KR101935537B1 - A connection board having earth-quake-proof function - Google Patents

Abstract

The present invention relates to a connection board having an earthquake-proof function, and more particularly, to a connection board having a hemispherical groove at an upper center portion and a lower portion connected to a ground; A horizontal weight having a hemispherical shape corresponding to an upper groove of the body; And a connection panel connected to the horizontal weight top surface.
The connecting board having an earthquake-proof function according to the present invention has the following effects.
First, the seismic waves can be divided into P waves and S waves. The P wave is a longitudinal wave, and the vibration direction of the material is parallel to the wave propagation direction. The S wave is a transverse wave, and the vibration direction of the material is perpendicular to the wave propagation direction. And the degree of damage is large. The present invention minimizes the influence of the seismic wave on the connection panel in response to the vertical motion and the horizontal movement of the ground due to such a seismic wave so as to prevent the occurrence of a secondary accident due to a short- have.
Second, in the case of an ordinary switchboard or a connection board having an earthquake-proof function, it is designed to cope with horizontal and vertical vibrations. However, the present invention can not cope with the variation of the ground due to an earthquake. It is possible to maintain the horizontal state of the connection panel by the horizontal weight, and it is possible to prevent the unstable power supply due to the occurrence of the earthquake and the fire caused by the short circuit.

Description

A CONNECTION BOARD HAVING EARTH-QUAKE-PROOF FUNCTION

The present invention relates to a connecting panel having an earthquake-proof function, and more particularly, to a connecting panel having an earthquake-proof function, which is capable of shielding vibrations generated by an external force, Lt; / RTI >

Generally, the photovoltaic power generation system is a power generation system that converts solar light and heat energy into electric energy. The developed electricity is converted into alternating electric energy through a voltage conversion device. A plurality of light collecting plates for collecting light are provided, and the photovoltaic power generation system described above is provided in each of the light collecting plates using the photovoltaic effect caused by the photoelectric effect when light is irradiated on the contact surface of the metal and the semiconductor or the pn junction of the semiconductor It is common. The minimum unit of a solar cell is called a cell. In a photovoltaic power generation system, a battery module is connected to a light collecting plate formed by collecting a plurality of cells in series of 10 to 30 in accordance with the use purpose, The energy is converted into DC power and collected. The photovoltaic power generation facilities consist largely of a solar cell module, a connection panel, and an inverter. The solar cell module functions to produce the DC electric energy from the sunlight. The connection panel collects the electric energy of the electric energy And the inverter can convert the direct current into alternating current so that it can be used as ordinary electric energy. In addition, the above-mentioned connecting unit includes an input unit for outputting the DC voltage generated from the sunlight in a serial connection manner, an output unit connected in series to the input unit for outputting a DC voltage output from the input unit to the inverter, And a control unit for detecting and monitoring the value of the control signal. It would also be possible to incorporate a separate current measuring device that allows the current and voltage values to be measured for individual solar cell modules.

As a conventional connection panel, there is a solar light connection panel equipped with a monitoring function and a monitoring and diagnosing device of a solar power generation system disclosed in Japanese Patent Application Laid-Open No. 10-0930132 and Laid-Open Utility Model No. 20-2009-0009127.

First, the connecting module disclosed in the patent includes an input part connected to a plurality of solar cell module groups in parallel and outputting a direct current input from each group of solar cell modules connected in parallel in a serial connection manner; An output unit connected in series to the input unit to receive a direct current output from the input unit and output to a connected inverter; The solar cell module according to any one of claims 1 to 3, wherein the output unit is connected to the input unit and detects and outputs an input current value and an input voltage value of each solar cell module group input through the input unit, A detection unit for detecting a voltage value and outputting the voltage value to the monitoring control unit; A monitoring controller for receiving an input current value, an input voltage value, an output current value, and an output voltage value output from the detector and displaying the input current value through a display unit; A display unit for displaying an input current value, an input voltage value, an output current value, and an output voltage value under the control of the monitoring control unit; And a power supply unit for supplying power to the detection unit, the monitoring control unit, and the display unit, wherein the output unit includes: an output terminal connected to the inverter and outputting a direct current to the connected inverter; A surge protector for preventing an overvoltage from being drawn into the inverter connected through the output terminal; And a classifier for classifying output currents for output current detection and outputting the classified output currents to the detecting unit. The connecting panel disclosed in the utility model is connected in parallel from the solar cell array, It is described that the DC power inputted into the group is integrated into one input power and outputted to the grid-connected inverter. Therefore, the above patent and utility model have only a brief description of the connection module.

