JP6146846B1 - Security unit - Google Patents

Abstract

The present invention enables ventilation of air in a space where a photovoltaic power generation panel, a secondary battery, and a light emitter are installed. A connecting member 3 mounted on a support column 2, a base 4 mounted on the connecting member, a top cover 5 forming a space S between the base, and a sun installed in the space. A photovoltaic panel 6, a secondary battery 7 for storing electric power, a light emitter 8 that emits light by the electric power of the secondary battery, and a control means 9 for controlling the electric power are provided, and a top cover is superimposed on the photovoltaic power generation panel In addition, the top cover and the photovoltaic power generation panel are integrally supported by an annular support ring 10 at the peripheral edge thereof, and the support ring is connected to the base body by a spacer 11 so as to form a gap. A vent is formed in the base to communicate the inside and outside. [Selection] Figure 1

Description

  The present invention relates to a security unit used for lighting a night site or a street.

In general, for the purpose of crime prevention, night sites and streets are brightened by lighting.
Many of such lighting devices supply electric power necessary for illumination from the outside, and a power line must be installed or laid to supply the electric power.

  For this reason, there is a problem that not only the installation cost increases, but also the lighting apparatus is repaired when the lighting device is damaged, and the cost increases.

  In addition, when a power failure occurs in an area where the lighting device is installed, there is a problem that the crime prevention function cannot be performed because the lighting cannot be performed.

  Conventionally, for example, a technique disclosed in Patent Document 1 has been proposed to deal with such problems.

  In this technology, a power source unit that supplies power to the light source unit and a light source unit that includes an LED corresponding to the opening, a storage battery, and a power source unit that supplies power to the light source unit, A lamp body having an open top surface and a canopy connected to the lamp body case via a hinge, and the canopy is positioned corresponding to the top surface of the lamp body. A solar panel for transmitting electricity generated by photovoltaic power generation with the upper one surface as a light receiving surface to the power supply unit, and a dome-shaped covering the upper side of the solar panel with a convex curved surface upward A cover, and the canopy covers the storage space of the lamp body case so as to be openable and closable.

  With such conventional technology, lighting is performed using the power obtained by solar power generation, eliminating the need for external power supply, reducing the installation cost of power lines, and functioning during power outages It has become possible to eliminate the occurrence of problems such as stopping.

  However, in the above-described conventional technology, the solar panel, the power supply unit, and the light source unit that performs illumination are incorporated in the space formed by the lamp body and the canopy. The heat generated from the light source part stays in the space part or receives sunlight and heats the air in the space part, thereby increasing the temperature in the space part.

  Thus, when the temperature in the space portion increases, there is a risk of causing a decrease in power generation efficiency of the solar panel or deterioration of the light source portion or the electric circuit.

  In order to eliminate such a possible problem, a technique disclosed in Patent Document 2 has been proposed.

  This technology suppresses the temperature rise in the space part by transferring the heat in the closed space part of the lamp body to the case or the column exposed to the outside and releasing the heat from the case or column to the outside air. I am doing so.

JP 2012-227105 A JP 2012-181992 A

However, in the technique disclosed in Patent Document 2, the amount of heat released from the case or the column is limited by the thermal conductivity and the like.
Therefore, it is extremely difficult to secure a heat dissipation amount equal to or greater than the increase in heat in the space by heat conduction, and cannot be an effective solution.

  The present invention has been made in view of such problems remaining in the prior art, and natural convection is performed for ventilation of air in a space where a photovoltaic power generation panel, a secondary battery, and a light emitter are installed. To actively discharge the heat in the space to the outside, thereby preventing a decrease in power generation efficiency of the solar panel, a deterioration of the light emitter and the electric circuit, and the like. It is a problem to be solved.

  In order to solve the above-described problem, the crime prevention unit of the present invention is a crime prevention unit that is attached to the front end portion of a column that is erected on the ground, and a connecting member that is detachably attached to the column, A base that is attached to the connecting member and has an open top, a light-transmitting top cover that covers the top of the base and forms a space between the base and the base is installed in the space. A solar power generation panel that converts sunlight into electric energy, a secondary battery that stores power generated by the solar power generation panel, a light emitter that is caused to emit light by power supplied from the secondary battery, and this Control means for controlling power supply from the secondary battery to the light emitter, the top cover being superimposed on the photovoltaic power generation panel, and the top cover and solar The power generation panel is integrally supported by an annular support ring at the peripheral edge thereof, and the support ring and the base are connected via a spacer that forms a gap therebetween, and the inside and outside communicate with the base. The ventilation part to be formed is formed.

