KR101971820B1 - Pole structure having hybrid functions based on green energy - Google Patents

Abstract

The present invention relates to a green energy-based hybrid function pole structure capable of using solar or wind energy, conveniently selecting and applying various functions such as a camera, a streetlight, a security lamp, a relay, an environment detection sensor, and the like depending on installation places and needs of an ordering person in regard to one base pole structure, and being in harmony with surroundings by having a nice design. According to the present invention, the hybrid function pole function includes: a base pole structure having a pole shape; an independent power generator formed in the base pole structure to generate and store power; multiple peripheral devices combined in a removable way with the base pole structure, and operated with the power provided from the independent power generator; a removable combination unit combining the peripheral devices in a removable way with the pole structure, and connecting the devices electrically; and a control module supplying power to the peripheral devices and controlling the devices.

Description

{POLE STRUCTURE HAVING HYBRID FUNCTIONS BASED ON GREEN ENERGY}

[0001] The present invention relates to a hybrid-type pole structure based on green energy, and more particularly to a hybrid pole structure using green energy, and more particularly, to a base pole structure using solar energy or wind energy, The present invention relates to a hybrid-function pole structure based on a green energy, which can be easily applied by selecting various functions such as a repeater, an environment detection sensor, and can be implemented with a beautiful design, thereby achieving harmony with the surrounding environment.

Street light refers to a lighting facility installed at a predetermined distance along the street to ensure the safety of street traffic and the prevention of crime against pedestrians.

Here, the term " road " is a concept including both a road for a vehicle and a path for a pedestrian.

In addition, the term "street lamp" refers only to illumination for illuminating the surroundings, but it is generally called a street lamp including a street lamp pole (hereinafter also referred to as a street pole) for fixing the illumination.

The conventional street light as described above is installed in various places such as a highway, a main road of a city area, a commercial district road, and a housing district road, and a street light of a suitable type is used. That is, a streetlight for illuminating the street may be provided on the road passing through a car or a person. As a light source of a conventional street light, a high-pressure mercury lamp, a fluorescent lamp, a sodium lamp, and an ordinary light bulb are used.

However, the conventional street light as described above is installed in various forms such as the Ghana amusement parks on the roads to help maintain the security for the traffic safety of the vehicle and the crime prevention of the pedestrians, but it also serves as an illumination facility for illuminating the street It is rarely used for other purposes.

In particular, conventional street lamps are facilities that are individually managed by a manager in the field, and there is a problem in that maintenance and maintenance by a manager are often inconvenient.

Therefore, there is a strong demand for the development of a multi-function streetlight that can be used as an illuminating facility for illuminating a street, as well as an interface for informative information delivery and communication means, .

In order to solve this problem, Korean Unexamined Patent Publication No. 10-2017-0095496 proposes to visually provide fine dust concentration in addition to providing a basic street light or a lighting function, but its function is very limited, The structure for imparting or imparting other functions must be composed of a separate structure, thereby increasing manufacturing costs and material costs.

(Document 1) Korean Patent Laid-Open Publication No. 10-2017-0095496 (published on Aug. 23, 2017) (Document 2) Korean Registered Patent No. 10-0836269 (Jun. 10, 2008) (Document 3) Registered Utility Model No. 20-0450218 (Registered on September 10, 2010) (Document 4) Korean Published Patent Application No. 10-2009-0108979 (published on October 19, 2009)

Therefore, in order to solve the above-described problems, according to the present invention, various functions such as a street light, a security light, a repeater, and an environment detection sensor can be selected and easily applied to one base pole structure depending on a customer's need or installation place The objective of the present invention is to provide a hybrid functional pole structure based on green energy.

In addition, the present invention can be applied to an inter-island area while having a function suitable for an installation area by using solar energy or wind energy, and it is possible to realize a beautiful design suitable for an environment, Hybrid function based on green energy Another purpose is to provide a pole structure.

The present invention has been made in view of the above problems, and it is an object of the present invention to provide an apparatus and method for controlling the same.

