JP2012238475A - Security light - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a security light capable of widening an irradiation area in spite of usage of LEDs.SOLUTION: The security light 1 includes a support pillar 2 having a sunlight panel section 10 and erected on the ground, a power supply section arranged on the support pillar 2 and accumulating power generated by the sunlight panel section 10 to supply it as AC electricity, a lateral beam member 26 extended in a lateral direction at an upper part of the support pillar 2, a lamp holding mechanism 4 arranged on a tip zone section of the lateral beam member 26 and having a lamp mounting plate 55 for mounting a plurality of LED lamps 7, and a cable 33 wired over a plurality of LED lamps 7 through the power supply section from the sunlight panel section 10. The lamp holding mechanism 4 is to be rotatable in a horizontal plane against a mounting center P of the lamp mounting plate 55.

Description

  The present invention relates to a security light, and more particularly to a security light that can be installed in a place without an external power source and can increase an irradiation area despite the use of an LED illumination light.

Conventionally, outdoor lighting devices such as street lights and security lights are installed on roads and parks in various places.
In general, an incandescent bulb, a mercury lamp, a fluorescent lamp, or the like has been used as a light source in the outdoor lighting apparatus.

In recent years, outdoor lighting fixtures using LEDs (Light Emitting Diodes) have been proposed as light sources to replace incandescent bulbs and the like from the viewpoints of long life, ecology and prevention of global warming (for example, patents). Reference 1).
The outdoor lighting apparatus disclosed in Patent Document 1 has a configuration that can irradiate a plurality of white LEDs and blue LEDs simultaneously.

Furthermore, a multifunctional security light that can be installed without using an LED and an external power source has been developed (see, for example, Patent Document 2).
The multi-function crime prevention lamp disclosed in Patent Document 2 is configured such that electricity charged in the daytime by the solar battery module is charged in the storage battery, and the LED illumination lamp is driven by electricity from the storage battery.

JP 2008-135381 A Utility Model Registration No. 3151529

  However, in the outdoor lighting fixture disclosed in Patent Document 1, a lamp body equipped with a plurality of white LEDs and blue LEDs is provided on the support pillar 2, but the white LED or the like does not diffuse light and the lamp body. Has a problem that the irradiation area is narrow.

  In the multi-function security light disclosed in Patent Document 2, as described above, the electricity charged in the daytime by the solar battery module is charged to the storage battery, and the LED illumination light is driven by the electricity from the storage battery. Although it is configured, the LED illumination lamp itself is in a state of being fixed to the support support column 22, and has the same problem as the outdoor illumination fixture disclosed in Patent Document 1. That is, since the LED lighting is fixed, there is a problem that the irradiation area is narrow.

  An object of the present invention is to provide a security light capable of widening an irradiation area in spite of the use of an LED in order to solve the above-described problems.

  In order to achieve the above object, the crime prevention light of the present invention includes a solar panel portion and a support pillar standing on the ground, and stores power generated by the solar panel section provided on the support pillar. In addition, an LED power supply unit that sends out AC power, a horizontal beam member that extends in the horizontal direction above the support pillar, and a lamp holding mechanism that holds a plurality of LED lamps provided at the tip region of the horizontal beam member The lamp holding mechanism holds the lamp mounting plate provided in advance in a horizontal plane so as to be rotatable.

According to the crime prevention lamp of the present invention, since the lamp mounting plate on which the plurality of LED lamps are mounted is rotated in a horizontal plane by the lamp holding mechanism, for example, the light diffusion of the LED lamp is small and the irradiation area of each LED lamp is small. Even if is narrow, continuous light is formed by a plurality of rotating LED lamps. As a result, although the LED is used, the irradiation area can be increased.
In addition, since the lamp mounting plate on which a plurality of LED lamps are mounted rotates in a horizontal plane, it is also interesting to look at, and the first-time viewer stops and looks up.