Despite the fact that many of the electrical equipments and accessories such as the electric wire connected from the individual solar cell module and the ammeter for measuring the individual electric current, the ammeter for measuring the total electric current, the monitor for monitoring, The shock wave of the earthquake is transmitted to the connection half as it is, and the electric equipment installed inside the connection half is damaged, so that it is impossible to supply the stable electric power. There was a possibility that an electric shock accident would occur.

Korean Registered Patent No. 10-0930132 (Publication Date: December 08, 2009) Korean Utility Model Publication No. 20-2009-0009127 (Open date: September 10, 2009)

Problems to be solved by the connection module having the earthquake-proof function of the present invention are as follows.

Although the conventional connection panel has many electric devices and accessories such as an electric wire for connecting individual solar cell modules and an ammeter for measuring individual current, an ammeter for measuring the total current, a monitor for monitoring, and the like, The shock wave of the earthquake is transmitted to the connection half as it is, and the electric equipment installed inside the connection half is damaged, so that it is impossible to supply the stable electric power. To solve the problem that can cause electric shock.

To achieve the above object, the present invention provides a connection panel having an earthquake-resistant function, comprising: a body having a hemispherical groove formed in an upper central portion and connected to a lower surface and a ground; A horizontal weight having a hemispherical shape corresponding to an upper groove of the body; And a connection panel connected to the horizontal weight top surface.

In addition, the lower outer side of the body and the ground may be connected by a first elastic means, and the outer side of the horizontal weight and the lower part of the connection half may be connected by a second elastic means.

A frame vertically connected to an upper side of the upper surface of the body; Third elastic means for connecting the frame and the connection half; And a roof connected to an upper end of the frame.

The connecting board having an earthquake-proof function according to the present invention has the following effects.

First, the seismic waves can be divided into P waves and S waves. The P wave is a longitudinal wave, and the vibration direction of the material is parallel to the wave propagation direction. The S wave is a transverse wave, and the vibration direction of the material is perpendicular to the wave propagation direction. And the degree of damage is large. The present invention minimizes the influence of the seismic wave on the connection panel in response to the vertical motion and the horizontal movement of the ground due to such a seismic wave so as to prevent the occurrence of a secondary accident due to a short- have.

Second, in the case of an ordinary switchboard or a connection board having an earthquake-proof function, it is designed to cope with horizontal and vertical vibrations. However, the present invention can not cope with the variation of the ground due to an earthquake. It is possible to maintain the horizontal state of the connection panel by the horizontal weight, and it is possible to prevent the unstable power supply due to the occurrence of the earthquake and the fire caused by the short circuit.

1 is a perspective view showing a connection panel equipped with an individual current measurement device of the solar power generation system of the background art.
2 is a diagram showing the internal arrangement of a connection panel equipped with an individual current measurement device of the solar power generation system of the background art;
FIG. 3 is a view showing a connection part of a solar power generation system of the background art, in which a separate current measuring device is provided, connected to a condenser. FIG.
4 is a perspective view schematically showing a connection panel having an earthquake-proof function according to an embodiment of the present invention.
5 is a perspective view schematically showing each component of a connection panel having an earthquake-proof function according to an embodiment of the present invention;
6 is a sectional view schematically showing a connection panel having an earthquake-proof function according to an embodiment of the present invention;
7 is a cross-sectional view briefly illustrating a principle of operation of a connection panel having an earthquake-proof function in an earthquake according to an embodiment of the present invention.
8 is a cross-sectional view briefly illustrating a principle of operation of a connection panel having an earthquake-proof function in an earthquake according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, in order that those skilled in the art can easily carry out the present invention. In the following detailed description of the preferred embodiments of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. In the drawings, like reference numerals are used throughout the drawings.