According to an aspect of the present invention, there is provided a pole-shaped base pole structure, An independent power generation unit configured to generate and store power in the base pole structure; A plurality of peripheral devices detachably coupled to the base pole structure and operated by receiving power from the independent power generation device; Detachment means configured to detachably couple and electrically connect the peripheral device to the base pole structure; And a control module for supplying and controlling power to the peripheral device.

In the present invention, the base pole structure includes a lower pole structure formed in a pole shape of a predetermined cross section, a plurality of extended support structures extending upwardly at an upper end of the lower pole structure and having a space therein, And an upper pole structure formed in the shape of a pole having a rectangular cross section coupled to each upper end of the extended support structure, wherein the extended support structure is formed in a rectangular cross-sectional shape extending upward from an upper end of the lower pole structure, And an LED lamp provided inside the plurality of extended support structures for receiving the electric power from the independent power generating device and being controlled by the control module, The optical module according to claim 1, further comprising an optical sensor W may be made to control the LED lamp.

In the present invention, the peripheral device may include a security light, a streetlight, a camera, a communication device, an environmental factor detection sensor, an earthquake sensor, an electronic weather vane, an anemometer, a speaker and a display device, And a terminal module that is electrically connected to an opposing surface between the base pole structure and the peripheral device.

In the present invention, the peripheral device may include a security light, a streetlight, a camera, a communication device, an environmental factor detection sensor, an earthquake sensor, an electronic weather vane, an anemometer, a speaker and a display device, A sliding engaging portion including a first sliding engaging groove formed at a plurality of portions of the upper surface in a downward direction in the longitudinal direction and a second sliding engaging groove formed at a central portion of the first sliding engaging groove and opened to the outside; A terminal protrusion formed on the bottom surface of the sliding engagement portion; A coupling bracket formed in a shape corresponding to a cross-sectional shape of the sliding coupling portion, the coupling bracket being coupled and fixed so that the peripheral device is electrically connected; A first connection terminal electrically connected to the control module and configured in the protrusion for the terminal; An engaging portion formed on a lower surface of the engaging bracket, the engaging portion being engaged with the protrusion for the terminal; And a second connection terminal electrically connected to the peripheral device and formed at a bottom portion of the fitting portion to be electrically connected to the first connection terminal when the coupling bracket is coupled to the sliding coupling portion have.

In the present invention, the control module may include a design factor setting unit in which a design factor value is set for each peripheral device to be applied; An automatic control execution unit configured to determine a peripheral device when each peripheral device is coupled to the base pole structure and to set the peripheral device to a value set by the design factor setting unit and to control the operation of the peripheral device; A malfunction detector configured to detect a malfunction including a short circuit or a short circuit in the circuit system of the first connection terminal; A power detector for detecting a power supplied to the peripheral device among the plurality of peripheral devices; And a storage amount detecting unit for detecting a storage amount of the storage battery for storing the power generated by the independent power generation apparatus.

In the present invention, the sliding unit may further include cover means for covering the sliding unit when the peripheral unit is not coupled to the sliding unit.

In the present invention, the cover means may include: a body portion having a sectional shape corresponding to a sectional shape of the sliding engagement portion; And a top cover portion extending outward from an upper end of the body portion and covering an upper portion of the sliding contact portion.

In the present invention, the cover means may further include an upper surface groove formed on the upper surface of the base pawl member adjacent to the upper end of the sliding engagement portion.

In the present invention, the upper surface concave portion is formed in a cross-sectional shape of a right triangle, and the upper end of the oblique surface is positioned on the inner side and the lower side of the oblique surface is located on the outer side. And a lower surface of the upper cover may have a coupling portion having a cross-sectional shape corresponding to a cross-sectional shape of the upper surface concave portion.

According to the green energy-based hybrid functional pole structure according to the present invention, various functions such as a street light, a security light, a camera, a repeater, and an environmental detection sensor can be easily selected for one base pole structure It is possible to reduce production cost and material cost as compared with individual structures.

In addition, the present invention has an effect that it can be suitably applied to an inter-island area while having a function suitable for an installation area by using solar energy or wind energy.

In addition, the present invention can realize a beautiful design suitable for the environment, so that it can be harmonized with the surrounding environment, so that it is possible to have higher product competitiveness.