It is a block diagram which shows 1st Embodiment of the security light which concerns on this invention, and shows the whole structure of a security light. It is a whole front view which shows the crime prevention light of the said embodiment. It is a front view which shows the principal part of the crime prevention light of the said embodiment. It is a top view of the partial cross section along the IV-IV line in FIG. It is a longitudinal cross-sectional view which shows the principal part of the crime prevention light of the said embodiment. It is a figure which shows the terminal box which removed the lid | cover by VI arrow in FIG. It is a front view which shows the principal part of the security light in 2nd Embodiment of the security light which concerns on this invention. It is a top view of the partial cross section along the VIII-VIII line in FIG.

  Below, with reference to FIGS. 1-6, 1st Embodiment of the crime prevention light which concerns on this invention is described.

First, based on FIG. 1, FIG. 2, the whole structure of the crime prevention light of the said 1st Embodiment is demonstrated.
The crime prevention light 1 of the present embodiment includes a solar panel unit 10 and a support column 2 that is erected on the ground, and stores power generated by the solar panel unit 10 provided on the support column 2 and LED power supply unit 3 for sending out as AC power, a horizontal beam member 26 extending in the lateral direction above the support pillar 2, and a plurality of (three in this embodiment) provided in the tip region of the horizontal beam member 26 The lamp holding mechanism 4 that holds the LED lamp 7 and the cover member 8 that covers the lamp holding mechanism 4 and the like are provided.

  The lamp holding mechanism 4 can hold the lamp mounting plate 55 on which the three LED lamps 7 are mounted in advance so as to be rotatable around the mounting center P of the lamp mounting plate 55 in a horizontal plane. . That is, in the present invention, the three LED lamps 7 are rotatable in a horizontal plane.

As shown in FIG. 2, the support column 22 includes a lower column 20 and an upper column 21.
The lower column 20 is formed of, for example, a square pipe, a lower portion thereof is embedded in the ground, and a base plate 25 is fixed by anchor bolts 22.
The upper column 21 is formed of, for example, a round pipe. The lower column 20 and the upper column 21 are fixed to each other via a flange 23 fixed to the upper end of the lower column 20 and a flange 24 fixed to the lower end of the upper column 21.

The power supply unit 3 is provided on the lower column 20 of the support column 22.
The power supply unit 3 is a charge controller (converter) 30 that controls the electric power generated by the solar panel unit 10, a battery 31 that can store the electric power and can be used repeatedly, and converts an electric direct current into an alternating current. An inverter 32 that outputs AC power and a cable 33 wired to connect the members 30, 31, 32, and the like are provided.
Each of the converter 30, the two batteries 31 and 31, and the inverter 32 is supported by a support member (not shown) provided in the lower column 20 of the support column 22.

In addition, the solar panel portion 10 is provided on the support pillar 22.
The solar panel unit 10 includes a frame body 11 fixed to the upper end of the upper column 21 and a solar panel body 12 attached to the frame body 11.
And the said frame 11 becomes a structure which can adjust the attachment angle of the solar panel main body 12 so that sunlight can be received more efficiently.

A horizontal beam member 26 extending in a lateral direction substantially perpendicular to the upper column 21 is attached to the upper portion of the upper column 21 in the support column 22.
The cross beam member 26 is formed of, for example, a round pipe. Further, the cross beam member 26 and the upper column 21 are reinforced by reinforcing ribs 27 provided across the lower surface of the cross beam member 26 and the side surface of the upper column 21.

A switch portion 15 is provided in the middle of the cross beam member 26.
The switch unit 15 is configured to automatically switch on / off in accordance with the brightness of the outside air, and can set the time.
For example, it can be set so that the switch is turned on from 16:00 to 20:00 depending on the season, and the switch is turned off from 5:00 to 6:00 in the morning.
A power cable 33 wired in the support column 22 and passing through the inverter 32 is connected to the switch unit 15 by being drawn out from the middle of the cross beam member 26, and the power cable 33 via the switch unit 15 is It is returned into the cross beam member 26 and wired toward the lamp holding mechanism 4 side.

As shown in FIGS. 3 to 5, the lamp holding mechanism 4 is provided at the tip region of the cross beam member 26.
That is, the lamp holding mechanism 4 includes a base member 40 provided at the lower end of the cross beam member 26 and extending horizontally at the tip of the cross beam member 26. The base member 40 is a rectangular plate member. Is formed.
The base member 40 is provided with a rotating mechanism portion 5 having a lower end portion connected to the lamp mounting plate 55 from the upper side to the lower side, and is rotatably held.

