KR101146970B1 - An uninterruptible power supply having ability of protecting a storage battery - Google Patents

Abstract

PURPOSE: An uninterrupted power supply capable of monitoring and protecting a storage battery is provided to enable users to check the voltage of the storage battery for easily monitoring the replacing time for the battery. CONSTITUTION: An uninterrupted power supply comprises the following: a bottom plate(10) including a center pole and a rectangular supporting groove; the center pole including a central protrusion on the upper side; a rotating plate(30) with an opening(32), and a handle(33) on one side of a plate body; a rail installed around the edge of an inner metal plate, and closely attached to a terminal of a storage battery; a connection terminal(50) electrically connected to the terminal of a fixing cap(60); and the fixing cap connected to a connection wire through the inside of a body.

Description

An uninterruptible power supply having ability of protecting a storage battery}

The present invention relates to an uninterruptible power supply capable of monitoring and protecting a battery. More particularly, the present invention relates to an uninterruptible power supply capable of easily replacing a failed battery by detecting an abnormality in the battery. Relates to a device.

Uninterruptible power supply is a device that prevents power abnormality caused by voltage fluctuations, frequency fluctuations, instantaneous blackouts, transient voltages, etc., and always supplies stable power when using general or backup power. Is skyrocketing.

The conventional uninterruptible power supply device is provided with a storage battery and charges DC power to the storage battery through a converter and supplies power through an inverter. In order to charge the DC power in the battery of the uninterruptible power supply having such a method, a long charging time is required, and it may be overcharged and overdischarged.

Therefore, an uninterruptible power supply device in which power is supplied from a storage battery in an emergency by connecting several storage batteries in parallel has been developed.

In this case, when an error occurs in the battery, it is difficult to separate the battery connected in parallel, and it is difficult to replace the battery without interrupting the power supply.

In the current communication network, as the number of uninterruptible power supply systems and rectifiers of the switching center increases due to the expansion of the service communication network, it is inconvenient to monitor the state of the battery in the related art and may not be prepared for a sudden power failure when the battery has a problem.

In addition, the battery should protect the connection state, but there was a problem that the battery is not protected because the wires connecting the terminals are exposed.

The present invention has been made to solve the problems as described above, when there is no separate wire connection when connecting a plurality of batteries in parallel, it is configured to be connected in parallel just to put in place, and easy replacement and monitoring of the battery I want to configure.

The terminal connecting the inverter and the converter will be kept intact when the rotor is rotated.

The voltage checker is connected to the storage battery to check the voltage of the battery at all times to determine whether there is an abnormality, and the emergency storage battery is equipped with an emergency storage battery.

In addition, the purpose of protecting the battery by preventing the exposed terminals and connecting wires of the battery.

According to the present invention, the commercial power source 100 is electrically connected to the converter 110, the converter 110 is electrically connected to one terminal 2, and the other terminal 2 is an inverter (to achieve the above object). A storage battery 1 electrically connected to the 120; The center pillar 20 is fixed at the center of the circular plate body 11, and a plurality of rectangular support grooves 12 are formed around the center pillar 20, and the battery 1 is placed and fixed in the support groove 12. And, the storage battery 1 is a bottom plate 10 fixed to two or more; A center column 20 having a center protrusion 22 formed on an upper end of the rod 21; A hole 34 is formed in the center of the circular plate body 31 so as to be rotatably inserted into the central protrusion 22, and the fixing ring 23 is fitted into the center protrusion 22 and fixed at the upper portion of the plate body 31. One side of the plate 31 is cut open the opening 32 is formed, the rotary plate 30 is formed with a handle 33 on the peripheral side of the plate 31; A rail frame 41 is formed in a U-shape in a cross section whose bottom is opened by the inner wall 41-2 and the outer wall 41-3, and the terminal of the storage battery 1 is formed on the bottom of the plate body 31 of the rotating plate 30. A pair of rail frames 41 are fixed where (2) is located, and the rail frame 41 is formed in a circular shape, and the groove part where the terminals 2 of the storage battery 1 are located on the inner wall 41-2 is located. A 41-1 is formed, the inner metal plate 42 having a cross-sectional shape of the N-shape is fixed to the inner wall of the rail frame 41, and a plurality of guides at the ends of the horizontal portion 42-2 of the inner metal plate 42. An arc-shaped metal plate 43-1 having a guide hole 43-2 in which the protrusion 42-3 protrudes and the guide protrusion 42-3 is inserted into the rail frame 41 by the spring 44. It is elastically supported at, the arc-shaped metal plate (43-1) is provided with a plurality of rails 40 are in close contact with the terminal 2 of the storage battery (1) is installed around one inner metal plate (42); A connection terminal electrically connected to one side of the inner metal plate 42 of the rail 40 and fixed to the upper surface of the rotating plate 30, and electrically connected to the terminal 63 of the fixing cap 60 by a connecting wire 51 ( 50); A groove 62 is formed in the lower center of the cylindrical body 61 so that the center protrusion 22 of the center pillar 20 is inserted into the groove 62 so that the body 61 rotates. Terminals 63 are formed to be electrically connected to the converter 110 and the inverter 120, respectively, and the terminal 63 has a fixed cap 60 connected to the connection wire 51 through the body 61; It provides an uninterruptible power supply capable of monitoring and protecting the battery, characterized in that consisting of.

