KR102152104B1 - Power supply device within enhanced hybrid power system for outdoor - Google Patents

Abstract

The present invention relates to a technology for reinforcing a power supply and demand rate in a column type power supply device disposed on the outside of a building including an apartment, a collective building, a large mart, and the like and disposed at a location adjacent to a placement place. The present invention provides a reinforced power supply structure which enables intensive charging of auxiliary power through sunlight to ensure user safety and efficiently control usage information while external power can be supplied from power consumption equipment provided by a user staying in an outdoor environment or in an outdoor place such as the outside of the placement place of a residential space (building) such as an apartment, a detached house or the like, the outside of the collective building or the outside of the single building.

Description

Power supply device within enhanced hybrid power system for outdoor

The present invention relates to a technology for enhancing the power supply and demand rate in a column type power supply device that is disposed outdoors of a building including an apartment, a collective building, a large mart, and the like, and is disposed in a location adjacent to the placement place.

In general, the living environment of modern people is expected to improve the standard of living as the economy and culture are highly developed, and the proportion of leisure expenses in household expenditure will increase as the spread of the 5-day work week and the increase in household income. Related expenditures are on the rise.

However, the current infrastructure facilities around domestic tourist attractions are not able to keep up with the explosive increase of the leisure population as described above.

For this reason, the scenery of domestic tourist destinations during the peak summer season including the vacation season is crowded due to the large crowds, and in particular, it is not possible to find a lodging facility if a reservation is not made.

In particular, during peak seasons including holiday seasons, accommodation facilities in famous tourist destinations tend to be expensive, which intensifies the economic burden of household expenses. In addition, in domestic tourist destinations where many people are not visited, the nearby infrastructure facilities are insufficient to use accommodation facilities. It is a difficult situation.

Therefore, in recent years, a camping trailer or camping car designed to enjoy camping freely in any place by providing various convenience facilities such as cooking facilities, shower facilities, toilets, beds, etc. inside a trailer or a modified vehicle has been spreading. In addition, auto camping sites are installed in famous tourist spots across the country so that people can enjoy tourism and leisure without the burden of accommodation facilities, attracting auto campers.

Therefore, if you use a camping trailer or a camping car, you can use auto camping sites operated by famous tourist spots nationwide, and you can freely enjoy camping and leisure anywhere, regardless of the accommodation facilities of the tourist destination.

In such a place used as a place to stay in an outdoor place, it is essential to install a power supply device that allows the user to receive and use external power from the place of use, unless the user has its own battery or generator.

Except for the case of installing basic facilities such as camping cars or power supply batteries, these power supply devices are each arranged in a camping place for camping, and perform the function for the purpose of plugging in the power cord by the user. However, there is no other convenience provided.

In particular, in outdoor lodging places, charcoal or wood fires are often used in addition to the power used, so fires due to residual embers are frequent, and short circuits generated by electric power equipment or sudden nighttime flood damage in valleys There is a problem that is difficult to cope with. In such a disaster situation, in an outdoor lodging area such as a camping site, there is no other preparedness configuration except that a fire extinguisher installation box as shown in FIG. 1 is separately provided, and in case of an emergency, an evacuation is guided through an external broadcast (due to a sudden increase in valleys). Although it performs flooding situations, evacuation situations due to fire (toxic gas leakage, etc.), it is not effective as a guide suitable for the immediate situation, and the situation is causing frequent casualties.

Accordingly, there is a growing need for a device capable of performing an essential power supply function at an outdoor lodging site and monitoring various situations occurring in an emergency and alarming the user in real time.

In addition, when the self-powered and rechargeable structure is additionally installed, the need for a device for enhancing the power supply and demand rate is also increasing.

Lock Patent No. 10-1715575 Korean Patent Publication No. 2016-0109023

The present invention was conceived to solve the above-described problem, and an object of the present invention is to provide an outdoor place such as the outside of a place where a residential space (building) such as an apartment or a detached house is placed, outside of a collective building or outside of a single building B. Intensively recharging auxiliary power through solar power that enables users staying in an outdoor environment to supply external power from the power consuming equipment provided, and at the same time secures the user's safety and efficiently controls usage information. It is to provide a device that can provide an enhanced power supply structure that makes this possible.

As a means for solving the above-described problem, in the embodiment of the present invention, as shown in Figs. 1 to 4, in the power-enhanced column type power supply device,

A fixing part 110 fixing the lower part to the ground and a columnar body 120 protruding upward on the fixing part 110;

It is connected to an external power supply line passing through the interior of the columnar body 120, and accommodates an outlet portion 122 provided to be connected to other power supply lines at the end, and the exposed surface of the outlet portion 122, An outlet box (130) protruding to the outside of the columnar body (120) and coupled to the columnar body in a structure in which a part is interpolated;

A solar panel module 140 provided on the top of the columnar body 120;

An internal power storage unit 150 when storing charging power supplied from the solar panel module 140;

A light emitting device part 161 is mounted inside the columnar body 120, spaced apart from the light emitting device part 161, and a display panel part 162 coupled to the surface of the columnar body 120 A light-emitting display module 160 configured to perform a light-emitting or flashing signal based on power supplied from the internal power storage unit 150;