As shown in detail in FIG. 5, the rotation mechanism unit 5 includes a pipe member 43 provided through the base member 40, and a diamond flange that is attached to the base member 40 and rotatably supports the pipe member 43. A rotary connector coupling that integrally accommodates the shape bearings 42, 42, a rotary connector 44 (rotation maintaining connector) provided at the upper end of the pipe member 43, and an outer cylindrical portion 44B of the rotary connector 44. 45.
A disc-shaped flange 47 that is an attachment portion of the lamp attachment plate 55 is provided at the lower end portion of the pipe member 43.

The rhombus-shaped bearings 42 and 42 are bearing units in which a ball bearing for unit and a bearing box having a diamond-shaped flange are combined, and have a structure having an outer ring portion 42A and an inner ring portion 42B which is a center portion of the bearing.
The outer ring portion 42A is fixed to the base member 40, and the pipe member 43 is fixed to the inner ring portion 42B in an integrated state. Therefore, the inner ring portion 42B and the pipe member 43 are rotatable.
Further, the end portions in the vertical direction of the diamond flange bearings 42, 42 are positioned by bearing holders 46 attached to the outer periphery of the pipe member 43.

  As described above, the rotary connector coupling 45 is fixed to the upper end portion of the pipe member 43. The rotary connector 44 is housed inside the coupling 45 and is attached to the coupling 45 by screws screwed from the outer periphery of the coupling 45. It is configured.

  Here, the rotary connector 44 has a structure in which the inner cylinder portion 44A and the outer cylinder portion 44B are relatively rotatable, and is a connector of a type in which mercury enclosed in the inside is connected. . The outer cylinder portion 44B is integrated with the rotary connector coupling 45 so as to rotate around the attachment center P.

Further, between the disk-shaped flange 47 provided at the lower end of the pipe member 43 and the bearing retainer 46, a driven sprocket 64 constituting a rotational force transmission mechanism 62, which will be described in detail later, and a spacer 66 are provided. Are arranged.
In addition to the members such as the diamond flange bearing 42, the pipe member 43, and the disc-shaped flange 47, the rotation mechanism portion 5 includes the driven sprocket 64 and the spacer 66.

The central portion of the rotary connector 44, that is, the inner cylinder portion 44 </ b> A is fixed to the base member 40 via the fixing mechanism portion 6.
That is, the fixing mechanism portion 6 includes an inner cylinder portion 44A of the rotary connector 44, a rotation stopper portion 52 provided on the inner cylinder portion 44A via a fixing ring 51, and the rotation stopper portion. And a stopper member 53 that abuts on 52 and prevents the rotation of the inner cylindrical portion 44A.
The stopper portion 52 for rotation prevention is formed of a strip-shaped plate member, and is provided on the fixing ring 51 so as to protrude laterally.
On the other hand, the stopper member 53 is a plate member having an L-shaped cross section, and an upper end portion is formed with an abutting portion 53A that abuts against the stopper portion 52 for rotation prevention.

Accordingly, when the outer cylinder portion 44B of the rotary connector 44 rotates together with the rotary connector coupling 45 and the like, the inner cylinder portion 44A of the rotary connector 44 also tries to rotate. Comes into contact with the contact portion 53A of the stopper member 53, so that the inner cylinder portion 44A of the rotary connector 44 is fixed.
As a result, the power cable 33A connected to the inner cylinder portion 44A of the rotary connector 44 can be prevented from being twisted.

The rotation mechanism unit 5 is driven by a lamp rotation drive mechanism 60 provided in the lamp holding mechanism 4 at the tip region of the cross beam member 26.
That is, as shown in FIG. 3, the lamp rotation driving mechanism 60 uses a motor 61 with a speed reducer held on the base member 40 via a motor mounting plate 67 and the rotational driving force of the motor 61 with this speed reducer. And a rotational force transmission mechanism 62 for transmitting to the lamp mounting plate 55.
Here, the motor 61 with a speed reducer is provided on the motor mounting plate 67 provided on the lower surface of the distal end portion of the base member 40 and extending forward.