The effects of the present invention are not limited to those mentioned above, and other solutions not mentioned may be clearly understood by those skilled in the art from the following description.

1 is a view showing a configuration of an embodiment of a green functional energy-based hybrid functional pole structure according to the present invention.
FIG. 2 is a side view of an embodiment of a hybrid-functional pole structure based on green energy according to the present invention.
FIG. 3 is a plan view of a green energy-based hybrid functional pole structure according to an embodiment of the present invention.
FIG. 4 is an exploded view showing components constituting an embodiment of a green functional energy-based hybrid functional pole structure according to the present invention.
Fig. 5 is an enlarged view of a portion of Fig. 4. Fig.
FIG. 6 is a side view partially showing a state where one component constituting an embodiment of a hybrid functional pole structure based on green energy according to the present invention is combined.
FIG. 7 is another side view showing a state where one component constituting an embodiment of a green functional energy-based hybrid functional pole structure according to the present invention is combined.
Fig. 8 is a side view showing a back side of one component constituting an embodiment of a green functional energy-based hybrid functional pole structure according to the present invention.
Fig. 9 is another side view showing a back side of one component constituting an embodiment of a green-energy-based hybrid functional pole structure according to the present invention.
FIG. 10 is a block diagram showing internal components of a hybrid-type functional pole structure based on green energy according to the present invention.

Further objects, features and advantages of the present invention will become more apparent from the following detailed description and the accompanying drawings.

Before describing the present invention in detail, it is to be understood that the present invention is capable of various modifications and various embodiments, and the examples described below and illustrated in the drawings are intended to limit the invention to specific embodiments It is to be understood that the invention includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

It is to be understood that when an element is referred to as being "connected" or "connected" to another element, it may be directly connected or connected to the other element, . On the other hand, when an element is referred to as being "directly connected" or "directly connected" to another element, it should be understood that there are no other elements in between.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The singular expressions include plural expressions unless the context clearly dictates otherwise. In this specification, the terms "comprises" or "having" and the like refer to the presence of stated features, integers, steps, operations, elements, components, or combinations thereof, But do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or combinations thereof.

Also, the terms " part, " " unit, " " module, " and the like, which are described in the specification, refer to a unit for processing at least one function or operation, Software. ≪ / RTI >

In the following description of the present invention with reference to the accompanying drawings, the same components are denoted by the same reference numerals regardless of the reference numerals, and redundant explanations thereof will be omitted. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

The hybrid-function pole structure based on green energy according to the present invention is provided with power sources from green energy such as solar energy and / or wind energy, and has various functions such as security, street light, repeater, environment detection sensor module, It is possible to selectively construct a single pole structure by simply assembling it.

In addition, the hybrid-function pole structure based on green energy according to the present invention can provide a beautiful appearance because it is possible to construct an LED, which is attractive to a pole structure when applied to a park such as an urban center, It is also possible to contribute to prevention of crime damage due to environmental factors that can be done and are beautiful.

Hereinafter, a green energy-based hybrid functional pole structure according to a preferred embodiment of the present invention will be described in detail with reference to FIGS. 1 to 10. FIG. FIG. 1 is a view showing a configuration of an embodiment of a hybrid-type functional pole structure based on a green energy according to the present invention, FIG. 2 is a view from one side of an embodiment of a hybrid-functional pole structure based on green energy according to the present invention to be. FIG. 3 is a plan view of a green energy-based hybrid functional pole structure according to an embodiment of the present invention. FIG. 4 is a cross- Fig. 5 is an enlarged view of a part of Fig. 4. Fig. 6 is a side view partially showing a state where one component constituting an embodiment of a hybrid-functional pole structure based on green energy according to the present invention is coupled. FIG. 7 is a cross- FIG. 8 is a side view showing a state in which one component constituting an embodiment of the pole structure is engaged. FIG. 8 is a side view of a component constituting an embodiment of a green energy based hybrid functional pole structure according to the present invention. Fig. 9 is a side view showing one side of a component constituting an embodiment of a hybrid-functional pole structure based on green energy according to the present invention, and Fig. 10 is a view showing a side of a green energy base FIG. 2 is a block diagram showing the internal components of the hybrid structure.