  The crime prevention unit according to the present invention is attached to the tip of a column erected on the ground via the connecting member, and is installed on a target site or street together with the column.

  In the daytime, when sunlight is radiated, the sunlight passes through the top cover and reaches the photovoltaic panel installed under the top cover, thereby generating electric power in the photovoltaic panel. Is done.

  The electric power generated in this manner is stored in the secondary battery, and is supplied to the light emitter and used for light emission of the light emitter when the periphery of the installation position becomes dark, such as at night.

  Air in the space formed between the base body and the top cover is heated by irradiation of sunlight on the security unit or heat generation of the internal device, and an upward air flow is generated in the space.

  This updraft reaches the lower surface of the photovoltaic power generation panel positioned in the lower portion of the top cover in the space.

  Here, since the gap is formed between the base ring and the support ring that supports the top cover and the solar panel, the airflow that has reached the lower surface of the solar panel is the solar panel. It flows toward the gap by the lower surface of and further flows out from the gap.

  On the other hand, when the air in the space portion flows out to the outside as described above, a pressure drop occurs in the space portion. However, since the base body is provided with a ventilation portion that communicates the inside and outside of the base body, External air is drawn into the space through the section.

  Ventilation in the space is continuously performed by such a pressure difference inside and outside the space and natural convection by the airflow.

  Due to such a ventilation action, heat in the space is released to the outside, and a temperature rise in the space is suppressed.

  Thereby, the temperature rise of the various devices installed in the space is effectively suppressed, and the soundness of these devices is ensured.

And since the said airflow is formed along the lower surface of the said photovoltaic power generation panel, the said photovoltaic power generation panel is cooled by this airflow.
Therefore, it is possible to suppress and stabilize the decrease in power generation efficiency by suppressing the temperature increase of the photovoltaic power generation panel whose power generation efficiency changes greatly due to thermal influence.

  And it is preferable to position the lower surface of the said photovoltaic power generation panel and the lower surface of the said support ring in the substantially same surface.

By adopting such a configuration, the lower surface of the support ring and the lower surface of the solar power generation panel are made continuous while ensuring the amount of overlap between the support ring and the solar power generation panel, thereby The airflow along the lower surface of the photovoltaic panel is smoothly guided to the gap formed below the support ring to smoothly flow out to the outside.
As a result, the ventilation of the space part mentioned above is performed effectively.

  The ventilation portion includes a ventilation hole formed on a side surface of the base, a hood that is attached to the base so as to cover the ventilation hole, and has a plurality of openings that are opened downward. It can be comprised by the filter which has the air permeability interposed between the base | substrates.

  By adopting such a configuration, the flow of air flowing from the ventilation portion is changed depending on the direction of the opening directed downward, and thereby, in the case of rain, water droplets that try to flow into the ventilation portion can be changed. It is possible to attenuate the kinetic energy and prevent the water droplets from flowing into the substrate.

  Furthermore, even if the water droplets pass through the hood, the water droplets can be captured and dropped by the filter, so that the water droplets can be more effectively prevented from flowing into the substrate.

  Furthermore, it is preferable to install a side cover having air permeability in a gap formed between the base and the support ring.

  By adopting such a configuration, it is possible to prevent insects and the like from entering the base from the gap, and it is possible to suppress intrusion of water droplets while ensuring ventilation by the vent holes of the side cover. it can.

  And by making the said light-emitting body into LED, while suppressing the emitted-heat amount of this light-emitting body, power consumption can be suppressed and the load of a secondary battery can be reduced.

Moreover, it is preferable that the base has a substantially truncated cone shape with a small diameter at the bottom.
By setting it as such a structure, the resistance with respect to a wind can be reduced and the wind-proof performance of a crime prevention unit can be improved.

  Furthermore, an imaging machine that is supplied with power from the secondary battery and controlled by the control means can be mounted in the base.

  With such a configuration, it is possible to take an image of the vicinity of the installation location based on the light from sunlight during the daytime and based on the light from the light emitter at night.

  According to the crime prevention unit of the present invention, an external power source is not required, and installation and maintenance / inspection work is simplified, and a temperature rise in the crime prevention unit is effectively suppressed to ensure soundness against heat. be able to.