When an external power supply line is connected to the outlet, the power supply is started and the amount of power used according to the termination is measured, the control operation of the light-emitting display module 160 is performed, and communication with an external terminal is performed. A control module (C);

A fire reaction module 170 disposed in an inner space under the columnar body 120 and provided with a sensor unit S including a fire extinguisher seating unit P and a plurality of sensors for sensing the external environment; Include,

The solar panel module 140,

Tempered glass member 10 forming a convex curvature in a first direction, which is an external direction; And

A convex lens member 20 provided at the inner center of the tempered glass member 10 and having a curvature in a second direction opposite to the first direction;

A Fresnel lens pattern 11 spaced apart from the convex lens member 20 and formed in a plurality of structures protruding from the inner surface of the tempered glass member 10;

A reflective light collecting member 50 connected to the tempered glass member 10 by reflective connecting members 13 on both sides and formed to have a curvature opposite to that of the tempered glass member 10;

A solar cell panel 40 disposed in the space between the convex lens member 20 and the reflective light collecting member 50;

It is configured to include, to provide a power-enhanced column type power supply.

According to an embodiment of the present invention, the power provided by a user staying in an outdoor environment or an outdoor place such as the outside of a place where a residential space (building) such as an apartment or a detached house is placed, the outside of a collective building or a single building Provides a reinforced power supply structure that enables intensive charging of auxiliary power through sunlight, allowing users to supply external power from consumed equipment and efficiently control user safety and usage information. Make it possible.

In particular, in the power-enhanced pillar-type power supply device of the present invention, it is possible to supply external power and at the same time, automatic sensors even when emergency situations such as fire, weather disaster, flood damage, etc. that may occur in an outdoor environment occur at night. It is possible to provide real-time warnings, guidance, and evacuation guidance to each lodging site according to the measurement of, thereby ensuring the safety of users.

Furthermore, in outdoor and outdoor environments in which a large number of pillar-type power supplies are arranged, the evacuation area where an emergency situation occurs and the guide area that can be evacuated are calculated through the control module, and guide lamp signals are selected on the ground surface for each area to emit light. Thus, the advantage of allowing easy evacuation can be achieved at night and even in a situation in which power supply is interrupted.

In addition, a structure for supplying power from an outdoor place such as a residential space (building) such as an apartment or detached house, an outdoor place such as the outside of a collective building or a detached building, or an outdoor accommodation such as a camping place for camping It implements a power supply device of a columnar structure, but has a device that stores auxiliary power through its own solar power generation, providing location guidance, status guidance, warning signals and voice guidance in case of emergency without supplying main power. It can be implemented to maximize the convenience of use.

Furthermore, it is possible to automatically measure the amount of power used in outdoor places such as the outside of a residential space (building) such as an apartment or detached house, an outdoor place such as the outside of a collective building or a single building, or a campsite. It is possible to build a system that automatically implements billing for the use of the communication network and the use of electricity, thereby helping the user to use convenient outdoor accommodation.

1 is a block diagram showing the main components of the power-enhanced column type power supply device according to the present invention.
2 is a side conceptual view showing an embodiment of the column type power supply device according to FIG. 1.
3 is a schematic cross-sectional view of a solar panel module mounted in FIG. 2.
FIG. 4 shows the structure of a light emitting device constituting the guide lamp module group described above in FIG. 2.
5 is a conceptual diagram illustrating a function of installing a plurality of structures of FIG. 1 and inducing evacuation in an emergency situation.
6 is a conceptual diagram showing a front view of the main components of the power-enhanced column type power supply device of the present invention.
7 to 11 are conceptual diagrams and block diagrams for explaining the functions of individual components of the power-enhanced column type power supply device.

Advantages and features of the present invention, and a method of achieving them will become apparent with reference to the embodiments described below in detail together with the accompanying drawings. However, the present invention is not limited to the embodiments described herein and may be embodied in other forms. Rather, the embodiments introduced herein are provided so that the disclosed content may be thorough and complete, and the spirit of the present invention may be sufficiently conveyed to those skilled in the art.

The terms used in the present application are only used to describe specific embodiments, and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In the present application, terms such as "comprise" or "have" are intended to designate the presence of features, numbers, steps, actions, components, parts, or combinations thereof described in the specification, but one or more other features. It is to be understood that the presence or addition of elements or numbers, steps, actions, components, parts, or combinations thereof, does not preclude in advance the possibility of being added.

Unless otherwise defined, all terms including technical or scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which the present invention belongs. Terms such as those defined in a commonly used dictionary should be interpreted as having a meaning consistent with the meaning of the related technology, and should not be interpreted as an ideal or excessively formal meaning unless explicitly defined in this application. Does not.

The present invention is described as an outdoor camping site as an outdoor site as a preferred embodiment, but is not limited thereto, and outside of a place where a residential space (building) such as an apartment or detached house is placed, or outside of a collective building It can be applied in various ways to outdoor places such as outside of a single building.

1 is a block diagram showing the main components of the power-enhanced column type power supply device according to the present invention. 2 is a side conceptual view showing an embodiment of the column type power supply device according to FIG. 1. 3 is a schematic cross-sectional view of a solar panel module mounted in FIG. 2. FIG. 4 shows the structure of a light emitting device constituting the guide lamp module group described above in FIG. 2.