1 to 10, a green pole-based hybrid pole structure according to the present invention includes a pole-shaped base pole structure 100 having a predetermined length; An independent power generator 200 configured to generate and store power in the base pole structure 100; A plurality of peripheral devices 300 detachably connected to the base pole structure 100 and operated by receiving power from the independent power generating device 200; Detachment means configured to detachably couple and electrically connect the plurality of peripheral devices (300) to the base pole structure (100); And a control module (400) for supplying and controlling power to the plurality of peripheral devices (300).

The base pole structure 100 basically has a space therein and is formed in a pole shape having a rectangular cross section.

Specifically, the base pole structure 100 includes a lower pole structure 110 formed in a pole shape having a predetermined cross section, and a lower pole structure 110 extending upwardly from the upper end of the lower pole structure 110 and having a space therein A plurality of elongate support structures 120 and an upper pole structure 130 formed in the shape of a pole having a square cross section coupled to each upper end of the elongated support structure 120.

Although the lower pole structure 110 is shown in the form of a pole having a rectangular cross section in the drawing, the lower pole structure 110 is not limited thereto and may have various cross-sectional shapes such as various circular shapes and polygons.

The lower pole structure 110 is provided with a battery and a control module 400 of the independent power generation device 200 to be described in detail below, and an opening / closing door (not shown) for maintenance and repair thereof is formed. Of course, the battery and control module 400 may be provided in the upper pole structure 130, and in this case, an opening / closing door (not shown) for maintenance is formed in the upper pole structure 130.

The extended support structure 120 may be formed in a rectangular cross-sectional shape extending upwardly from the corner of the upper end of the lower pole structure 110. The extended support structure 120 serves as a path for guiding the battery of the independent power generation device 200 and the electric wires (power lines, electric cables, etc.) of the control module 400 to the lower pole structure 110.

The independent power generating apparatus 200 is provided in at least one of the renewable energy generating devices 210 and 220 of the wind power generating means 210 and / or the solar generating means 220 and the base pole structure 100, And a battery 230 for storing power generated by the renewable energy generators 210 and 220 and supplying power to the plurality of peripheral devices 300.

The regenerative energy generators 210 and 220 preferably include both the wind generator 210 and the solar generator 220 as shown in the figure for stable power supply. In addition to the wind power generation means 210 and the solar power generation means 220, the renewed energy generation devices 210 and 220 generate electric power by using natural energy such as pressure generation, hydroelectric generation or hydrogen generation, And is not particularly limited as long as it is an apparatus capable of supplying power to the peripheral device 300.

Of course, when the control module 400 determines that the power generated by the renewable energy generators 210 and 220 is insufficient as the required power of the peripheral device (s), the hybrid function pole structure of the present invention will be described later. And can be configured and controlled to use power.

The wind power generation means 210 and the solar power generation means 220 may adopt known ones, and a detailed description thereof will be omitted for the sake of clarity and simplicity.

The plurality of peripheral devices 300 receiving power from the independent power generating device 200 may be a security device such as a security lamp, a streetlight, a CCTV, a communication repeater, a Wi-Fi repeater, An earthquake detector, an electronic weather vane, an anemometer, a speaker, and a display device.

Here, the environmental factor detection sensor includes, for example, an air pollution detection sensor (such as yellow sand or fine dust), an ozone sensor, and the like.

The detachable coupling means is configured to slidably engage the peripheral device 300 from the upper side to the lower side of the base pole structure 100. The upper end portion of the base pole structure 100 A sliding coupling portion formed in a slot shape formed at a front end of the upper pole structure 130 of the base pole structure 100 and an upper end of the upper pole structure 130 of the base pole structure 100, A coupling bracket electrically and circuitly coupled to the coupling bracket 300, and a terminal portion formed between the coupling portion and the coupling bracket to electrically and circuitly connect the coupling portion and the coupling bracket.