1 is an external view showing a first embodiment of the present invention. It is a front view of the 1st Embodiment of this invention. It is a longitudinal cross-sectional view which shows the 1st Embodiment of this invention. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an enlarged cross-sectional view illustrating a first cover of the present invention and a fixing portion between a top cover, a photovoltaic power generation panel and a support ring. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an enlarged cross-sectional view showing a connecting portion between a support ring and a base, showing a first embodiment of the present invention. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an exploded perspective view showing a hood and a filter constituting a ventilation part, showing a first embodiment of the present invention. It is a front view which shows the 2nd Embodiment of this invention. It is an external view which shows the modification of this invention.

Hereinafter, a first embodiment of the present invention will be described with reference to FIGS.
In these drawings, reference numeral 1 denotes a security unit according to the present embodiment.

  The security unit 1 is a security unit 1 that is attached to the tip of a column 2 that is erected on the ground, and includes a connecting member 3 that is detachably fitted to the tip of the column 2 and fixed thereto, A base 4 that is mounted on the connecting member 3 and is open at the top, and is provided so as to cover an upper portion of the base 4, and has a translucency that forms a space S (see FIG. 3) between the base 4. A top cover 5, a solar power generation panel 6 installed in the space S for converting sunlight into electric energy, a secondary battery 7 for storing electric power generated by the solar power generation panel 6, and the secondary battery A light emitter 8 that emits light by power supplied from the power source 7 and a control unit 9 that controls power supply from the secondary battery 7 to the light emitter 8, and the top cover 5 includes the solar power generation panel 6. When superimposed on the top In addition, the top cover 5 and the photovoltaic power generation panel 6 are integrally supported by an annular support ring 10 at the peripheral portion thereof, and the support ring 10 and the base body 4 form a gap G therebetween. It is connected via a spacer 11, and the base 4 is formed with a ventilation portion 12 that communicates the inside and the outside.

  The connecting member 3 is formed in a cylindrical shape, has an inner diameter such that the tip of the support column 2 can be fitted therein, and a plurality of lock bolts 13 are radially attached to the outer wall thereof.

  These lock bolts 13 are screwed onto the connecting member 3 so as to be able to protrude into the connecting member 3 and are brought into pressure contact with the outer surface of the column 2 fitted inside the rolling member 3. Thus, the support column 2 and the connecting member 3 are fixed.

  An outer flange 3a is integrally formed at the upper end of the connecting member 3, and the lower portion of the base 4 is connected to the outer flange 3a.

  The base body 4 is formed in a truncated cone shape having a small diameter on the lower side, and is placed on the outer flange 3a of the connecting member 3 in a small diameter portion below the base body 4 and is integrally connected by a connecting bolt 14. ing.

  Further, an outer flange 4 a is integrally formed on the large diameter portion above the base body 4.

  On the other hand, the secondary battery 7 and the control means 9 are mounted in the center of the base body 4 via a state or the like, and the luminous body 8 and the peripheral wall of the base body 4 are attached. The ventilation portion 12 is provided.

  The light emitter 8 is mounted on the peripheral wall of the base body 4 at a predetermined interval around the axis thereof, the light projecting portion is exposed to the outer surface of the peripheral wall, and the space between the peripheral wall and the peripheral wall is waterproofed. ing.

  The ventilation portion 12 includes a ventilation hole 12a formed between the portions where the light emitters 8 are provided, a hood 15 having a plurality of downward openings 15a as shown in FIG. And an air-permeable filter 16 that covers the plurality of openings 15a from the inside.

  The ventilation section 12 is configured by attaching the filter 16 to the outer surface of the base body 4 so as to cover the ventilation hole 12a in a state where the filter 16 is superimposed on the inside of the hood 15. ing.

  As shown in FIG. 2, the hood 15 is attached to the outer surface of the base 4 by bolts 17, and a waterproof treatment is performed between the hood 15 and the outer surface of the base 4.

  The top cover 5 is formed in a spherical shell shape with a light-transmitting material such as acrylic or polycarbonate, and its peripheral edge portion is an outer flange 5a (see FIGS. 4 and 5).

  The photovoltaic power generation panel 6 is formed in a disk shape having an outer diameter substantially equal to the outer diameter of the outer flange 5 a of the top cover 5, and is superimposed on the lower surface of the outer flange 5 a of the top cover 5. It is supposed to be.

  As shown in FIGS. 4 and 5, the support ring 10 is formed such that the cross section thereof is a horizontal portion 10 a that faces the upper surface of the outer flange 5 a, and a right angle to the horizontal portion 10 a, It is formed in an L shape by a vertical portion 10b opposed to the peripheral side surface of the outer flange 5a.

