KR101413108B1 - Street light - Google Patents

Abstract

The present invention relates to a street light and, more specifically, to a street light capable of forming a storage battery appropriate for the generation capacity of a solar panel installed in the street light by inserting cells individually and forming storage units. To that end, the present invention includes: a pillar; a solar panel which is installed at one side of the top of the pillar, collects solar light, and generates power; and a storage battery which is installed inside the pillar to store the power generated by the solar panel. In the storage battery, a plurality of storage units is connected to each other through circuits. Each storage unit includes: unit cells; a cell case which includes an opening on the top for the cells to be inserted and a vertical arrangement space for the cells inserted through the opening to be arranged in a line inside; connection terminal units which are installed at both sides inside the cell case separately in the longitudinal direction and are connected to both terminals of the cells; an elasticity bunch which is installed inside the cell case to be elastically movable by an elastic spring and pushes the cells inserted in the vertical arrangement space upwardly; and a latch projection which his formed at the edge of the top of the cell case and prevents the cells inserted in the vertical arrangement space from escaping through the opening.

Description

Streetlight {STREET LIGHT}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a streetlight, and more particularly, to a streetlight capable of forming a power storage unit by inserting cells individually, thereby forming a battery suitable for generating capacity of a solar panel installed in the streetlight.

Generally, a solar cell street lamp does not use general commercial power source, but converts solar energy into electric energy by using solar cell during daytime and stores it, and when the street light is lit at night, electric energy stored in the daytime is used A streetlight that is configured to perform lighting.

1 is a view showing an embodiment of a conventional solar cell streetlight having the above-described functions.

The solar cell streetlight of the prior art is provided with a solar cell plate 2 on which solar cell cells are arranged in an upper part of the column 1 and an illumination lamp 5 for night illumination in the lower part of the solar cell plate 2 A storage battery 3 installed on the ground or in the ground at the bottom of the column 1 for storing electric energy generated in the solar panel 2 and a storage battery 3 for storing electric energy generated in the solar panel 2 during the day, The control unit 4 controls the driving of the solar panel 2 such that the energy stored in the storage battery 3 is stably controlled and supplied to the street lamp 5 at night, ) Is installed.

However, since the conventional solar cell streetlight as described above requires a large installation area on the ground when the storage battery 3 is installed on the ground, the installation space is wasted, thereby reducing the passage space of the pedestrian etc. Of course, it causes problems caused by obstacles in walking.

In order to solve this problem, a battery was installed in a way that a battery was built in a street lamp post. As the battery built-in type street lamp, there are disclosed a utility model registration No. 0449424, a patent publication No. 2011-0029868, a patent registration No. 1024014, a patent registration No. 0900032 and the like.

In the above conventional techniques, a door is provided to form a hole in the strut with a size corresponding to the size of the battery for installing and replacing the battery in the strut, and then closing the hole.

Conventionally, a battery is manufactured by assembling a plurality of unit cells together by means of spot welding to connection terminals connected to a circuit, and the battery is integrally manufactured. In this case, when the power generation capacity is adjusted, one or more batteries It is impossible to design a battery having various power generating capacities. In the case of a failure in the battery, the maintenance cost is increased due to the problem that the whole battery must be replaced.

In addition, in the conventional techniques, the size of the hole formed in the support is inevitably increased, so that the strength of the support is lowered.

Patent Document 1: Registration No. 0900032 (2009.05.22, lamp built-in type street lamp) Patent Document 2: Registered Patent Publication No. 1024014 (2011.03.15, solar cell street lamp housing a storage battery in the upper part of a supporting stand) Patent Document 3: Japanese Laid-Open Patent Publication No. 2011-0029868 (March 23, 2011, hybrid street light with built-in battery and controller)

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a solar battery module capable of adjusting a capacity of a cell, Since only the cell is inserted or removed, the size of the inserting portion can be made small, thereby ensuring the stability of the pillar. Moreover, when the cell is defective, replacement is easy, and only the corresponding cell and the power storage unit in which the cell is inserted are replaced The present invention provides a streetlight which can reduce the maintenance cost, can form the outer plate of wood or heat insulating material, and can keep the battery warm while allowing the appearance of the battery to be maintained, thereby extending the service life.