1 and 2, a power-enhanced column-type power supply device (hereinafter referred to as'the present invention') according to an embodiment of the present invention is, in the power-enhanced column-type power supply device,

It is connected to a fixing part 110 fixing the lower part to the ground, a columnar body 120 protruding upward on the fixing part 110, and an external power supply line passing through the inside of the columnar body 120, and , An outlet portion 122 provided at the end to be connected to other power supply lines, and receiving the exposed surface of the outlet portion 122, protruding outside the pillar-shaped body 120, and part of the pillar-shaped body When storing the charging power supplied from the outlet box 130, the solar panel module 140 provided on the top of the columnar body 120, the solar panel module 140 is Power storage unit 150, the light emitting device unit 161 is mounted inside the columnar body 120, spaced apart from the light emitting device unit 161, and coupled to the surface of the columnar body 120 A light-emitting display module 160 having a display panel unit 162 and performing a light-emitting or flashing signal based on power supplied from the internal power storage unit 150, and an external power supply line connected to the outlet unit. In this case, a control module (C) that measures the amount of power used according to the start and end of power supply, performs a control operation of the light-emitting display module 160, and communicates with an external terminal, and the columnar body It is disposed in the inner space of the lower part of 120, and may be configured to include a fire reaction module 170 provided with a sensor unit (S) including a plurality of sensors for detecting the fire extinguisher seating unit (P) and the external environment. have.

In particular, the solar panel module 140 according to the present invention described above utilizes an arrangement place that is placed outdoors, so as to enhance power to supply power to a control module, an internal sensor group, or a light emitting display panel, which will be described later. As a structure for increasing power generation efficiency, the structure shown in FIGS. 2 and 3 may be provided.

That is, in the present invention, the solar panel module 140 includes a tempered glass member 10 and the tempered glass member 10 forming a convex curvature in a first direction, which is an external direction, as shown in FIG. 3. A convex lens member 20 provided in the inner center and having a curvature in a second direction opposite to the first direction, a structure that is spaced apart from the convex lens member 20 and protrudes from the inner surface of the tempered glass member 10 Fresnel lens pattern 11 formed in plural, and connected to the tempered glass member 10 by reflective connection members 13 on both sides, and reflecting formed to have a curvature opposite to that of the tempered glass member 10 A type condensing member 50 and a solar cell panel 40 disposed in a space between the convex lens member 20 and the reflective condensing member 50 may be included.

The Fresnel lens pattern structure is implemented on a flat lens structure, and one surface is flat, and the other surface facing the one surface has a concentric pattern structure with a concentric circle pattern toward the outer angle based on the center point. It can be implemented as a structure. The structure of the Fresnel lens pattern is implemented by manufacturing a mold, injecting a polycarbonate mold, injecting a liquid silicone composition into the mold, and vacuum defoaming. Thereafter, the tempered glass may be laminated on the upper surface of the Fresnel lens pattern, the Fresnel lens and the tempered glass as a silicone composition may be adhered, and the condensing lens may be separated from the mold.

In general, when power generation is implemented through the photovoltaic device 40 that is condensed through a lens in which the Fresnel lens pattern is implemented, the photovoltaic power generation efficiency is realized at a level of 14-20%. In particular, the convex lens member 20 can be implemented in the center where the Fresnel lens pattern is implemented. Through the convex lens member 20, the solar cell disposed therein performs a function of maximizing the efficiency of more condensing. In this case, it is preferable that the curvature meets the range of 4.0 to 6.0. If the curvature is out of this range and the curvature exceeds 6.0, the function of condensing is lost. If the curvature is less than 4.0, the photovoltaic device Since sunlight is concentrated only in a very local area, it is impossible to implement a function that can maximize power generation efficiency.

In particular, the reflective light collecting member 50 may be disposed in the opposite direction of the surface on which the Fresnel lens pattern 11 implemented inside the tempered glass member 10 is implemented. The reflective light collecting member 50 may be implemented to have a curvature of a concave structure in the direction in which the solar panel module 40 is seated, and the reflective light collecting member 50 has a nickel or chrome inner side forming an inner diameter. It is made of a material of this coated ABS resin (acrylonitrile-butadiene-styrene resin), or is implemented in a structure capable of high-efficiency and high-concentration in which a mirror or a mirror coating layer is formed on at least a portion of the inner side forming the inner diameter, and the reflective light collecting member ( It is preferable that the reflected light reflected from 50) is reflected by the Fresnel lens pattern 11 to amplify the amount of light incident on the solar cell panel 40.

That is, the above-described tempered glass member 10 performs a function of protecting the solar module in an externally mounted environment, and sunlight passing through the tempered glass member 10 passes through the planar lens, and the solar panel is located in the center. The function to be condensed by the module 40 may be primarily performed by the convex lens member 20 and the flat plate (implemented to have a curvature) of the Fresnel lens. Further, the reflective light collecting member 50 disposed on the opposite side reflects the light that has passed through the solar panel module 40 and enters the Fresnel lens pattern again and causes re-reflection to enter the solar panel module 40 again. To maximize the light utilization efficiency.