Incidentally, in the entire specification, when a part is connected to another part, it includes not only a direct connection but also a case where the other part is indirectly connected with another part in between. Also, to include an element means that it may include other elements, not excluding other elements unless specifically stated otherwise.

FIG. 1 is a perspective view showing a connection panel provided with an individual current measurement device of the solar power generation system of the background art, FIG. 2 is an internal arrangement of a connection panel having an individual current measurement device of the solar power generation system of the background And FIG. 3 is a view showing a connection part of a solar photovoltaic system according to the background art having a separate current measuring device connected to a condenser. FIG. 4 is a perspective view schematically showing a connection panel having an earthquake-proof function according to an embodiment of the present invention, FIG. 5 is a perspective view schematically showing each component of a connection panel having an earthquake-proof function according to an embodiment of the present invention And Fig. 6 is a cross-sectional view schematically showing a connection panel having an earthquake-proof function according to an embodiment of the present invention. 7 is a cross-sectional view briefly showing the principle of operation of a connection panel having an earthquake-proof function according to an embodiment of the present invention when an earthquake occurs. FIG. 8 is a sectional view of a connection panel having an earthquake-proof function according to an embodiment of the present invention. The principle of operation in an earthquake is briefly described as a cross-sectional view.

As shown in FIGS. 4 to 8, the connection block 400 having an earthquake-proof function according to an embodiment of the present invention includes a hemispherical groove 210 formed at an upper center portion thereof, A body 200; A hemispherical horizontal weight 300 corresponding to the upper groove 210 of the body 200; And a connection unit 400 connected to the upper surface of the horizontal weight 300.

The lower side of the body 200 and the ground are connected by a first elastic means 220 and a lower portion of the upper side of the horizontal weight 300 and a lower side of the connection unit 400 are connected to a second elastic means 310, As shown in FIG. A frame 500 vertically connected to a top surface of the body 200; A third elastic means 510 connecting the frame 500 and the connection unit 400; And a roof 520 connected to the upper end of the frame 500.

The body 200 serves as a body for supporting the horizontal weight 300 to maintain the horizontal weight 300 in a stable position and to freely flow. And a hemispherical groove 210 is formed in a central portion of the upper portion so that the horizontal weight 300 is seated in the groove 210. The lower part is connected to the ground and fixed. That is, the body 200 functions as a support member of the connection unit 400 connected to the horizontal weight 300 and the upper portion of the horizontal weight 300. For example, when the body 200 is a rectangular tube, the upper part of the rectangular tube has hemispherical grooves 210, and the lower part is connected to the ground and fixed.

The body 200 is connected to the ground through the first elastic means 220 to absorb vibrations transmitted from the ground when the earthquake occurs and the vibration transmitted to the body 200 is primarily absorbed, 200) can be stabilized.

The horizontal weight 300 plays a role of maintaining the horizontal level when the ground surface is inclined by an earthquake. The lower part of the horizontal weight 300 may have a hemispherical shape corresponding to the upper groove 210 of the body 200. That is, the horizontal weight 300 is inserted into the upper groove 210 of the body 200 to make a spherical surface contact with the body 200, so that the horizontal weight 300 is separated from the groove 210 of the body 200, So that it can freely flow in the inside. The body (200) and the horizontal weight (300) have a minute gap and the gap is filled with the fluid. The fluid will be lubricant. When the ground on which the connection part is located is tilted by an earthquake, the body 200 connected to the ground may have a slope such as the ground surface, so that the connection part 400 may be inclined. The groove 210 of the body 200 and the horizontal axis are present to prevent inclination. That is, the groove 210 of the body 200 is a hemispherical groove 210, and a hemispherical horizontal weight 300 is inserted into the groove 210 so that even when the body 200 is inclined, 300 may rotate in the groove 210 of the body 200 to maintain the upper surface of the horizontal weight 300 parallel to the horizontal plane. Of course, in order to perform such an operation, it is necessary to place the center of gravity in the lower central portion of the horizontal weight 300, such as to place the center of gravity in the lower central portion of the dowel so as to maintain the upright stopping operation will be. For this purpose, a material having a high specific gravity may be included in the central portion of the lower portion of the horizontal weight 300. The connection unit 400 connected to the upper part of the horizontal weight 300 through the construction and operation of the horizontal weight 300 can maintain the horizontal even if a ground inclination occurs due to the occurrence of an earthquake.