  The height of the inner surface of the vertical portion 10b is set to be approximately equal to the thickness when the outer flange 5a of the top cover 5 and the photovoltaic power generation panel 6 are overlapped.

  Further, a stay 18 protruding toward the center of the support ring 10 is integrally provided on the lower surface of the vertical portion 10b of the support ring 10 as shown in FIG.

  The stays 18 are provided at a plurality of locations spaced in the circumferential direction of the support ring 10, and a locking plate 19 is attached to each stay 18 by a fastening device 20 including a bolt and a nut. Has been.

  The locking plate 19 is formed to have a length that can protrude from the stay 18 to the inside of the support ring 10, and the top cover 5 and the sunlight that are superimposed on the horizontal portion 10 a of the support ring 10. The power generation panel 6 is made to face the lower surface of the photovoltaic power generation panel 6.

  A shim 21 is interposed between the locking plate 19 and the lower surface of the photovoltaic panel 6, and by screwing the locking plate 19 to the stay 28 with the fastener 20, The top cover 5 and the photovoltaic panel 6 are fixed inside the support ring 10 by pressing the shim 21 against the lower surface of the photovoltaic panel 6.

  In this fixed state, the lower surface of the photovoltaic power generation panel 6 and the lower surface of the support ring 10 are positioned in the same plane as shown by arrows (A) and (B) in FIG. Yes.

  Further, as shown in FIG. 5, the spacer 11 having a predetermined height is integrally attached to the lower surface of the vertical portion 10 b of the support ring 10 at a position spaced from the stay 18.

  Each of the spacers 11 includes a vertical portion 11 a that extends downward from the vertical portion 10 b of the support ring 10, and a horizontal portion 11 b that extends from below the vertical portion 11 a toward the center of the support ring 10.

  The spacer 11 has a horizontal portion 11b abutted against the outer flange 4a formed on the upper portion of the base body 4, and the outer flange 4a is fixed to the outer flange 4a by a fastener 22 made of bolts and nuts. By being fixed, the support ring 10 is fixed to the base body 4 with a predetermined gap G between the support ring 10 and the upper end portion of the base body 4.

  On the other hand, an anchor structure 23 for fixing the support 2 to the ground is fixed to the lower part of the support 2.

  The anchor structure 23 includes a plurality of lower connecting rods 24 that are radially attached to the lower end of the support column 2, a lower ring 25 that is disposed around the support column 2 and is fixed to the lower connection rod 24, and A plurality of upper connecting rods 26 that are radially attached to the support column 2 at a position spaced from the lower connecting rod 24, and are disposed so as to surround the support column 2 and fixed to the upper connecting rod 26. An upper ring 27 and a plurality of vertical rods 28 connecting the lower ring 25 and the upper ring 27 are configured.

  The crime prevention unit 1 of the present embodiment configured as described above is attached to the tip of the column 2 by the connecting member 3, and the column 2 is embedded in the ground with the anchor structure 23 provided below the column 2. Thus, it is installed at a predetermined height at a target position.

  In a situation where sunlight is obtained, the electric power generated by the solar power generation panel 6 is stored in the secondary battery 7, and this electric power is used for light emission of the light emitter 8 at night or the like.

  As a result, the surroundings of the installation place are brightly illuminated by the illumination from the crime prevention unit 1 and are used for crime prevention at night and the like.

  In such lighting, the power generated and stored in the crime prevention unit 1 is used, thereby eliminating the need for external power, reducing the installation cost, and ensuring the crime prevention action even during a power failure. be able to.

  And the air in the space part S formed between the said base | substrate 4 and the top cover 5 is heated by irradiation of the sunlight to the said crime prevention unit 1, or heat_generation | fever of an internal apparatus.

  Due to the temperature rise of the internal air, an updraft is generated in the space S, and this updraft reaches the lower surface of the photovoltaic power generation panel 6 positioned under the top cover 5, It flows along the lower surface of the photovoltaic power generation panel 6 and flows out from the gap G to the outside.

  On the other hand, when the air in the space portion S flows out to the outside in this way, a pressure drop occurs in the space portion S, and accordingly, the outside air passes through the ventilation portion 12 and the outside air flows into the space portion S. Drawn into.

  Due to such a pressure difference inside and outside the space S and the above-described airflow, ventilation in the space S is continuously performed as shown by arrows in FIG.

Due to such a ventilation action, heat in the space S is released to the outside, and a temperature rise in the space S is suppressed.
Incidentally, when the change in the internal temperature was measured in an environment where the outside air temperature was 35 ° C., it was confirmed that the internal temperature was maintained below 40 ° C.