In addition, the reflective light collecting member 50 is connected to both sides by a reflective connecting member 13, but the reflective connecting member 13 is implemented with a material having a high reflectivity so that the reflective function can be enhanced. do. As an example, it may include any one of Al, PC, PP, ABS, and PBT, but is not necessarily limited thereto, and any material that blocks and reflects light may be used. At this time, if the inner surface of the reflective light collecting member 50 is deposited with Al, it has an effect that looks like a mirror when the light source is not turned on, so that light use efficiency can be further increased.

As an embodiment of utilizing the electric power charged through the solar panel module in the present invention, a light emission guide line is formed using an LED element on the ground surface, and the light emission is divided into an evacuation area and an evacuation area in the control module. The techniques used to control the guidelines will be described.

To this end, in the present invention, as shown in FIG. 2, a plurality of guide lamp module groups 300 disposed in a radial shape under the columnar body 120 may be included.

As shown in FIG. 4, the guide lamp module group 200 is composed of a line type LED module of a linear or curved type having a bracket 320 having an opening in the upper part and covering the opening with a tempered glass 330. Can be.

The bracket 320 is preferably made of a material having a high reflectivity so that the reflective function can be enhanced. As an example, it may include any one of Al, PC, PP, ABS, and PBT, but is not necessarily limited thereto, and any material that blocks and reflects light may be used. When the inner surface 325 of the bracket 320 is deposited with Al, it has an effect that looks like a mirror when the light source is not lit, so that the light use efficiency can be further increased.

One or a pair of linear LED modules (310A, 310B) can be disposed on the lower surface of the inside of the bracket 320. In particular, in this case, it is preferable that the linear LED module includes a plurality of light emitting devices, and is preferably controlled by the control module so as to implement different light emitting operations in blue and red.

The guide lamp module group 200 can be implemented in the following manner.

As shown in FIG. 5, a plurality of power-enhanced column type power supply devices 100 are arranged in an outdoor environment such that a plurality of them are arranged in a grid-like arrangement structure (horizontal arrangement P1 to Pn, vertical arrangement Q1 to Qn) at regular intervals. In this case, a plurality of guide lamp groups 300 driven by the power stored in the internal power storage unit 150 is provided under the columnar body 120 of each of the power-enhanced columnar power supply devices 100. ) Is formed in a radial shape.

In this case, when detecting an emergency situation such as a fire or injury, the control module (C: see FIG. 1) may perform the following operation process.

In other words, when an emergency situation occurring adjacent to the unit columnar body 120 is detected by the avoidance position calculation unit C1 of the control module C and a danger area is calculated, the emergency situation at the guide direction setting unit C2 The area adjacent to the danger area where this has occurred is set as the avoidance area, and the other areas are set as the guide area.

Thereafter, the guide lamp setting unit C3 controls to emit red LEDs in the guide lamp groups mutually adjacent to the avoiding area, and controls the non-adjacent areas to emit blue LEDs.

For example, as shown in FIG. 5, the position of the pillar-type power supply unit (100f:X1) at the point where the fire danger signal is generated due to fire detection is classified as an avoidance area (P3, Q2 area) in the control module, and the The guide lamp module group 200 adjacent to the avoiding area (areas P3 and Q2) is controlled to emit red LED, and the guide lamp module group 200 in the remaining area emits blue light, so that it is dark late at night (for example, camping). Even in the rainy season, in the mountains, etc.), users can be guided through a blue light-emitting display without additional lighting.

Hereinafter, another configuration and operation example of the power-enhancing column type power supply device in the present invention will be described.

2 to 4, the present invention relates to a fixing part 110 for fixing a lower part to the ground, a columnar body 120 protruding upward on the fixing part 110, and the columnar body 120. ) Is connected to an external power supply line passing through the inside of, and accommodates an outlet portion 122 provided to be connected to other power supply lines at an end thereof, and an exposed surface of the outlet portion 122, and the columnar body 120 ) Protruding to the outside, the outlet box 130 coupled in a structure in which a part is inserted into the columnar body, a solar panel module 140 provided on the upper end of the columnar body 120, the solar panel module When the charging power supplied from 140 is stored, the internal power storage unit 150 and the light emitting device unit 161 are mounted inside the columnar body 120, and are spaced apart from the light emitting device unit 161, A light-emitting display module 160 having a display panel unit 162 coupled to the surface of the columnar body 120 and performing light emission or flashing signals based on power supplied from the internal power storage unit 150 And, when an external power supply line is connected to the outlet, the power supply is started and the amount of power used according to the termination is measured, the control operation of the light emitting display module 160 is performed, and communication with an external terminal is performed. The basic configuration is a column-type power supply including a control module (C) for performing the operation.

In particular, in the present invention, a fire reaction in which a sensor unit S is provided, which is disposed in the inner space under the columnar body 120 and includes a fire extinguisher seating unit P and a plurality of sensors for sensing the external environment By having a configuration including the module 170, it is possible to supply external power to power consumption equipment provided by a user staying in an outdoor environment, and at the same time, it is possible to prevent fire, weather disaster, flood damage, etc. Even when an emergency occurs at night, warning and guidance and evacuation guidance can be guided in real time to each lodging site according to the measurement of an automatic sensor, and further , through the implementation of the structure shown in Figs . It is possible to maximize the efficiency of the guide.