Here, the upper side of the horizontal weight 300 and the lower side of the connection unit 400 may be connected by the second elastic means 310. This is to reduce the primary vibration transmission by the first resilient means 220 and secondarily reduce the vibration transmission again by the second resilient means 310. The second elastic means 310 is a means for connecting the horizontal weight 300 and the connection unit 400, and may be a compression spring. The first elastic means 220 can also be a compression spring, which is the same with the third elastic means 510. However, the third elastic means 510 may be a compression spring having a lower elastic force than the first elastic means 220 and the second elastic means 310. This is because the first elastic means 220 is a component for reducing the transmission of vibrations while supporting the loads of the power distribution board, the horizontal shaft and the body 200, and the second elastic means 310 is a member for supporting the load The third elastic means 510 serves as an auxiliary member for maintaining the level of the power distribution board as described below, Because it does not.

The connection unit 400 is used between the solar cell module and the inverter to connect the direct current power generated from the solar cell module in series or in parallel to collect power required by the system, To protect the inverter and to prevent and protect against collision between modules. Which can have the same function and structure as the connection panel 400 of a conventional solar power generating facility. In this connection, in the present invention, the connection unit 400 includes an input unit for outputting a DC voltage generated from sunlight in a serial connection manner, an output unit connected in series to the input unit and outputting a DC voltage output from the input unit to the inverter And a controller for detecting and monitoring a current value and a voltage value to be output. However, it may further include an individual current measuring device capable of measuring individual currents and voltages in addition to the ordinary connecting part 400. As shown in FIGS. 1 to 3, the internal structure of the connection unit 400 having the separate voltage measurement device will be described. The electric wire 120 extending from the condenser 130 is connected to the positive polarity lines 120-1 and 120-2. The polarity line 120-1 is connected to the fuse breaker 60 and the polarity line 120-2 is connected to the heat sink 100. The heat sink 100 is connected to the connection panel 400 through the polarity line 120-2.

The fuse breaker (60) is a device that cuts off the current when the current balance between the polarity of the current flowing through the neutral line and the neutral pole is broken. If the balance of the current flow due to overload is broken, the current is blocked to prevent the electric shock and fire have.

The heat radiating plate 100 is made of aluminum and has a corrugated duct structure to smoothly discharge the heat generated in the polar line and circulate the cold air outside the connection plate 400. The bakelite 80 is a kind of phenolic synthetic resin and is a typical example of a thermosetting resin. It is used as an electric appliance, an insulator, etc., and can be called an electric insulator. And the negative pole 120-2, which is connected to the top of the bakelite 80, is connected to the diode 90 to help the current flow in the forward direction.

As described above, the positive polar line 120-1 connected to the fuse breaker 60 and the negative polar line 120-2 connected to the diode 90 are connected to the ammeter 30, The number of which is arranged and connected to each other. That is, the positive polarity line 120-1 and the negative polarity line 120-2 extending from the first one of the light collecting plates 130 are connected to the connection panel 400, the positive polarity line 120-1 is connected to the fuse breaker 60, And the polarity line 120-2 is connected to the negative pole of the ammeter 30 through the diode 90. The negative polarity line 120-2 is connected to the positive pole of the ammeter 30, Respectively.

In the present invention, unlike the connection unit 400 of the solar power generation system, which normally controls the voltages of all the condenser plates with only one ampere meter, the amperemeter 30 is connected to the condenser plates 130, You will be able to view and manage your own status.

Subsequently, a shunt 70 is connected to the upper end of the polarity line 120-2. The shunt 70 is connected to two circuit circuits in parallel, that is, And the opposite side of the breaker is connected to the bolt meter 20 via an easly movable sheave 50, which is often used to move large currents.