According to the present invention, the battery is stably placed in the support groove of the bottom plate, and the battery terminal is inserted between the inner metal plate and the outer metal plate of the rotating plate so that the power supply is always connected to the inverter and the converter even when the rotating plate rotates. This will supply power or charge.

Only the battery in the place where the opening of the rotating plate is located is disconnected from the power source, so the battery can be easily removed by rotating the opening to the position of the battery in which the problem occurs.

Since the battery is installed between the rotating plate and the support plate, the battery is protected, and the battery terminals are not exposed so that the battery is protected.

1 is a perspective view showing an uninterruptible power supply capable of monitoring and protecting a battery of the present invention.
Figure 2 is a plan view showing an uninterruptible power supply capable of monitoring and protecting the battery of the present invention.
Figure 3 is an exploded perspective view showing a state in which the storage battery is installed on the bottom plate of the uninterruptible power supply capable of monitoring and protecting the battery of the present invention.
Figure 4 is a view showing a rotating plate of the uninterruptible power supply capable of monitoring and protecting the battery of the present invention from the bottom.
Figure 5 is a partially cut perspective view showing a rotating plate of the uninterruptible power supply capable of monitoring and protecting the battery of the present invention.
Figure 6 is a perspective view showing the inner metal plate and the outer metal plate of the uninterruptible power supply capable of monitoring and protecting the battery of the present invention.
Figure 7 is a perspective view showing a part of the rail frame of the uninterruptible power supply capable of monitoring and protecting the battery of the present invention.
Figure 8 is a vertical cross-sectional view showing an uninterruptible power supply capable of monitoring and protecting the battery of the present invention.
Figure 9 is a block diagram showing a state in which the power supply of the uninterruptible power supply capable of monitoring and protecting the battery of the present invention is connected.

Hereinafter, the structure and operation of the present invention will be described in more detail with reference to the accompanying drawings. In describing the present invention, the term or word used in the present specification and claims is based on the principle that the inventor can appropriately define the concept of the term in order to best describe the invention of his or her own. It should be interpreted as meanings and concepts corresponding to the technical idea of

In recent years, as the number of systems requiring reliability, such as finance, broadcasting, and industry, has increased, the introduction of uninterruptible power supply in parallel operation has been spreading, and as all systems are networked due to the rapid advancement into the information society, the necessity of managing UPS on the network has also increased. .

As shown in FIG. 9, the uninterruptible power supply is electrically connected to a converter 110 in which power supplied from the commercial power supply 100 is converted to direct current and charged directly, and the storage battery 1 is again connected to the inverter 120. Is connected to and is transmitted to the load 140 through the synchronous switching unit 130. All such charging and supply is controlled by the control unit 150 to determine the supply and stop of power.

Synchronous switching unit 130 is a structure that is installed on the bypass and inverter 120 side in preparation for the failure and overload of the inverter 120 to operate in conjunction with the pure semiconductor device to prevent the inrush current caused by the phase difference Consists of When the transfer to the bypass line due to the overload is automatically re-switched to the inverter 120 is released overload is a device to receive a stable power supply of the inverter 120 as possible.

The present invention is configured to facilitate replacement and detection when the battery is abnormal in such an uninterruptible power supply, the battery (1) is electrically connected to the converter 110 and the inverter 120, the commercial power supply 100 has been outage When the control unit 150 is automatically converted to use.

The bottom plate 10 is a plate body 11 on which the storage battery 1 is placed, and is formed in a circular shape so that the center column 20 is fixed to the center of the plate body 11, and a plurality of rectangular shapes are formed around the center column 20. A support groove 12 is formed. Each storage battery 1 is placed and fixed in the plurality of support grooves 12, and the storage battery 1 is installed in two or more support grooves 12 to be fixed.