According to an aspect of the present invention, there is provided a solar cell module including a strut, a solar panel installed on one side of the strut and collecting sunlight to produce electric power, A plurality of power storage units are connected to each other in a circuit, and the power storage unit includes a unit cell, and an opening is formed on the upper side so as to insert the cell, and the opening A connection terminal portion provided on both sides of the inside of the cell case and connected to both terminals of the cell, the connection terminal portion being disposed along the lengthwise direction of the cell case; And an elastic spring which is installed on the inner side to be elastically moved upwards and pushes the cell inserted in the vertical arrangement space upward Including the bundle, and a catching projection that is formed so that the upper edge of the cell case is inserted in the cell vertically arranged spaces get out through the opening characterized in that configured.

And the upper support is provided on the upper side of the lower support with an outer diameter smaller than that of the lower support, and the upper support is provided on the upper side with the solar panel and the luminaire. do.

The lower ground support may include a support frame made of a rectangular parallelepiped frame, a support plate provided inside the lower part of the support frame for installing the battery, and an outer plate coupled to four sides of the support frame, .

And an insulating plate formed of any one of wood, synthetic wood, and heat insulating material is coupled to the outer surface of the outer plate.

One or more strut reinforcing plates are formed on the inside of the upper part of the strut frame so as to support the lower end of the upper strut and to engage with the lower outer circumferential surface of the upper strut, .

And the outer plate is formed with a cell insertion portion cut at a position corresponding to a position where the opening is formed to insert the cell into the opening of the cell case.

And a near infrared ray lamp is installed so as to increase the temperature of the internal space by irradiating light when the temperature measured by the temperature sensor is lower than the set temperature.

The temperature of the internal space is lowered when the temperature measured by the temperature sensor is equal to or higher than the set temperature and when the temperature measured by the temperature sensor is lower than the set temperature, And a thermoelectric element is provided to raise the temperature of the space.

According to the streetlight having the above-described structure, it is possible to easily adjust the storage capacity by adjusting the number of cells, and when replacing the battery, it is possible to replace only a cell without inserting or removing a battery of a considerable size, It is possible to remarkably improve the stability of the support as compared with the prior art, and it is easy to handle, so that it can be easily replaced even by a non-specialist. In case of failure, only the corresponding cell or the power storage unit is replaced, There is no need to manufacture a battery through a process of connecting a plurality of cells in a serial / parallel manner as in the prior art, thereby significantly reducing cost and operation time.

1 is a view showing a conventional solar cell streetlight,
2 is a perspective view of a streetlight according to the present invention,
FIG. 3 is a view showing an installation state of the battery in FIG. 2,
4 is a perspective view showing a battery in a streetlight according to the present invention,
FIG. 5 is a perspective view showing a power storage unit constituting a battery in FIG. 4,
FIG. 6 is a perspective view of a part of the cell case of FIG. 5,
FIG. 7 is a state in which cells are vertically arranged by inserting cells one by one through the opening of the cell case in FIG. 5,
FIG. 8 is an exploded perspective view showing the installation structure of a strut in a streetlight according to the present invention,
FIG. 9 is a cross-sectional view of a strut in a state where a battery is installed in a streetlight according to the present invention,
10 is a view showing a state where a temperature sensor and a near-infrared lamp are installed in a streetlight according to the present invention,
11 is a state in which a temperature sensor and a thermoelectric element are installed in a streetlight according to the present invention.

Hereinafter, a streetlight according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a perspective view of a streetlight according to the present invention, FIG. 3 is an installation view of the battery in FIG. 2, FIG. 4 is a perspective view showing a battery in the streetlight according to the present invention, FIG. 6 is a perspective view of a portion of the cell case of FIG. 5, and FIG. 7 is a view of the cells vertically arranged by inserting cells one by one through the opening of the cell case in FIG. FIG. 9 is a cross-sectional view of a strut in a state where a battery is installed in a streetlight according to the present invention. FIG.