  The rotational force transmission mechanism 62 includes a driving sprocket 63 mounted on the motor 61 with a reduction gear, a driven sprocket 64 connected to the lamp mounting plate 55 via the disk-shaped flange 47 and the spacer 66, And a chain 65 that is a power transmission member for connecting the sprockets 63 and 64 to each other.

  As shown in FIG. 4, the base member 40 and the motor mounting plate 67 are formed of flat rectangular plate members, and the motor mounting plate 67 is slidable with respect to the base member 40.

That is, as shown in FIG. 5, a long hole 67 </ b> A formed along the longitudinal direction of the cross beam member 26 is formed at one end of the motor mounting plate 67. Screw holes are formed corresponding to the long holes 67A.
Therefore, the mounting bolt 68 is inserted from below the motor mounting plate 67 toward the long hole 67A, the motor mounting plate 67 is slid along the direction indicated by the arrow A to a predetermined position, and the mounting bolt 68 is screwed into the screw hole. Thus, the base member 40 and the motor mounting plate 67 can be fixed at appropriate positions.

The motor mounting plate 67 is slid by operating a tension bolt 70 as shown in FIGS.
That is, the tension bolt 70 is screwed into the threaded portion of the mounting base 71 erected on the upper surface of one end of the base member 40, and the tip of the tension bolt 70 is connected to the side surface of the motor 61 with speed reducer. Contact is possible.
Therefore, the motor mounting plate 67 can be slid with respect to the base member 40 by moving the tension bolt 70 forward or backward.
Thus, the tension of the chain 65 hung between the driving sprocket 63 and the driven sprocket 64 can be adjusted.

Here, the driven sprocket 64 and the driving sprocket 63 are configured to have a gear ratio of 4: 1, for example. The rotation of the motor is decelerated so that the rotational speed of the driving sprocket 63 is, for example, 5 rpm, and as a result, the driven sprocket 64 rotates at a rotational speed of 1.25 rpm. become. That is, the three LED lamps 7 are each rotated at a rotation speed of 1.25 rpm.
The rotation speed of each LED lamp 7 can be changed to an arbitrary rotation speed.

As shown in detail in FIG. 5, the power cable 33A for the LED lamp 7 connected to the terminal of the inner cylinder portion 44A of the rotary connector 44 is used for branching the cable from the power cable 33 wired in the cross beam member 26. The first terminal block 75 branches off.
In the first terminal block 75, in addition to the power cable 33A branched to the LED lamp 7 side, a power cable 33B branched to the motor 61 with a speed reducer constituting the lamp rotation drive mechanism 60 is connected. It has become.

That is, the first terminal block 75 is supported by the support member 76 erected at the end of the cross beam member 26. The power cable 33 that has passed through the cross beam member 26 is connected to the input terminal at one end of the first terminal block 75, and from the output terminal at the other end of the first terminal block 75 to the rotary connector 44 side and the speed reducer. It branches to the attached motor 61 side.
At this time, the electric cable 33A branched to the rotary connector 44 side is connected to the terminal of the inner cylinder portion 44A, and as described above, even if the outer cylinder portion 44B of the rotary connector 44 rotates, The tube portion 44A is fixed and does not rotate, and as a result, the electric cable 33A is not twisted.

The driven sprocket 64 is attached below the rhombus flange bearings 42, 42 mounted on the back surface of the base member 40 in the pipe member 43, with the upper surface contacting the lower surface of the bearing retainer 46.
As described above, the disc-shaped flange 47 is fixed to the driven sprocket 64 via the spacer 66. Here, the lower end of the pipe member 43 is fitted into the through hole of the disk-shaped flange 47 and is fixed to the disk-shaped flange 47 by welding.

The lamp mounting plate 55 is fixed to the upper surface of the disc-shaped flange 47.
The lamp mounting plate 55 is formed of a plate member having a predetermined thickness, and as shown in FIG. 4, is formed into a substantially triangular shape in a plane that is equally divided into three directions by 120 ° in a horizontal plane. As shown in FIG. 3, a bent portion that is bent at a substantially right angle downward is formed in each apex region of the triangle, and this bent portion serves as an attachment portion 55 </ b> A of the LED lamp 7.