Specifically, as shown in the figure, the detachable coupling means includes a first sliding engagement groove 510 formed in a downward direction in the longitudinal direction from a plurality of portions of the upper surface of the base pole structure 100, A first sliding engagement portion 510 and a second sliding engagement portion 510 formed at a central portion of the groove 510 and including second sliding engagement grooves 510 and 520 opened to the outside, A terminal protrusion 530 protruding from a bottom surface of the groove 520 and a shape corresponding to a sectional shape of the first and second sliding grooves 510 and 520, A first connection terminal 550 electrically connected to the control module 400 and configured in the protrusion 530 for the terminal, a connection bracket 540 coupled to the device 300 to be electrically connected thereto, , And is formed on the lower surface of the coupling bracket 540, And a coupling bracket 540 which is electrically connected to the peripheral device 300 and is connected to the first and second sliding coupling grooves 510 and 520. [ And a second connection terminal 570 formed at the bottom of the fitting portion 560 so as to be electrically connected to the first connection terminal 550 when the first connection terminal 550 is coupled.

In this case, the bottom surface of the second sliding engagement groove 520 may be formed in multiple steps so as to extend the coupling area with the engagement bracket 540, so that the lower end portion of the engagement bracket 540 Can be formed correspondingly. In the drawing, the second sliding engagement groove 520 is formed to be bent in two stages.

One or more stable engagement projections 521 are formed on one of the first and second sliding engagement grooves 510 and 520 and the lower surface of the engagement bracket 540 and the first and second sliding engagement grooves 510 520 and the lower surface of the coupling bracket 540 may have one or more stable coupling recesses complementary to the stable coupling protrusions 521. In the figure, the stable engagement protrusions 521 are formed in the second sliding engagement groove 520 and the engagement brackets 540 are formed in corresponding positions.

The first connection terminal 550 is composed of a plurality of terminals, the terminals of the first connection terminal 550 are configured to be separated from each other, and the fitting portion 560 is configured to separate a plurality of terminals constituting the second connection terminal 570 A partition wall can be formed (see Fig. 9).

Next, the connection bracket 540 is provided with a connection port to which a connection cable drawn out from the peripheral device 300 is connected when the peripheral device 300 is fixedly coupled to the connection bracket 540, 2 connection terminal 570. [0050]

In addition, the present invention is characterized in that the upper ends of the sliding engagement portions (510, 520) including the first and second sliding engagement grooves are stepped, and the stepped upper side inclined step surface and / It can be formed to be inclined downward.

Here, it is preferable that an excellent discharge path in the form of a concave groove is formed on the upper sloping stepped surface and / or the both sloping places of the lower sloping floor formed inclinedly.

Accordingly, when the rainwater penetrates through the clearance between the sliding joints 510 and 520 and the coupling bracket 540 or condensation occurs, the rainwater can be easily moved outwardly along the lower side bottom surface and / or the upper side step surface, And the rain or condensation flowing down along both side walls before that can be discharged directly to the outside.

When the predetermined peripheral device 300 is not coupled to the sliding mating parts 510 and 520 including the first and second sliding mating grooves 300 to which the peripheral device 300 is not coupled, 510, and 520, respectively.

The cover means may include an upper surface recessed portion formed on an upper surface of the base pawl member 100 adjacent to an upper end of the sliding engagement portions 510 and 520 and an upper surface recessed portion formed by the first and second sliding engagement grooves A body portion having a sectional shape corresponding to a sectional shape of the sliding engagement portion and a top cover portion extending outward from an upper end of the body portion and having a coupling protrusion coupled to the upper surface recessed portion. Here, the engaging projections of the top cover portion may be omitted.

Here, the upper surface concave portion is formed in a cross-sectional shape of a right triangle, and the upper end of the oblique surface is positioned on the inner side and the lower side of the oblique surface is positioned on the outer side. As the symmetry line, It can be made to have a downward sloping gradient.

When the coupling bracket 200 having a predetermined peripheral device is not coupled to the sliding coupling portions 510 and 520 including the first and second sliding coupling grooves, The cover means is coupled to the terminals 510 and 520, thereby maintaining a beautiful appearance due to the appearance finish, and protecting the terminal portion from penetration such as rain or condensation.