As shown in the figure, a street light according to an embodiment of the present invention stores electricity generated during a day in a storage battery 300 and uses the lamp to light a lamp, for example, an LED lamp at night will be.

To this end, a power generating means is installed in the street lamp. The solar panel 200 is installed as the power generating means, and the lamp 250 of the street lamp is turned on with the generated power by condensing the sunlight in the daytime.

The street lamp of the present invention includes a strut 100 provided with a lamp 250 at the upper part thereof, a solar panel 200 installed at one side of the upper part of the strut 100 and generating power by collecting sunlight, And a battery 300 installed inside the strut 100 to store electric power generated by the battery 200.

Here, the battery 300 stores electric energy produced by the solar panel 200, and the battery of the present invention is not simply formed by combining unit cells, but by inserting each unit cell one by one A power storage unit is formed, and a plurality of power storage units are connected to form a battery.

The battery 300 of the present invention is preferably installed in the strut 100. However, depending on the installation location and environment, a separate case may be installed on one side of the lower part of the support, and the solar cell 200 ) To be connected to the wire.

The power storage unit 305 includes a unit cell 310, a cell case 320 in which the cell 310 is inserted, and a plurality of power storage units 305, A connecting terminal portion 330, an elastic bundle 340, and a latching jaw 350. [

The power storage unit constructed as described above is installed in a lower support 110 to be described later. In order to install a plurality of power storage units, a door (not shown) is formed in the lower support 110, The battery can be installed in such a manner that the battery is installed in a manner that the door is coupled to the stanchion after the stator is installed inside the stanchion, or the stan- dard is accommodated in the initial lower stanchion fabrication.

In the accompanying drawings, a battery is provided to accommodate a battery when the first lower support is manufactured.

At this time, replacement of the storage battery may occur. In the present invention, the storage battery 305 in which the corresponding cell and the corresponding cell are accommodated is replaced without replacing the entire storage battery. In the present invention, a cell insertion part 140 is formed in the lower support 110, and the cell can be taken out and replaced through the cell insertion part 140.

In the case of replacing the power storage unit 305, although not shown, a hole corresponding to the size of the power storage unit 305 is formed in the lower support and the hole is fixed with a separate cover, It can be done.

As shown in FIG. 5, the cell 310 is formed in a cylindrical shape, and each cell 310 is accommodated in the cell case 320.

The cell case 320 is formed with an opening 322 on the upper side for inserting the cell 310 and a vertically arranged space 324 such that the cells 310 inserted through the opening 322 are aligned in a row. Is formed. The vertical arrangement space 324 should be formed within 1.5 times the size of the cell so that the cells are arranged in a line.

The cell case 320 may be formed, for example, as a rectangular barrel having an opened top.

The connection terminal portions 330 are installed on both sides of the cell case 320 along the longitudinal direction. The connection terminal portions 330 are connected to both terminals of the cell in a state where the cells 310 are inserted.

The connection terminal portion 330 is formed with an electrode 332 protruding in the longitudinal direction so as to be connected to the terminal of the cell 310. The electrode connected to one side of the cell 310 is an anode, And the electrode connected to the other side of the electrode is a cathode.

The elastic bundle 340 is installed inside the cell case 320 so as to be elastically moved upwards by an elastic spring 342. The elastic bundle 340 extends upwardly from the cell 310 inserted in the vertical arrangement space 324, I will push it.

Therefore, regardless of the number of cells, the cell located at the uppermost position is located in the vicinity of the opening 322, and the manager can facilitate the drawing operation of the cell.

The latching protrusion 350 is formed at the upper edge of the cell case 320 and the cell moved to the opening 322 of the cell case 320 by the elastic bundle 340 is removed through the opening 322 In order to allow the manager to hold one side of the cell and easily pull it out, the latching protrusion 350 is formed only on one side of the edge of the cell case 320.

The strut 100 of the present invention includes a lower strut 110 having an installation space 112 formed therein for installing the battery 300 and a lower strut 100 And an upper strut 120 provided on the upper side with the solar panel 200 and the lighting unit 250 installed thereon.