As shown in FIGS. 5 and 6, a rectangular box-like terminal box 79 having a lid 78 is attached to the lower surface of the disk-like flange 47.
Inside the terminal box 79, a second terminal block 80 for branching the LED lamp power cable 33A wired in the pipe member 43 into three LED lamps 7 is arranged. The second terminal block 80 is supported in a suspended state inside the terminal box 79 by a support member 76 fixed to the lower surface of the disc-shaped flange 47.

  Two power cables 33 </ b> A passing through the pipe member 43 are respectively connected to the two terminals at one end of the second terminal block 80. The three terminals at the other end of the second terminal block 80 are connected to the ends of the power cable 33A connected to the three LED lamps 7 respectively.

On the three side surfaces of the terminal box 79, wiring connectors 82 called "capcom" (trade names) are respectively screwed and attached.
As described above, the power supply cable 33A connected to the three LED lamps 7 is inserted into the wiring connector 82, and its end is connected to the three terminals at the other end of the second terminal block 80. It has become so.

  As shown in FIG. 3, each LED lamp 7 is provided with a mounting seat 7 a that is abutted and fixed to a mounting portion 55 </ b> A of the lamp mounting plate 55, and a tip of the mounting seat 7 a that is rotatable in a horizontal plane. The shaft portion 7b and a lamp body 7c provided on the shaft portion 7b are provided.

The shaft portion 7b is provided with a knob 7d capable of adjusting the angle of the lamp main body 7c. By operating this knob 7d, the lamp main body 7c is moved to a vertical plane as indicated by a virtual line in FIG. For example, the angle can be set to 15 °.
The three LED lamps 7, 7, and 7 are set to have the same mounting distance L from the mounting center P as shown in FIG.

Next, the operation of the security light 1 configured as described above will be described.
Electricity generated by the solar panel body 12 of the solar panel unit 10 is sent from the cable 33 to the battery 31 via the converter 30 and is always stored in the battery 31.

  Now, at the time set in the evening, when the switch unit 15 is turned on, the electricity from the power cable 33 is branched at the first terminal block 75, and is supplied to the LED lamp power cable 33A and the drive power cable 33B. The current flows to the terminal of the inner cylinder portion 44A of the rotary connector 44, and at the same time, the current flows from the drive power cable 33B to the motor 61 with a speed reducer.

Electricity that has flowed into the inner cylindrical portion 44A of the rotary connector 44 is connected to the second terminal block 80 via the power cable 33A wired in the pipe member 43 via the rotary connector 44.
Next, electricity flows from the power cables 33A, 33A, and 33A branched in three directions by the second terminal block 80 to the three LED lamps 7 respectively, whereby the respective LED lamps 7 are lit.
In addition, when it becomes bright in the morning, the switch unit 15 is turned off, and the lighting of the three LED lamps 7 is automatically stopped.

At the same time, the motor 61 with a speed reducer rotates, and the driving sprocket 63 is rotated by the rotation, and the driven sprocket 64 is further rotated through the chain 65.
Therefore, the three LED lamps 7 slowly rotate at a predetermined rotation speed, for example, 1.25 rpm, and continuously illuminate the lower part of the three LED lamps 7.

According to the security light 1 of the first embodiment configured as described above, the following effects can be obtained.
(1) The crime prevention light 1 is provided with three LED lamps 7 and is switched on by a switch unit 15 at a set time until each LED lamp 7 is turned on and then switched off at the set time. Each LED lamp 7 is always rotating at a predetermined rotational speed. Therefore, although the irradiation area of each LED lamp 7 is narrow, since the lower part of the lamp is continuously illuminated by the three LED lamps 7, the irradiation area can be increased as a result. And a bright place can be provided, which is useful for crime prevention.

  (2) Since the solar panel unit 10 is used as a power source, it can be used as the security light 1 without an external power source and can be eco-friendly.

  (3) Since two batteries 31 constituting the power supply unit 3 are installed, continuous operation for a long time is possible.

  (4) The power cable 33 wired in the cross beam member 26 is branched into the LED lamp power cable 33A and the motor power cable 33B at the first terminal block 75, and is also wired in the pipe member 43. The power cable 33 </ b> A thus branched off into the power cable 33 </ b> A connected to the three LED lamps 7 at the second terminal block 80. Therefore, the single power cable 33 from the solar panel 62 can be easily used for a plurality of members.