Next, the control module 400 includes a design factor setting unit 410 in which a design factor value (required power, etc.) for each peripheral device 300 to be applied is set to a default, When it is coupled to the sliding coupling parts 510 and 520 of the base pole structure 100, the peripheral device is determined and set to the value set in the design parameter setting part 410 to control the operation of the peripheral device A malfunction detection unit 430 for detecting a malfunction including a short circuit or a short circuit and a second malfunction detection unit 430 provided in the circuit system of the first connection terminal 550, A power detector 440 for detecting power supplied to the battery 230, and a power storage unit 450 for detecting the amount of power stored in the battery 230.

The present invention also includes a cartridge-type spare battery connectable to a power supply system that supplies power to each peripheral device 300 and / or a spare power connection (not shown) controlled by the control module 400 to switch external power supplied The control module (400) further includes switching means (configured such that the power from the spare battery and / or the power meter of the power network is connected to the control module in a switching structure) And a spare power supply switching unit 460 for controlling the spare power connection switching unit to supply the power and / or the constant power of the spare battery based on the detection value of the detecting unit 450. [

The hybrid functional pole structure of the present invention is provided inside a plurality of extended support structures 120 of the base pole structure 100 and is supplied with electric power from the independent power generating device 200, (Not shown).

The hybrid function pole structure of the present invention, which is further provided with the LED lighting lamp (600), can be installed in a park, a resort area, a city street light, or the like to provide a beautiful and delicate light to improve a cityscape, It can also help prevent crime damage.

In the present invention, when the light emitting device is included as the peripheral device 200 including the LED lighting lamp 600, the base pole structure 100 is provided with an optical sensor for detecting brightness, and the control module 400 May be configured to control the LED illumination lamp 600 and the light emitting device on / off based on the detection signal of the optical sensor.

In addition, the hybrid functional pole structure of the present invention may further include a bench member (not shown) formed on a lower portion of the base pole structure 100 (i.e., the lower pole structure 110) A charging port (not shown) for a portable device connected to the battery 230 may be further provided on one side of the lower portion of the lower pole structure 100 (i.e., the lower pole structure 110) or on one side of the bench member.

Meanwhile, the hybrid functional pole structure according to the present invention further includes a communication module, which transmits a detection signal detected by each peripheral device 300 and a detection signal detected by a detection unit of the control module 400 to a central control server at a remote location, To be used for maintenance and repair.

Such a central control server can periodically receive and store data and utilize it as data for constructing a facility at a subsequent similar application point (for example, optimization of a hybrid pole structure through power generation type, required power prediction design, etc.) .

The hybrid function pole structure according to the present invention as described above can modulate or unify a coupling structure for a plurality of peripheral devices applicable to one base pole structure without separately fabricating pole structures dedicated to specific peripheral devices, It is possible to provide only the peripheral device if necessary, and optionally, additional peripheral devices can be easily combined with the peripheral device to provide a plurality of functions as a single pole structure.

For example, the hybrid-function pole structure according to the present invention basically provides a function of an illumination lamp or a street lamp to one pole structure, and when necessary, a communication module such as a security camera and a communication repeater or a Wi- Can be added.

As described above, according to the hybrid-type functional pole structure based on green energy of the present invention, various functions such as a street light, a security light, a repeater, and an environment detection sensor are selected for one base pole structure It is advantageous in that the production cost and the material cost can be reduced as compared with the individual structures.

In addition, the present invention can be applied to an inter-island area while having a function suitable for an installation area by using solar energy or wind energy, and it is possible to realize a beautiful design suitable for an environment, There is an advantage that it can have higher product competitiveness.

The embodiments and the accompanying drawings described in the present specification are merely illustrative of some of the technical ideas included in the present invention. Therefore, it is to be understood that the embodiments disclosed herein are not for purposes of limiting the technical idea of the present invention, but rather are not intended to limit the scope of the technical idea of the present invention. It will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

100: base pole structure
110: Lower pole structure
120: extended support structure
130: upper pole structure
200: Independent power generating device
210: Wind power generator
220: Solar power generation means
230: Battery
300: peripheral device
400: control module
410: design parameter setting section
420: Automatic control execution unit
430:
440: Power detector
450:
510: first sliding engagement groove
520: second sliding engagement groove
521: Stable coupling projection
522: Stable coupling groove
530: protrusion for terminal
540: Coupling bracket
550: first connection terminal
560:
570: second connection terminal
600: LED lights