In this case, the above-described fire reaction module 170, as shown in Fig. 9 (see Figs. 1 and 7, 8), provides a space inside the columnar body 120, the space A casing part (R) implementing the part in a sealed structure, a window part (w) coupled to the front part of the casing part (R) so as to enable an opening and closing operation, and a seating part disposed under the space part to place a fire extinguisher ( 172).

In this case, the sensor unit (S), a seating sensor (S1) for detecting whether the fire extinguisher is seated by contacting with the fire extinguisher at the center of the seating unit 172 and a load sensor (S2) for detecting whether the fire extinguisher is installed are disposed. , A separation sensor (S5) disposed on the upper part of the casing (R), and a smoke detection sensor (S3) and a heat sensor (S4) and a water level detection sensor (S6) disposed inside the casing part (R). It may be configured to further include. The fire reaction module 170 transmits state information detected by a plurality of sensors of the sensor unit S to the control module C, and transmits state information of the sensors from the control module C. After analysis, the light-emitting operation information and voice warning information are transmitted to the outside through the display panel unit 162 of the light-emitting display module 160.

FIG. 8 is a block diagram showing the main configuration of the fire reaction module according to the present invention, and FIG. 9 is a conceptual diagram showing the main parts of the fire reaction module.

Specifically, as shown in FIGS. 8 and 9, the fire reaction module 170 is disposed in the inner space under the columnar body 120, and a seating sensor S1 for detecting whether the fire extinguisher is seated, and It can be implemented in a structure in which a seating part (P) having a load sensor (S2) that detects whether it is used or not is provided.

The fire reaction module 170 is provided with a space part inside the column-shaped body 120 (see FIG. 2), and has a casing part R for implementing the space part in a sealed structure, and the casing part R ) May be configured to include a window portion (w) coupled to the front portion of the front portion to enable an opening and closing operation, and a seating portion 172 disposed under the space portion to seat a fire extinguisher.

That is, as shown in FIG. 9, a seating sensor (S1) for detecting whether the fire extinguisher is seated by contacting the fire extinguisher in contact with the fire extinguisher in the center of the seating part 172 and a load sensor (S2) detecting whether or not to be used are disposed, A smoke sensor (S3), a heat sensor (S4), and a water level sensor (S6) are included inside the casing (R), and a separation sensor (S5) is disposed on the upper end of the window (w), The information of each sensor is transmitted to the sensor signal collection unit 219 of the control module (C).

In the case of the seating sensor (S1), it is possible to check in real time whether or not a fire extinguisher is installed (lost, etc.) to be always provided on the column-shaped body 120, and the load sensor (S 2) is The fluctuation can be measured so that the use of a fire extinguisher can be checked.

Further, in the case of the smoke detection sensor (S3) and the heat detection sensor (S4), it detects the leakage of fire or toxic gas in the place where the columnar body 120 is arranged and transmits the corresponding information to the control module (C). And, it is possible to provide basic monitoring information for transmitting a warning signal accordingly.

In addition, in the case of the water level sensor (S6), it is disposed inside the casing unit (R), and in the case of the outdoor area near the valley, it is to prepare for the risk of flood or flood damage caused by sudden rainfall at night. , In order to prevent a situation in which sleeping users cannot evacuate, when detecting that water is filled inside the casing unit R above a certain level, a warning signal is immediately transmitted by transmitting a detection signal to the control module. Make it possible to transmit.

Furthermore, a separation sensor S5 may be disposed at the upper end of the window unit w, which, when the window unit is opened for the use of a fire extinguisher, can be identified and provided to the control module. Since problems such as loss of fire extinguishers can be accurately identified, it is possible to clearly monitor the status information of fire extinguishers along with load detection sensors.

7 is a block diagram showing the configuration of the control module (C) in the present invention.

Referring to FIG. 7 and referring to the conceptual diagram of the implementation of the present invention in FIG. 1 described above, in the present invention, when an external power supply line is connected to the outlet, power supply to the power supply is started and terminated. It is possible to have a control module (C) that measures the amount of power used according to the power consumption, performs a control operation of the light emitting display module 160, and communicates with an external terminal. At the same time, as described above, it is possible to perform a function of displaying status information and warning information through a light emitting display module by transmitting a sensor signal provided in the fire reaction module 170.

Specifically, the control module (C), as shown in Figs. 1 and 7, charging the power generated by the solar panel module 140 to display the amount of power stored in the internal power storage unit 150 A power consumption calculation unit for calculating the amount of power used by the power amount display unit 212 and the light emitting display module 160 driven through the internal power storage unit 150 and the amount of power used through the outlet unit 122 (214), a usage time calculation unit 216 that calculates and calculates the usage start time and type time of the outdoor accommodation where the columnar body 120 is arranged, the solar panel module 140 and the light-emitting display module 160 ), a power quantity control module including a device status monitoring unit 218 that monitors the overall state of the column type power supply device including reception and display of status information of the fire extinguisher beach box 170 to indicate whether it is operating normally ( 210).