  (5) The lamp body 7c of the three LED lamps 7 can be adjusted in angle with respect to the shaft portion 7b by operating a knob 7d provided on the shaft portion 7b of the lamp 7. Therefore, by setting the angles of the LED lamps 7 to different angles, the width of the light irradiated by the LED lamps 7, 7, 7 rotating continuously can be widened, thereby reducing the irradiation area. Can be greatly widened.

  (6) Since the three LED lamps 7 rotate around the mounting center P of the lamp holding mechanism 4 at a predetermined rotation speed, for example, 1.25 rpm, it is also interesting to look at. Thus, the crime prevention light 1 can be obtained with an increased degree of attention and excellent crime prevention.

Next, based on FIG. 7, FIG. 8, 2nd Embodiment of the crime prevention light based on this invention is described.
Note that in the security light 1A of the second embodiment, the same reference numerals are given to the same structure and the same members used as the security light 1 of the first embodiment, and the detailed description will be made only on different parts.

In the crime prevention light 1A of the second embodiment, the distances from the mounting center P of the three LED lamps 7A, 7B, 7C are set to different dimensions.
That is, while the distance from the mounting center P of the first LED lamp 7A is set to L1, the distance from the mounting center P of the second LED lamp 7B arranged in the counterclockwise direction in FIG. Similarly, the distance from the mounting center P of the third LED lamp 7C is set to L3.
Therefore, the lamp mounting plate 85 for mounting the LED lamps 7A, 7b, 7C has a substantially triangular shape deformed with respect to the lamp mounting plate 55 of the first embodiment, and an LED is provided at each apex region of the triangle. A mounting portion 85A for attaching the lamp 7A and the like is formed.

  Since the LED lamps 7A, 7b, and 7C are arranged as described above and rotate around the mounting center P, as shown in FIG. 7, the light emitted by the LED lamps 7A, 7b, and 7C. , The width of the dimension extending over the distances L1 and L3 from the mounting center P, the irradiation area is greatly increased.

  And also in this 2nd Embodiment, as shown in FIG. 3 of the said 1st Embodiment, each angle adjustment of the three LED lamps 7 is possible, and each is the same angle or a different angle. Can be set to

According to the crime prevention light 1A of the second embodiment configured as described above, the following effects can be obtained in addition to the effects similar to the above (1) to (6).
(7) The distances from the mounting center P of the three LED lamps 7A, 7b, and 7C are set to different dimensions from L1, L2, and L3, respectively, and each rotates around the mounting center P. Therefore, the width of the light emitted by each of the LED lamps 7A, 7b, 7C is formed to have a width that spans the distances L1 and L3 from the mounting center P. As a result, the irradiation area is greatly increased.

  Although the present invention has been described with reference to the above embodiments, the present invention is not limited to the embodiments. Various changes that can be understood by those skilled in the art can be made to the configuration and details of the present invention. Further, the present invention includes a combination of some or all of the configurations of the above-described embodiments as appropriate.

  For example, in the first and second embodiments, three LED lamps 7 are arranged. However, if there are a plurality of LED lamps 7, for example, two may be used, but three or more, for example, four are arranged at equal positions of 90 °. May be.

  Moreover, in each said embodiment, although the two batteries 31 which comprise the power supply part 3 are arrange | positioned, it is not restricted to this. Three, four, or more may be provided so that a longer operation is possible. However, in this case, it is difficult to store the battery in the lower column 20, so a battery storage hangar that covers the lower column 20 may be provided below the lower column 20.

  Further, in each of the above embodiments, the rotational force transmission mechanism 62 is constituted by the driven sprocket 64, the driving sprocket 63, and the chain 65 hung between these sprockets 64, 63, but is not limited thereto. For example, a rotational force transmission mechanism using a flat belt wheel and a flat belt, or a V belt wheel and a V belt may be used.

  Further, in each of the above embodiments, the stopper member 53 for fixing the inner cylinder portion of the rotary connector 44 is provided on the base member 40. However, the present invention is not limited to this. For example, the cross beam member 26 may be provided.