The center pillar 20 installed at the center of the bottom plate 10 has a center protrusion 22 formed at the upper end of the rod 21, and a thread is formed on the surface of the center protrusion 22 so that the fixing ring 23 will be described later. ) Is fastened to prevent the upper departure of the rotating plate 30, the fixing cap 60 is able to rotate in the upper portion of the fixing ring (23). A screw thread is also formed in the inner diameter of the center hole of the fixing ring 23, and it is preferable to be configured to be engaged with the center protrusion 22, but it is not necessarily configured as such.

The rotating plate 30 has a hole 34 formed in the center of the circular plate body 31 so as to be rotatably inserted into the central protrusion 22, and the fixing ring 23 is formed at the upper portion of the plate body 31 at the center protrusion 22. It is characterized in that it is fitted in the fixed. And one side of the plate body 31 is cut open to form an opening 32, the handle 33 is formed to easily rotate the rotating plate 30 on one side of the circumference of the plate body 31.

As shown in FIG. 1, the cylindrical body is formed to the bottom plate 10 vertically around the plate 31 of the rotating plate 30 to protect the installed battery 1 as a whole. However, only the upper disc part is formed. You may.

The rail 40 is configured to be electrically connected in parallel with the terminals 2 of the storage battery 1, and a pair of rails 40 are fixed to the bottom surface of the plate 31 of the rotating plate 30.

A cross-section of the U-shaped rail frame 41 is formed on the inner wall 41-2 and the outer wall 41-3, and a terminal of the storage battery 1 is formed on the bottom surface of the plate body 31 of the rotating plate 30. A pair of rail frames 41 are fixed where (2) is located. The rail frame 41 is in a state in which only the place where the opening 32 of the rotating plate 30 is located in a circular shape is removed. Therefore, the terminal 2 of the storage battery 1 is introduced into the rail frame 41 through the opening 32 to move.

The rail frame 41 is formed in a pair, but in a state in which the battery 1 is placed, a pair of rails 41 are formed and fixed in a different diameter so as to connect the terminals 2 in parallel.

In the inner wall 41-2 of the rail frame 41, the groove part 41-1 is formed where the terminal 2 of the storage battery 1 is located so that the terminal 2 enters the groove part 41-1. . In addition, the inner metal plate 42 having a cross-sectional shape of the N-shape is fixed to the inner wall of the rail frame 41 to be in contact with the terminal 2.

The inner metal plate 42 is formed in a circular shape such that the vertical portion 42-1 and the horizontal portion 42-2 are located in the rail frame 41 in a circular shape, and the cross section thereof is b-shaped. A plurality of guide protrusions 42-3 protrude at equal intervals at the ends of the horizontal portion 42-2 of the inner metal plate 42, and the guide protrusions 42-3 are guides formed on the arc metal plate 43-1. It fits in the hole 43-2, and moves back and forth in the rail frame 41 as the terminal 2 moves.

The arc metal plate 43-1 is installed to be elastically supported in the rail frame 41 by the spring 44, and the terminal 2 is a vertical portion 42 of the arc metal plate 43-1 and the inner metal plate 42. Passing between -1) pushes back, but is always in close contact with the terminal 2 by the force of the spring (44). This is configured such that the power is continuously connected during the rotation of the rotating plate (30).

A plurality of arc-shaped metal plates 43-1 are installed around one inner metal plate 42 to be in close contact with the terminal 2 of the storage battery 1. Unlike the inner metal plate 42, which does not move, the arc metal plate 43-1 is pushed back by the terminal 2, so that the entire circle made up of a plurality of arc metal plates 43-1 is increased in diameter to be opened therebetween. do. However, even if the gap between the arc metal plate (43-1) is moved along the guide projection (42-3) but does not open much, so that the terminal (2) of the arc metal plate 43-1 and the inner metal plate 42 To move between them.

In the vertical portion 42-1 of the arc-shaped metal plate 43-1 and the inner metal plate 42, the groove portion is formed in the same shape at the same position as the groove portion 41-1 of the rail frame 41.

The inner metal plate 42 is electrically connected to the connection terminal 50, and the connection terminal 50 is connected to the inner metal plate 42 with the rotating plate 30 interposed therebetween. In addition, one or more connection terminals 50 may be formed on the upper surface of the rotating plate 30 to be electrically connected to the inner metal plate 42. The connecting terminal 50 is electrically connected to the terminal 63 of the fixed cap 60 by the connecting wire 51. The connecting terminal 50 and the connecting wire 51 on the upper surface of the rotating plate 30 can be protected by a cover, but not shown.

The fixed cap 60 has a terminal 63 connected to the inverter 120 and the converter 110 to be electrically connected to the above-described connection terminal 50, and rotates together when the rotating plate 30 rotates. The connection wire 51 is configured not to be broken.