Further, the control module (C) includes a check-in signal receiving unit 222 for receiving a check-in signal generated by performing power connection for use of the outlet unit 122 mounted on the pillar-shaped body 120, and the Based on the control signal sensed by the device status monitoring unit 218, the light-emitting signal control unit 224 determines and transmits a display signal of the light-emitting display module 160, and transmits a matching voice signal interlocked with the display signal. A status information control module 220 including a volume signal control unit 226 may be provided.

In addition, the control module (C) transmits the control signal of the power amount control module 210 and the state information control module 220 to an external user terminal, or a wireless communication unit 232 for receiving an external control signal and Based on the information including the amount of power used and the use time calculated by the power amount control module 210, the billing details calculation unit 234, which calculates the cost to be settled, and the cost calculated through the billing details calculation unit 234 It is preferable to include a payment unit 236 for processing payment information by wireless or wired connection with an external payment method.

When a user checks in to a reserved place where the power supply device of the present invention is installed, the above control unit (C) enables real-time check of power usage after check-in, and the usage cost and power according to the time until check-out. It is possible to settle the billing details according to the use so that the payment can be made through a payment method connected through the user's terminal.

In order to enhance convenience, when a program provided through an application is installed and configured in a user terminal, real-time power use and other conveniences supplied through the control module (C) operating the power supply device of the present invention, and payment You can make it possible to solve situations such as efficiently. Furthermore, when information such as status information or warning signal received from the control module C is provided from the power supply device through the light-emitting display module 160, the same information may be provided to the user terminal. .

The transmission of such information may be implemented through the wireless communication unit 232 of the present invention, and preferably, a module that provides WiFi wireless communication is installed in the power supply so that the user terminal uses the wireless communication. If so, it is also possible to allow charging for this.

In addition, although described above, as a configuration for controlling the guide lamp module group 300 on the ground surface, the same configuration as the avoidance position calculation unit (C1), the guide direction setting unit (C2), and the guide lamp setting unit (C3) It may be configured to further include a guide lamp control module 240 provided.

Hereinafter, the configuration of the pillar-type power supply device 100, which is the basic configuration of the embodiment of the present invention, will be described with reference to FIGS. 2 and 6, and at the same time, the fire reaction module or the control module for controlling information on power use. The function of displaying information in (C) will be described with reference to FIGS. 10 and 11.

Referring to FIG. 1, the pole-type power supply device of the present invention is capable of supplying external power to power consumption equipment provided by a user staying in an outdoor environment, and at the same time, a fire, weather disaster, and flood that may occur in an outdoor environment. Even if an emergency situation such as flood damage occurs at night, warnings, guidance, and evacuation guidance can be provided in real time to each lodging site according to the measurement of an automatic sensor to ensure the safety of users.

In addition, as a structure for supplying power in outdoor lodgings such as camping places for camping, a power supply device of a columnar structure is implemented, and a device that stores auxiliary power through solar power itself is provided to supply main power. It is possible to maximize the convenience of use by implementing the location guidance of the campsite, status guidance, warning signals and voice guidance in case of emergency.

1, 2 and 6, for this purpose, the columnar body 120 of the columnar power supply device according to the present invention is made of a metal material, and the outer surface can be coated for waterproof rust prevention. It is desirable to have it, and for example, it is made of a metal material of SUS material or steel material, and the inside may be formed in an empty structure. In the case of the columnar body 120, it may be implemented with a length of about 80cm to 2m, and this is to set a height suitable for the user's height and to increase the visibility of the light emitting display module to be described later.

A fixing part 110 for fixing to the ground is arranged in a plate shape under the column-shaped body 120, and a bending-type fixing bar 112 is inserted into the concrete structure 118 to further increase the fixing force on the ground. And, it may be possible to implement a strong coupling force through the fixing unit 110 and the bolt fixing.

In particular, the upper portion of the columnar body 120 is connected to an external power supply line 114 passing through the interior of the columnar body 120, the outlet portion 122 provided to be connected to other power supply lines at the end Is provided, receiving the exposed surface of the outlet unit 122, protruding to the outside of the columnar body 120, the outlet box 130 coupled in a structure in which a part is inserted into the columnar body is disposed Make it possible.

The outlet box 130 is provided with an accommodation space in which a ground portion of the outlet 122 to which a connector for external ground power is connected is provided, and a cover 134 is disposed on the front portion to be implemented in a structure capable of opening and closing. To be. The cover 134 is provided with a handle portion 132 to be opened by pulling it to the front surface, or to be implemented as a sliding structure upward to be opened. In addition, whether the cover 134 is opened or closed should be kept in a closed state in order to prevent rainwater from penetrating into the outlet box or entering contaminants in the case of rain, and the open state of the cover 134 The display can be detected in real time through the device status monitoring unit 218 of the control module C, which will be described later, and when the cover open state is maintained for more than a set time, the cover open state is measured through the light-emitting display module 160. It is possible to notify the user with a signal that combines light emission, text, and voice guidance. To this end, it is preferable to mount a detection sensor (not shown) that senses whether the cover 134 is opened or closed, and monitor whether the cover is opened or closed through the control module C in real time.

In addition, an electric wire mounting groove (Q: Fig. 2) is provided in the lower part of the outlet box 130, and as shown in Fig. 1, when a user binds a cord for using power to an outlet, the power line is It is preferable to make it possible to go out through the groove to increase the hermeticity of the cover.