  Further, in each of the above embodiments, the lamp mounting portion 55A of the lamp mounting plate 55 is formed by bending each apex portion having a substantially triangular shape downward, but the present invention is not limited to this. The three LED lamps 7 may be directly mounted on the back surface of the lamp mounting plate at the equally divided position 3 without bending the lamp mounting portion of the lamp mounting plate. In this way, the labor of bending work can be saved.

  The present invention can be used when installing as a security light at the side of a road, a park, an entrance of a housing complex, or the like.

DESCRIPTION OF SYMBOLS 1 Security light 2 Support pillar 3 Power supply part 4 Lamp holding mechanism 5 Rotation mechanism part 6 Fixing mechanism part 7 LED lamp 10 Sunlight panel part 15 Switch part 30 Converter 31 Battery 32 Inverter 40 Base member 42 Diamond flange type bearing 43 Pipe member 44 Rotary Connector 45 Rotary Connector Coupling 47 Disc Flange 53 Stopper Member 55 LED Lamp Mounting Plate 60 Lamp Rotation Drive Mechanism 61 Motor with Reducer 62 Rotational Force Transmission Mechanism 63 Drive Sprocket 64 Drive Sprocket 65 Power Transmission Chain that is a member 70 Bolt for tension 75 First terminal block 79 Terminal box 80 Second terminal block A Slide direction P Mounting center

Claims (10)

A support column provided with a solar panel and standing on the ground,
An LED power supply unit that stores power generated by the solar panel unit and is supplied to the support column and sends out the AC power; and
A cross beam member extending laterally at the top of the support column;
A lamp holding mechanism that is provided at the tip region of the cross beam member and holds a plurality of LED lamps,
The crime prevention light, wherein the lamp holding mechanism holds a lamp mounting plate provided in advance in a horizontal plane. In the security light according to claim 1,
The lamp holding mechanism;
A base member fixed horizontally to the tip of the transverse beam member;
A rotation mechanism that is rotatably supported by the base member and is disposed on the base member from above to below.
A security light, wherein the lamp mounting plate is connected to a lower end portion of the rotating mechanism portion. In the security light according to claim 2,
The rotation mechanism section,
A pipe member that penetrates the base member and is rotatably arranged via a bearing 42, and a rotary connector provided at an upper end of the pipe member.
Provide a mounting portion for the lamp mounting plate at the lower end of the pipe member,
A crime prevention light characterized in that a central portion of the rotary connector is fixed to the base member via a fixing mechanism portion. In the security light according to claim 2 or claim 3,
A lamp rotation driving mechanism for driving the rotation mechanism unit is provided in the lamp holding mechanism at the tip region of the cross beam member,
The lamp rotation driving mechanism;
A security device comprising: a motor 61 with a speed reducer held by the base member; and a rotational force transmission mechanism 62 for transmitting a rotational driving force of the motor 61 with a speed reducer to the lamp mounting plate. light. In the security light according to claim 4,
The rotational force transmission mechanism 62 is
A driving sprocket equipped in the motor 61 with a speed reducer;
A driven sprocket connected to the lamp mounting plate;
A security light comprising: a power transmission member that connects the sprockets to each other. In the security light according to any one of claims 1 to 3,
A security light characterized in that the plurality of LED lamps are constituted by three LED lamps, and these LED lamps are arranged at equal intervals on the outer peripheral portion of the lamp mounting plate. In the security light according to claim 6,
A lamp mounting portion for mounting the three LED lamps is provided on the outer periphery of the lamp mounting plate, and each of the lamp mounting portions is bent downward with respect to the flat portion of the lamp mounting plate. Security light.
In the security light according to any one of claims 1 to 7,
A security light, comprising: a switch unit that is arranged between the support column and the lamp holding mechanism and automatically switches on and off at a set time. In the security light according to any one of claims 6 to 8,
A crime prevention light characterized in that the mounting dimension from the mounting center of the lamp mounting plate to the center of the lamp portion of the three LED lamps is set to an equal distance. In the security light according to any one of claims 6 to 8,
A security light, wherein the mounting dimensions from the mounting center of the lamp mounting plate to the center of the lamp portion of the three LED lamps are set to different distances.

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