The fixing cap 60 has a groove 62 formed at the lower center of the cylindrical body 61, and the center protrusion 22 of the central pillar 20 is inserted into the groove 62 to rotate the body 61. .

A terminal 63 is formed on the upper portion of the body 61, and is electrically connected to the converter 110 and the inverter 120, respectively, and the terminal 63 is connected to the connecting wire 51 through the inside of the body 61. .

In such a configuration, the storage battery 1 is detected by the voltage check 160 whether there is an abnormality, the storage battery 1 in which the abnormality is rotated the rotating plate 30, the battery opening (32) in which the opening 32 is abnormal To be located at

At this time, when the rotating plate 30 rotates, the terminals 2 of the storage battery 1 all move between the inner metal plate 42 and the arc metal plate 43-1 of the rail 40, and the groove portion 41-. Except when the terminal (2) is located in 1) while pushing the spring 44 back arc metal plate 43-1 is moved. However, the terminals 2, the inner metal plate 42, and the arc metal plate 43-1 are always in contact with each other by the force of the spring 44 to maintain the connection state of the power source. Only the battery 1 located in the opening 32 of the rotating plate 30 is released in parallel connection of the power source can be removed and checked.

Therefore, parallel connection of the storage battery 1 is possible only by placing the support groove 12 of the bottom plate 10 and rotating the rotating plate 30.

1: battery 2: terminal
10: bottom plate 11: plate body
12: support groove 20: center pillar
21: bar 22: center projection
23: retaining ring 30: rotating plate
31: plate 32: opening
33: knob 34: hole
40: rail 41: rail frame
41-1: groove portion 41-2: inner wall
41-3: outer wall 42: inner metal plate
42-1: vertical portion 42-2: horizontal portion
42-3: guide protrusion 43: outer metal plate
43-1: arc metal plate 43-2: guide hole
44: spring 50: connection terminal
51: connecting wire 60: fixed cap
61 body 62 groove
63: terminal 100: commercial power
110: converter 120: inverter
130: synchronization switching unit 140: load
150: control unit 160: voltage check

Claims (1)

The commercial power supply 100 is electrically connected to the converter 110, the converter 110 is electrically connected to one terminal 2, the other terminal 2 is electrically connected to the inverter 120 (1) );
The center pillar 20 is fixed at the center of the circular plate body 11, and a plurality of rectangular support grooves 12 are formed around the center pillar 20, and the battery 1 is placed and fixed in the support groove 12. And, the storage battery 1 is a bottom plate 10 fixed to two or more;
A center column 20 having a center protrusion 22 formed on an upper end of the rod 21;
A hole 34 is formed in the center of the circular plate body 31 so as to be rotatably inserted into the central protrusion 22, and the fixing ring 23 is fitted into the center protrusion 22 and fixed at the upper portion of the plate body 31. One side of the plate 31 is cut open the opening 32 is formed, the rotary plate 30 is formed with a handle 33 on the peripheral side of the plate 31;
A rail frame 41 is formed in a U-shape in a cross section whose bottom is opened by the inner wall 41-2 and the outer wall 41-3, and the terminal of the storage battery 1 is formed on the bottom of the plate body 31 of the rotating plate 30. A pair of rail frames 41 are fixed where (2) is located, and the rail frame 41 is formed in a circular shape, and the groove part where the terminals 2 of the storage battery 1 are located on the inner wall 41-2 is located. A 41-1 is formed, the inner metal plate 42 having a cross-sectional shape of the N-shape is fixed to the inner wall of the rail frame 41, and a plurality of guides at the ends of the horizontal portion 42-2 of the inner metal plate 42. An arc-shaped metal plate 43-1 having a guide hole 43-2 in which the protrusion 42-3 protrudes and the guide protrusion 42-3 is inserted into the rail frame 41 by the spring 44. It is elastically supported at, the arc-shaped metal plate (43-1) is provided with a plurality of rails 40 are in close contact with the terminal 2 of the storage battery (1) is installed around one inner metal plate (42);
A connection terminal electrically connected to one side of the inner metal plate 42 of the rail 40 and fixed to the upper surface of the rotating plate 30, and electrically connected to the terminal 63 of the fixing cap 60 by a connecting wire 51 ( 50);
A groove 62 is formed in the lower center of the cylindrical body 61 so that the center protrusion 22 of the center pillar 20 is inserted into the groove 62 so that the body 61 rotates. Terminals 63 are formed to be electrically connected to the converter 110 and the inverter 120, respectively, and the terminal 63 has a fixed cap 60 connected to the connection wire 51 through the body 61; Uninterruptible power supply capable of monitoring and protecting the battery, characterized in that consisting of.

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