In addition, the connection unit 400 must be provided with an inlet for the electric wire connected to the solar cell module. The electric wire and the electric wire are rubbed by the vibration due to vibration at the time of earthquake, Of the population. To prevent this danger, you can place additional buffers. The inlet typically forms a protrusion to protrude around the inlet to prevent intrusion of rainwater or the like, and a 'U' shaped cushion may be formed to enclose the protrusion. The cushioning portion may be made of an elastic material such as rubber, and the inner side of the cushioning portion and the protruding portion may be connected with an elastic member. The friction between the outside of the buffer and the electric wire can be reduced through the buffer.

The frame 500 plays an auxiliary role in maintaining the connection unit 400 in a horizontal position. The frame 500 is connected to the connection unit 400 via the third elastic means 510 to help the connection unit 400 maintain the horizontal state together with the horizontal weight 300. The frame 500 may be formed vertically at the corner of the body 200, such as a column, or may be formed to connect the column and the column like a wall. When formed like a wall, the frame 500 will be excellent for defending against external invasion.

The frame 500 is vertically connected to the upper side of the upper surface of the body 200 and is located outside the connection unit 400 and the frame 500 and the connection unit 400 are connected to the third elastic means 510 (the third resilient means 510 may utilize a compression spring that is less elastic than the first and second resilient means 310) to help keep the connection panel 400 horizontal do. That is, the connection unit 400 is connected to the upper part of the horizontal weight 300, and the lower part of the horizontal weight 300 is in spherical contact with the body 200, Due to the spherical contact of the weight 300 and the body 200, the flow like dirt can be severe. A compression spring having a weak elastic force in all directions may be provided to connect the frame 500 and the contact plate so as to control the flow appropriately and to maintain the horizontal position.

The roof 520 is connected to the upper end of the frame 500 to prevent the rain from being applied to the connection panel 400. In addition to the outer case of the connection panel 400, And so on. The roof 520 may be provided horizontally or may have an inclined surface.

In the connection panel having an earthquake-proof function according to an embodiment of the present invention, a seismic wave can be divided into a P wave and an S wave. The P wave is a longitudinal wave, the vibration direction of the material is parallel to the wave propagation direction, Wave is a transverse wave, and the vibration direction of the material is perpendicular to the traveling direction of the wave, and the amplitude is relatively large. The present invention minimizes the influence of the seismic wave on the connection panel in response to the vertical motion and the horizontal movement of the ground due to such a seismic wave so as to prevent the occurrence of a secondary accident due to a short- In the case of a switchboard or a connection panel having a common earthquake-proofing function, it is designed to cope with horizontal and vertical vibrations. However, the present invention can not cope with fluctuations of the ground due to an earthquake. It is possible to maintain the horizontal state of the connection panel by the horizontal weight, and it is possible to prevent the unstable power supply due to the occurrence of an earthquake and the fire caused by a short circuit or the like.

The present invention may be embodied in many other specific forms without departing from the spirit or essential characteristics and scope of the invention.

20: volt meter 30: amperage meter
40: breaker 50:
60: Fuse breaker 70: Shunt
80: Bakelite 90: Diode
100: heat sink 110: surge
120: wire 120-1: + polarity
120-2: - polar line 130: condenser plate
140: Air vent
200: body 210: hemispherical groove
220: first elastic means 300: horizontal weight
310: second elastic means 400: connection half
500: frame 510: third elastic means
520: Roof

Claims (3)

A body 200 having hemispherical grooves 210 formed at an upper central portion thereof and having a lower portion connected to the ground;
A hemispherical horizontal weight 300 corresponding to the upper groove 210 of the body 200; And
And a connection panel 400 connected to the upper surface of the horizontal weight 300 ,
The lower outer side of the body 200 and the ground are connected by a first elastic means 220,
The upper portion of the upper part of the horizontal weight 300 and the lower portion of the connection unit 400 are connected by the second elastic means 310,
The body (200) and the horizontal weight (300) have a minute gap, the gap is filled with lubricating oil,
(400) having an earthquake-resistant function, characterized in that a center of gravity is placed in the lower central portion of the horizontal weight (300 ). delete The method according to claim 1 ,
A frame 500 vertically connected to a top surface of the body 200;
A third elastic means 510 connecting the frame 500 and the connection unit 400; And
, And a roof (520) connected to the upper end of the frame (500).

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