  Thereby, the temperature rise of various devices installed in the space S is effectively suppressed, and the soundness of these devices is ensured.

In particular, since the airflow is formed along the lower surface of the photovoltaic power generation panel 6, the photovoltaic power generation panel 6 is effectively cooled, and the power generation efficiency changes greatly due to thermal influence. The temperature rise of 6 is suppressed, the fall of the power generation efficiency is prevented, and it stabilizes.
As a result, the crime prevention effect can be stably and continuously maintained.

  Note that the shapes, dimensions, and the like of the constituent members shown in the embodiment are examples, and can be variously changed based on design requirements and the like.

  For example, an imaging device is installed on the base 4 and the imaging device is operated using the power of the secondary battery 7 to collect information on the situation around the crime prevention unit 1 as an image. be able to.

In addition, as shown in FIG. 7, a side cover 29 having air permeability may be attached to the gap G so as to cover the gap G.
As a result, insects can be prevented from entering the crime prevention unit 1 or water droplets can be prevented from entering during rainy weather.

  In addition, although an example in which the hood 15 and the filter 16 are mounted on the outer surface side of the base body 4 has been shown, the hood 15 and the filter 16 may be mounted from the inside.

  Further, as shown in FIG. 8, the lower ring 31 of the anchor structure 30 provided at the lower portion of the support 2 has an outer diameter substantially equal to the outer diameter D of the support ring 10, and from the lower end of the support 2. The lower connecting rod 32 for connecting the lower ring 30 and the support column 2 is inclined with respect to the plane orthogonal to the support column 2 (below the distance indicated by the symbol H in the figure) Furthermore, the vertical rod 33 that connects the lower ring 31 and the upper ring 27 may be inclined with respect to the vertical direction.

  By setting it as such a structure, the intensity | strength with respect to the fall direction of the said support | pillar 2 can be raised.

DESCRIPTION OF SYMBOLS 1 Crime prevention unit 2 Support | pillar 3 Connecting member 3a Outer flange 4 Base | substrate 4a Outer flange 5 Top cover 5a Outer flange 6 Solar power generation panel 7 Secondary battery 8 Light emitter 9 Control means 10 Support ring 10a Horizontal part 10b Vertical part 11 Spacer 11a Vertical portion 11b Horizontal portion 12 Vent portion 12a Vent hole 13 Lock bolt 14 Connecting bolt 15 Hood 15a Opening 16 Filter 17 Bolt 18 Stay 19 Locking plate 20 Fastening tool 21 Shim 22 Fastening tool 23 Anchor component 24 Lower connection Rod 25 Lower ring 26 Upper connecting rod 27 Upper ring 28 Vertical rod 29 Side cover 30 Anchor structure 31 Lower ring 32 Lower connecting rod 33 Vertical rod G Clearance S Space

Claims (7)

  A security unit to be attached to a tip end portion of a support column erected on the ground, a connection member that is detachably attached to the support column, a base member that is attached to the connection member and has an open top, and the base member A top cover having a light-transmitting property that forms a space portion with the base body, and a photovoltaic power generation panel that is installed in the space portion and converts sunlight into electric energy, Secondary battery for storing electric power generated by a solar power generation panel, a light emitter that emits light by the electric power supplied from the secondary battery, and control means for controlling power supply from the secondary battery to the light emitter The top cover is superimposed on the photovoltaic power generation panel, and the top cover and the photovoltaic power generation panel are supported by an annular support ring at the peripheral edge thereof. The support ring and the base body are connected to each other through a spacer that forms a gap therebetween, and the base body is formed with a ventilation portion that communicates the inside and the outside. Security unit to do.   The crime prevention unit according to claim 1, wherein the lower surface of the photovoltaic power generation panel and the lower surface of the support ring are positioned on substantially the same plane.   The vent is formed on a side surface of the base body, a hood that is attached to the base body so as to cover the vent hole, and has a plurality of openings that are opened downward. The crime prevention unit according to claim 1 or 2, comprising a breathable filter interposed between the substrate and the base.   The crime prevention unit according to any one of claims 1 to 3, wherein a side cover having air permeability is attached to a gap formed between the base and the support ring.   The security unit according to any one of claims 1 to 4, wherein the light emitter is an LED.   The crime prevention unit according to claim 1, wherein the base body has a substantially truncated cone shape with a small diameter at the bottom. The security unit according to any one of claims 1 to 6, wherein an imaging device that is supplied with electric power from the secondary battery and is controlled by the control means is mounted in the base body. .