In addition, the outlet box 130 of the present invention is preferably formed in a structure capable of movable left and right along the guide groove (G) formed in the movable body 120. To this end, a bearing part (B: Fig. 4) is provided in the lower part of the outlet box, and the bearing part (B) moves through the guide groove (G), and it is preferable to move a certain part in the left and right direction. Do. This has the advantage of improving the convenience of use in that power can be supplied by moving it in a convenient direction in terms of the direction in which the user connects the cord depending on the location where the power is used.

Further, it is more preferable that the columnar body 120 of the present invention is provided with at least one fluorescent type mounting ring part 126 for mounting the power line in an annular structure. This means that when the user connects the cord to the mounting hook 126 and the power line is exposed to the outside through the wire mounting groove (Q), the power line is caught on the user's foot or the power line is placed in a place with rain. In order to prevent the occurrence of electric shock due to exposure, the power line is fitted to the mounting hook 126 and guided in a structure that is mounted on the surface of the columnar body 120 in a certain portion, so that the power line is placed on the floor. It is possible to prevent a situation in which the user is exposed to danger by being exposed unprotected. Further, it is preferable that the mounting hook portion is treated with a fluorescent substance on the surface, which enables the position of the columnar body to be accurately identified at night, thereby preventing the user from colliding, and accurately positioning the electric wire. It will be possible to implement complex functions that can be identified even at night.

In addition, in the present invention, by providing a solar panel module 140 on the upper end of the pillar-shaped body 120, the internal power storage unit 150 to the power charged through the solar panel module 140 during the day It is desirable to be able to store it in. This allows the internal power storage unit 150 to supply predetermined power required for the operation of the light emitting device, the wireless communication unit, the display panel unit, and the control module, which are constituent elements of the present invention, so that external power is temporarily cut off. This is to ensure smooth operation such as transmission of warning signals and monitoring of status signals, even in situations where it becomes unusable or unavailable.

10 is a cross-sectional conceptual diagram showing the structure of the light-emitting display module 160 according to the present invention, and FIG. 11 is an example of a warning signal or a status information signal displayed on the display panel unit 162 of the light-emitting display module 160 It shows the text.

Specifically, the light-emitting display module 160 is driven to display internal or external status information analyzed based on the information collected by the sensor signal collection unit 219 on the display panel unit 162. As shown in FIG. 7, the displayed status information includes (a) information on the location where the columnar body is placed (green LED operation), (b) information indicating whether or not the state of use (blue LED operation), ( c) Fire warning indication (red LED operation, flashing, voice warning combined), (d) emergency emergency situation (user injury, etc.: red LED signal operation), (e) flood, flooding situation (red LED) Operation, flashing, voice warnings), (f) lightning hazard warning signals (red LED operation, flashing, voice warnings), etc. Depending on the status, the light emitted from the light-emitting element (R, G, B, flashing) and the voice speaker are interlocked. It is possible to quickly notify the status information of the transmission route of the voice warning signal.

In the case of the light-emitting display module 160, it can be installed in a buried structure at the upper end of the columnar body 120.

Specifically, the light emitting display module 160 is disposed such that the printed circuit board 163 on which the light emitting device (LED) is mounted faces the inner space of the columnar body 120. Further, the housing module 165 on which the printed circuit board 163 is mounted is arranged in a bent structure to support and seat the printed circuit board, and a display panel part 162 is arranged on the front side thereof, It is to be exposed to the outer surface of the columnar body 120.

In particular, it is preferable that the housing module 165 is implemented with a metal material having a high heat transfer rate and is connected through a contact end 164 in contact with the columnar body to increase heat dissipation efficiency. This may cause excessive heat to accumulate due to the constant operation such as light emission and flashing of the light emitting device, which becomes more severe in high temperature conditions such as daytime or summer, so that the problem of shortening the life of the light emitting device can be solved. This is to realize the advantage of maximizing the heat dissipation function that allows heat to be simultaneously transferred and discharged to the columnar body of metal and the empty space inside.

The above description of the present invention is for illustrative purposes only, and those of ordinary skill in the art to which the present invention pertains can understand that it is possible to easily transform it into other specific forms without changing the technical spirit or essential features of the present invention. will be. Therefore, it should be understood that the embodiments described above are illustrative in all respects and not limiting.

100: column type power supply
110: fixing part
120: columnar body
130: outlet box
140: solar panel module
150: internal power storage unit
160: light-emitting display module
170: fire reaction module
C: control module

Claims (5)