Here, the lower strut 110 may be formed in a hollow cylindrical shape or a quadrangular shape like a regular strut shape, and a battery may be installed inside the lower strut 110. In this case, a hole may be formed at a corresponding position of the lower support 110 to provide a cell insertion portion 140 to insert or withdraw a cell into or from the power storage unit.

Also, as shown in the accompanying drawings, the lower support 110 may be more firmly installed to enhance the stability of the support. The lower support 110 includes a support frame 114 formed of a rectangular parallelepiped frame and a support plate 116 provided inside the lower portion of the support frame 114 for installing the storage battery 300, And an outer plate 118 coupled to four sides of the inner space 114 to isolate the inner space 112 from the outside.

The lower strut 110 of the present invention can be made more rigid and less damaged than the conventional lower strut 110 formed by forming a skeleton with the strut frame 114 so as to form a cover for replacing the power storage unit Even if the size of the cover is increased, it is advantageous in that it is not greatly influenced by being formed on one side of four sides.

At this time, an outer plate is coupled to four sides of the strut frame 114, and a heat insulating plate 150 can be coupled to the outer side surfaces of the outer plates of the four sides. Preferably, the heat insulating plate 150 is coupled to at least two outer surfaces of the outer plate, and is formed of any one of wood, synthetic wood, and heat insulating material.

The reason for installing the heat insulating plate is to extend the life of the battery by inserting the inner space of the lower part in a cold weather such as winter. It is also designed to have an aesthetically pleasing appearance compared to simple aluminum or metal materials.

8, a strut coupling plate 130 is installed on the upper portion of the strut frame 114 to support the lower end of the upper strut 120, and the upper end of the strut coupling plate 130 One or more strut reinforcing plates 132 are formed so as to be spaced upward and to engage and engage the lower outer circumferential surface of the upper strut 120. [

The strut coupling plate 130 is provided for coupling and fixing the lower end of the upper strut 120 by welding or the like on the upper surface of the strut coupling plate 130. The strut reinforcing plate 132 is fixed to the upper strut 120 And reinforces the lower portion of the upper support 120 to prevent the upper support 120 from shaking.

The support plate 116 is provided for installing the battery 300 and may be formed as one end or two or three stages in the vertical direction so that the battery 300 is installed.

In the case of the two-stage or three-stage solar battery, the battery may be formed when the electric energy produced by the solar panel is large in capacity or when the inner space of the bottom plate is small.

At this time, a space is provided inside the lower strut 120 in which a controller (not shown) for controlling the luminaire is installed as well as electric energy control such as supplying power stored in the storage battery, that is, electric energy, .

8 and 9 of the accompanying drawings, a controller support plate 160 is formed on an upper portion of the lower plate to separately form a space above the battery 300, and the outer plate 118 is supported by the controller support plate 160 A controller management hole 165 is formed so that an administrator can check and control the controller installed from outside.

As shown in FIGS. 8 and 9, the outer plate 118 is formed by cutting the cell insertion portion 140. The cell insertion unit 140 is formed to insert or withdraw the cell 310 into the opening 322 of the cell case 320 and is formed at a position corresponding to the position where the opening 322 is formed will be.

The size of the cell insertion unit 140 is approximately 2 to 4 times as large as that of the cell 310.

The temperature of the internal space 112 of the lower support 110 may rise or fall during the summer or winter season to shorten or damage the life of the cell 310. To prevent this, ) Can be adjusted.

For example, when the temperature measured by the temperature sensor 400 is lower than the predetermined temperature, the light is irradiated to the inside of the internal space 112, The near infrared ray lamp 410 may be installed to increase the temperature of the near infrared ray lamp 410.

In another example, a temperature sensor 400 is installed in the lower support 110, and when the temperature measured by the temperature sensor 400 is higher than a predetermined temperature, the temperature of the internal space 112 is lowered The thermoelectric element 420 may be installed to raise the temperature of the internal space 112 when the temperature measured by the temperature sensor 400 is lower than the set temperature.

Although not shown in the accompanying drawings, the temperature sensor 400, the near-infrared ray lamp 410, and the thermoelectric element 420 are controlled by the controller.