Claims (9)

A pole-shaped base pole structure;
An independent power generation unit configured to generate and store power in the base pole structure;
A plurality of peripheral devices detachably coupled to the base pole structure and operated by receiving power from the independent power generation device;
Detachment means configured to detachably couple and electrically connect the peripheral device to the base pole structure; And
And a control module for supplying and controlling power to the peripheral device,
Wherein the base pole structure comprises a lower pole structure formed in a pole shape of a predetermined cross section, a plurality of extending support structures spaced upward from the upper end of the lower pole structure and having a space therein, And an upper pole structure formed in the shape of a pole having a rectangular cross section coupled to each upper end,
Wherein the extended support structure is formed in a rectangular cross-sectional shape extending upward from an upper end of the lower pole structure to guide the cable through the inside,
Further comprising an LED illumination lamp provided inside the plurality of extended support structures and being supplied with power from the independent power generation device and controlled by the control module and an optical sensor configured to detect brightness and configured in the base pole structure ,
Wherein the control module is configured to control the LED lighting lamp based on a detection signal of the optical sensor,
Wherein the detachable coupling means comprises a first sliding engagement groove formed in a downward direction in the longitudinal direction from a plurality of portions of an upper surface of the base pole structure and a second sliding engagement groove formed in a central portion of the first sliding engagement groove, A sliding engaging part including a sliding part; A terminal protrusion formed on the bottom surface of the sliding engagement portion; A coupling bracket formed in a shape corresponding to a cross-sectional shape of the sliding coupling portion, the coupling bracket being coupled and fixed so that the peripheral device is electrically connected; A first connection terminal electrically connected to the control module and configured in the protrusion for the terminal; An engaging portion formed on a lower surface of the engaging bracket, the engaging portion being engaged with the protrusion for the terminal; And a second connection terminal electrically connected to the peripheral device and formed at a bottom portion of the fitting portion to be electrically connected to the first connection terminal when the coupling bracket is coupled to the sliding coupling portion,
And a cover means covering the sliding engagement portion when the peripheral device is not engaged with the sliding engagement portion, wherein the cover means includes: a body portion having a sectional shape corresponding to a sectional shape of the sliding engagement portion; A top cover part extending outward from an upper end of the body part to cover an upper portion of the sliding part; And an upper surface concave portion formed on an upper surface of the base pawl member adjacent to an upper end of the sliding engagement portion,
The upper surface concave portion is formed in a cross section of a right triangle. The upper end of the oblique surface is located on the inner side and the lower side of the oblique surface is located on the outer side. The symmetry line, Is made to have a photographic gradient,
A coupling portion having a cross-sectional shape corresponding to a cross-sectional shape of the upper surface concave portion is formed on a lower surface of the upper surface cover portion
Hybrid function pole structure.
delete The method according to claim 1,
The peripheral device is composed of a security light, a streetlight, a camera, a communication device, an environmental factor detection sensor, an earthquake sensor, an electronic weather vane, an anemometer, a speaker,
And terminal modules connected electrically to the mutually opposing surfaces between the base pole structure and the peripheral device.
Hybrid function pole structure.
The method according to claim 1,
The peripheral device includes a security light, a streetlight, a camera, a communication device, an environmental factor detection sensor, an earthquake sensor, an electronic weather vane, an anemometer, a speaker,
Hybrid function pole structure.
The method according to claim 3 or 4,
The control module
A design factor setting unit for setting a design factor value for each peripheral device to be applied;
An automatic control execution unit configured to determine a peripheral device when each peripheral device is coupled to the base pole structure and to set the peripheral device to a value set by the design factor setting unit and to control the operation of the peripheral device;
A malfunction detector configured to detect a malfunction including a short circuit or a short circuit in the circuit system of the first connection terminal;
A power detector for detecting a power supplied to the peripheral device among the plurality of peripheral devices; And
And a storage amount detecting unit for detecting a storage amount of the battery for storing the power generated by the independent power generating apparatus
Hybrid function pole structure. delete delete delete delete

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