In the power reinforced column type power supply,
A fixing part 110 fixing the lower part to the ground and a columnar body 120 protruding upward on the fixing part 110;
It is connected to an external power supply line passing through the inside of the columnar body 120, and accommodates an outlet portion 122 provided at an end to be connected to other power supply lines, and an exposed surface of the outlet portion 122, An outlet box (130) protruding to the outside of the columnar body (120) and coupled to the columnar body in a structure in which a part is interpolated;
A solar panel module 140 provided on the top of the columnar body 120;
An internal power storage unit 150 when storing charging power supplied from the solar panel module 140;
A light emitting device part 161 is mounted inside the columnar body 120, spaced apart from the light emitting device part 161, and a display panel part 162 coupled to the surface of the columnar body 120 A light-emitting display module 160 configured to perform a light-emitting or flashing signal based on power supplied from the internal power storage unit 150;
When an external power supply line is connected to the outlet, the power supply is started and the amount of power used according to the termination is measured, the control operation of the light-emitting display module 160 is performed, and communication with an external terminal is performed. A control module (C);
A fire reaction module 170 disposed in an inner space under the columnar body 120 and provided with a sensor unit S including a fire extinguisher seating unit P and a plurality of sensors for sensing the external environment; Include,
The solar panel module 140,
Tempered glass member 10 forming a convex curvature in a first direction, which is an external direction; And
A convex lens member 20 provided at the inner center of the tempered glass member 10 and having a curvature in a second direction opposite to the first direction;
A Fresnel lens pattern 11 spaced apart from the convex lens member 20 and formed in a plurality of structures protruding from the inner surface of the tempered glass member 10;
A reflective light collecting member 50 connected to the tempered glass member 10 by reflective connecting members 13 on both sides and formed to have a curvature opposite to that of the tempered glass member 10;
And a solar cell panel 40 disposed in the space between the convex lens member 20 and the reflective light collecting member 50,
The reflective light collecting member 50 is made of a material of an ABS resin (acrylonitrile-butadiene-styrene resin) coated with nickel or chromium on the inner side constituting the inner diameter,
At least a portion of the inner side forming the inner diameter is implemented in a structure capable of high-efficiency and high-concentration in which a mirror or a mirror coating layer is formed,
A structure in which the reflected light reflected from the reflective light collecting member 50 is reflected by the Fresnel lens pattern 11 to amplify the amount of light incident on the solar panel 40,
Power reinforced column type power supply.
delete The method according to claim 1,
A plurality of the power-enhanced column type power supply devices 100 are arranged in a grid-like arrangement structure at regular intervals,
A plurality of guide lamp groups 300 driven by electric power stored in the internal power storage unit 150 are located below the columnar body 120 of each of the power-enhanced columnar power supply devices 100 Formed radially,
When an emergency situation occurring adjacent to the unit columnar body 120 is detected in the avoidance position calculation unit C1 of the control module C and a danger area is calculated,
In the guide direction setting unit (C2), the area adjacent to the danger area where the emergency situation has occurred is set as the evasion area, and other areas are set as the guide area,
In the guide lamp setting unit C3, a red LED is controlled to emit light in a group of guide lamps mutually adjacent to the avoiding area, and other non-adjacent areas are controlled to emit blue LEDs,
Power reinforced column type power supply.
The method of claim 3,
The fire reaction module 170,
A casing part (R) which provides a space part inside the columnar body 120 and implements the space part in a sealed structure; A window portion (w) coupled to the front portion of the casing portion (R) to enable an opening and closing operation; Includes; a seating portion 172 disposed under the space portion to seat a fire extinguisher,
The sensor unit (S),
A seating sensor (S1) for detecting whether the fire extinguisher is seated in contact with the fire extinguisher and a load sensor (S2) for detecting whether the fire extinguisher is seated are disposed in the center of the seating portion 172,
A separation sensor (S5) disposed on the upper part of the casing (R), a smoke sensor (S3) and a heat sensor (S4) and a water level detection sensor (S6) disposed inside the casing part (R) Includes,
Transmitting the state information sensed by the plurality of sensors of the sensor unit (S) to the control module (C),
By analyzing the state information of the sensors in the control module (C), the light-emitting operation information and the voice warning information can be transmitted to the outside through the display panel unit 162 of the light-emitting display module 160,
Power reinforced column type power supply.
The method of claim 4,
The control module (C),
A charging power amount display unit 212 displaying the amount of power stored in the internal power storage unit 150 with the power generated by the solar panel module 140;
A power use calculation unit 214 for calculating the amount of power used by the light emitting display module 160 driven through the internal power storage unit 150 and the amount of power used through the outlet unit 122;
A use time calculation unit 216 for calculating a use start time and a type time of the outdoor accommodation where the columnar body 120 is arranged;
Monitoring the overall state of the pillar-type power supply device including the reception and display of the status information of the solar panel module 140, the light-emitting display module 160, and the fire extinguisher storage box 170 to indicate whether it is operating normally. Device status monitoring unit 218;
Power amount control module 210 including a,
A check-in signal receiving unit 222 for receiving a check-in signal generated by performing power connection for use of the outlet unit 122 mounted on the pillar-shaped body 120;
A display signal of the light-emitting display module 160 is determined based on a control signal detected by the device status monitoring unit 218 by receiving signals detected by a plurality of sensors disposed in the fire reaction module 170 A light-emitting signal control unit 224 for transmitting and transmitting;
A status information control module 220 including a volume signal control unit 226 that matches and transmits a voice signal interlocked with the display signal; And
A wireless communication unit 232 that transmits control signals of the power amount control module 210 and the state information control module 220 to an external user terminal or receives an external control signal; and
A billing details calculation unit 234 for calculating a cost to be settled based on information including the amount of power used and the amount of use time calculated by the power amount control module 210;
A payment unit 236 for processing payment information by wirelessly or wired connection of the cost calculated through the billing details calculation unit 234 with an external payment means; further comprising,
Power reinforced column type power supply.

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