency power supply when a commercial power supply fails and for switching to a commercial power supply when a commercial power supply is restored,
A commercial power source side terminal portion connected to a commercial power source and comprising a plurality of terminals arranged in a state of being spaced apart at regular intervals;
An emergency power source side terminal unit connected to the emergency power source and comprising a plurality of terminals alternately arranged at a predetermined interval in a plurality of terminals of the commercial power source side terminal unit;
A load side terminal portion connected to the load, the load side terminal portion comprising a plurality of terminals disposed on the opposite sides of the commercial power source side terminal portion and the emergency power source side terminal portion;
A rotary connection part having a lower part axially coupled to the load-side terminal part so as to be positioned between the commercial power-source-side terminal part and the emergency power-source-side terminal part;
Wherein one end of the one rod is made of an insulator and the other end of the rod is made of a permanent magnet and the other end of the rod is connected to the other end of the rod, And an electromagnet which moves the rod and the other rod to the left and right to connect the upper portion of the pivot connection portion to the commercial power source side terminal portion or the emergency power source side terminal portion.
The method according to claim 1,
And a locking step is formed on one side of the other side rod of the electromagnet forming the left and right moving part,
And an elastic member for moving the one rod and the other rod in one direction of the one rod and the other rod by an elastic force between the latching jaw and one side of the bobbin of the electromagnet.
3. The method of claim 2,
One side of the one side rod is screwed to the other side of the one side rod,
And the latching jaw is constituted by a washer provided on the other side rod.
The method according to claim 1,
Wherein the through-hole of the one rod extends leftward and rightward at a predetermined length from one side of the one side rod to the other side.
The method according to claim 1,
A guide slit is formed in the front side of the front side to extend leftward and rightward in a predetermined length from one side to the other side of the guide slit, And a fixing slit communicating with the guide slit is formed on the other side of the housing slit;
The one side rod being rotatably connected to one side rod of the electromagnet, which is accommodated in the guide slit of the housing and constituting the left and right moving part, and the one side rod and the other side rod are moved from one side of the guide slit to the other side, And a lever fixedly engaged with the main body.
6. The method of claim 5,
Wherein the fixed slit is vertically extended on the other side of the guide slit in a direction of an upper portion of the guide slit. delete

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