According to the present invention configured as above, instead of assembling a plurality of unit cells in advance to form a rectangular or circular battery, cells are inserted into the cell case one by one to form a power storage unit, and a plurality of power storage units The battery can be easily manufactured according to the power generation capacity, and when the cell is defective, only the corresponding defective cell is replaced without replacing the entire battery, so that the maintenance cost can be drastically reduced.

In addition, in the conventional street lamp strut, a door is separately formed for the replacement of the battery, and is coupled to the strut. In order to pull in and out the battery having a relatively large area, about half of the strut is cut to form a hole, There is a problem in the stability of the cell, and breakage occurs due to the bending of the support when the external pressure acts such as wind pressure. However, since only the cell is replaced with the support of the present invention, It is sufficient that the support structure 140 is formed to secure the stability of the support, and since the frame is formed of the support frame without forming the support post as a simple pipe, and the outer plate is joined thereto, the support can be stably coped with when external pressure is generated.

100: column 110: lower column
112: installation space 114: holding frame
116: support plate 118: outer plate
120: upper support 130:
132: column reinforcing plate 140: cell insertion portion
150: insulation plate 160: controller plate
165: controller management hole 200: solar panel
250: Luminaire 300: Battery
305: power storage unit 310: cell
320: cell case 322: opening
324: vertical arrangement space 330: connection terminal portion
340: elastic bundle 342: elastic spring
350: hanging jaw 400: temperature sensor
410: near-infrared lamp 420: thermoelectric element

Claims (8)

A solar cell module comprising a strut (100), a solar panel (200) installed on one side of the upper part of the strut (100) and collecting sunlight to produce electric power, And a battery (300) installed in the vehicle,
The battery 300 includes a plurality of power storage units 305 connected in circuit,
The power storage unit 305 includes an axial dedicated unit cell 310 and an opening 322 formed on the upper side to insert the cell 310. Cells 310 inserted through the opening 322 are aligned And a connection terminal portion 320 connected to both terminals of the cell 310. The cell case 320 has a vertical arrangement space 324 formed therein so as to be aligned with the cell 310, And an elastic spring 342 disposed on the inner side of the cell case 320 so as to be elastically moved upwards to push the cell 310 inserted in the vertical arrangement space 324 upward, And an engagement protrusion 350 formed at an upper edge of the cell case 320 to prevent the cell 310 inserted in the vertical alignment space 324 from escaping through the opening 322,
The strut 100 includes a lower strut 110 having an installation space 112 formed therein for installing the battery 300 and a lower strut 110 having a smaller outer diameter than the lower strut 100 And an upper strut 120 installed above the solar panel 200 and the lamp 250,
The lower support 110 includes a support frame 114 formed of a rectangular parallelepiped frame and a support plate 116 provided inside the lower portion of the support frame 114 for installing the storage battery 300, And an outer plate 118 coupled to the four sides of the outer case 118 to isolate the inner installation space 112 from the outside. The outer case 118 is formed with an opening 322 of the cell case 320, (140) is formed at a position corresponding to a position where the opening (322) is formed so as to insert the cell insertion portion (310).
delete delete The method according to claim 1,
And a heat insulating plate (150) formed of one of wood, synthetic wood, and heat insulating material is coupled to the outer side of the outer plate (118).
The method according to claim 1,
A column coupling plate 130 is provided on an upper portion of the column frame 114 to support a lower end of the upper column 120. The upper column 120 is spaced apart from the upper side of the column coupling plate 130, , And one or more strut reinforcing plates (132) are formed to surround the lower outer circumferential surfaces of the strut reinforcing plates (132).
delete The method according to claim 1,
A temperature sensor 400 is installed in the lower support 110,
And a near infrared ray lamp (410) is installed to increase the temperature of the internal space (112) by irradiating light when the temperature measured by the temperature sensor (400) is lower than the set temperature.
The method according to claim 1,
A temperature sensor 400 is installed in the lower support 110,
When the temperature measured by the temperature sensor 400 is higher than the set temperature, the temperature of the internal space 112 is lowered. When the temperature measured by the temperature sensor 400 is lower than the set temperature, 112) of the thermoelectric element (420).

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